fbpx
Wikipedia

Tooth decay

February 16, 2024

For caries of bone, see Osteolysis.

Tooth decay, also known as cavities or caries, is the breakdown of teeth due to acids produced by bacteria.[6] The cavities may be a number of different colors from yellow to black.[1] Symptoms may include pain and difficulty with eating.[1][2] Complications may include inflammation of the tissue around the tooth, tooth loss and infection or abscess formation.[1][3]

Tooth decay
Other namesDental cavities, dental caries, cavities, caries
Destruction of a tooth by dental caries and disease
Pronunciation
SpecialtyDentistry
SymptomsPain, tooth loss, difficulty eating[1][2]
ComplicationsInflammation around the tooth, tooth loss, infection or abscess formation[1][3]
DurationLong term
CausesBacteria producing acid from food debris[4]
Risk factorsDiet high in simple sugar, diabetes mellitus, Sjögren syndrome, medications that decrease saliva[4]
PreventionLow-sugar diet, tooth brushing, fluoride, flossing[2][5]
MedicationParacetamol (acetaminophen), ibuprofen[6]
Frequency3.6 billion (2016)[7]

The cause of cavities is acid from bacteria dissolving the hard tissues of the teeth (enamel, dentin and cementum).[4] The acid is produced by the bacteria when they break down food debris or sugar on the tooth surface.[4] Simple sugars in food are these bacteria's primary energy source and thus a diet high in simple sugar is a risk factor.[4] If mineral breakdown is greater than build up from sources such as saliva, caries results.[4] Risk factors include conditions that result in less saliva such as: diabetes mellitus, Sjögren syndrome and some medications.[4] Medications that decrease saliva production include antihistamines and antidepressants.[4] Dental caries are also associated with poverty, poor cleaning of the mouth, and receding gums resulting in exposure of the roots of the teeth.[6][8]

Prevention of dental caries includes regular cleaning of the teeth, a diet low in sugar, and small amounts of fluoride.[2][4] Brushing one's teeth twice per day and flossing between the teeth once a day is recommended.[4][6] Fluoride may be acquired from water, salt or toothpaste among other sources.[2] Treating a mother's dental caries may decrease the risk in her children by decreasing the number of certain bacteria she may spread to them.[4] Screening can result in earlier detection.[6] Depending on the extent of destruction, various treatments can be used to restore the tooth to proper function or the tooth may be removed.[6] There is no known method to grow back large amounts of tooth.[9] The availability of treatment is often poor in the developing world.[2] Paracetamol (acetaminophen) or ibuprofen may be taken for pain.[6]

Worldwide, approximately 3.6 billion people (48% of the population) have dental caries in their permanent teeth as of 2016.[7] The World Health Organization estimates that nearly all adults have dental caries at some point in time.[2] In baby teeth it affects about 620 million people or 9% of the population.[10] They have become more common in both children and adults in recent years.[11] The disease is most common in the developed world due to greater simple sugar consumption and less common in the developing world.[6] Caries is Latin for "rottenness".[3]

Signs and symptoms edit

 
(A) A small spot of decay visible on the surface of a tooth. (B) The radiograph reveals an extensive region of demineralization within the dentin (arrows). (C) A hole is discovered on the side of the tooth at the beginning of decay removal. (D) All decay removed; ready for a filling.

A person experiencing caries may not be aware of the disease.[12] The earliest sign of a new carious lesion is the appearance of a chalky white spot on the surface of the tooth, indicating an area of demineralization of enamel. This is referred to as a white spot lesion, an incipient carious lesion or a "micro-cavity".[13] As the lesion continues to demineralize, it can turn brown but will eventually turn into a cavitation ("cavity"). Before the cavity forms, the process is reversible, but once a cavity forms, the lost tooth structure cannot be regenerated. A lesion that appears dark brown and shiny suggests dental caries were once present but the demineralization process has stopped, leaving a stain. Active decay is lighter in color and dull in appearance.[14]

As the enamel and dentin are destroyed, the cavity becomes more noticeable. The affected areas of the tooth change color and become soft to the touch. Once the decay passes through the enamel, the dentinal tubules, which have passages to the nerve of the tooth, become exposed, resulting in pain that can be transient, temporarily worsening with exposure to heat, cold, or sweet foods and drinks.[15] A tooth weakened by extensive internal decay can sometimes suddenly fracture under normal chewing forces. When the decay has progressed enough to allow the bacteria to overwhelm the pulp tissue in the center of the tooth, a toothache can result and the pain will become more constant. Death of the pulp tissue and infection are common consequences. The tooth will no longer be sensitive to hot or cold but can be very tender to pressure.

Dental caries can also cause bad breath and foul tastes.[16] In highly progressed cases, an infection can spread from the tooth to the surrounding soft tissues. Complications such as cavernous sinus thrombosis and Ludwig angina can be life-threatening.[17][18][19]

Cause edit

 
Diagrammatic representation of acidogenic theory of causation of dental caries. Four factors, namely, a suitable carbohydrate substrate (1), micro-organisms in dental plaque (2), a susceptible tooth surface (3) and time (4); must be present together for dental caries to occur (5). Saliva (6) and fluoride (7) are modifying factors.

Four things are required for caries to form: a tooth surface (enamel or dentin), caries-causing bacteria, fermentable carbohydrates (such as sucrose), and time.[20] This involves adherence of food to the teeth and acid creation by the bacteria that makes up the dental plaque.[21] However, these four criteria are not always enough to cause the disease and a sheltered environment promoting development of a cariogenic biofilm is required. The caries disease process does not have an inevitable outcome, and different individuals will be susceptible to different degrees depending on the shape of their teeth, oral hygiene habits, and the buffering capacity of their saliva. Dental caries can occur on any surface of a tooth that is exposed to the oral cavity, but not the structures that are retained within the bone.[22]

Tooth decay is caused by biofilm (dental plaque) lying on the teeth and maturing to become cariogenic (causing decay). Certain bacteria in the biofilm produce acid in the presence of fermentable carbohydrates such as sucrose, fructose, and glucose.[23][24]

Caries occur more often in people from the lower end of the socio-economic scale than people from the upper end of the socio-economic scale, due to lack of education about dental care, and lack of access to professional dental care which may be expensive.[25]

Bacteria edit

 
A Gram stain image of Streptococcus mutans.
See also: Oral ecology

The most common bacteria associated with dental cavities are the mutans streptococci, most prominently Streptococcus mutans and Streptococcus sobrinus, and lactobacilli. However, cariogenic bacteria (the ones that can cause the disease) are present in dental plaque, but they are usually in too low concentrations to cause problems unless there is a shift in the balance.[26] This is driven by local environmental change, such as frequent sugar intake or inadequate biofilm removal (toothbrushing).[27] If left untreated, the disease can lead to pain, tooth loss and infection.[28]

The mouth contains a wide variety of oral bacteria, but only a few specific species of bacteria are believed to cause dental caries: Streptococcus mutans and Lactobacillus species among them. Streptococcus mutans are gram-positive bacteria which constitute biofilms on the surface of teeth. These organisms can produce high levels of lactic acid following fermentation of dietary sugars and are resistant to the adverse effects of low pH, properties essential for cariogenic bacteria.[23] As the cementum of root surfaces is more easily demineralized than enamel surfaces, a wider variety of bacteria can cause root caries, including Lactobacillus acidophilus, Actinomyces spp., Nocardia spp., and Streptococcus mutans. Bacteria collect around the teeth and gums in a sticky, creamy-coloured mass called plaque, which serves as a biofilm. Some sites collect plaque more commonly than others, for example, sites with a low rate of salivary flow (molar fissures). Grooves on the occlusal surfaces of molar and premolar teeth provide microscopic retention sites for plaque bacteria, as do the interproximal sites. Plaque may also collect above or below the gingiva, where it is referred to as supra- or sub-gingival plaque, respectively.

These bacterial strains, most notably S. mutans, can be inherited by a child from a caretaker's kiss or through feeding pre-masticated food.[29]

Dietary sugars edit

Bacteria in a person's mouth convert glucose, fructose, and most commonly sucrose (table sugar) into acids such as lactic acid through a glycolytic process called fermentation.[24] If left in contact with the tooth, these acids may cause demineralization, which is the dissolution of its mineral content. The process is dynamic, however, as remineralization can also occur if the acid is neutralized by saliva or mouthwash. Fluoride toothpaste or dental varnish may aid remineralization.[30] If demineralization continues over time, enough mineral content may be lost so that the soft organic material left behind disintegrates, forming a cavity or hole. The impact such sugars have on the progress of dental caries is called cariogenicity. Sucrose, although a bound glucose and fructose unit, is in fact more cariogenic than a mixture of equal parts of glucose and fructose. This is due to the bacteria using the energy in the saccharide bond between the glucose and fructose subunits. S.mutans adheres to the biofilm on the tooth by converting sucrose into an extremely adhesive substance called dextran polysaccharide by the enzyme dextran sucranase.[31]

Exposure edit

 
"Stephan curve", showing sudden decrease in plaque pH following glucose rinse, which returns to normal after 30–60 min. Net demineralization of dental hard tissues occurs below the critical pH (5.5), shown in yellow.

The frequency with which teeth are exposed to cariogenic (acidic) environments affects the likelihood of caries development.[citation needed] After meals or snacks, the bacteria in the mouth metabolize sugar, resulting in an acidic by-product that decreases pH. As time progresses, the pH returns to normal due to the buffering capacity of saliva and the dissolved mineral content of tooth surfaces. During every exposure to the acidic environment, portions of the inorganic mineral content at the surface of teeth dissolve and can remain dissolved for two hours.[32] Since teeth are vulnerable during these acidic periods, the development of dental caries relies heavily on the frequency of acid exposure.

The carious process can begin within days of a tooth's erupting into the mouth if the diet is sufficiently rich in suitable carbohydrates. Evidence suggests that the introduction of fluoride treatments has slowed the process.[33] Proximal caries take an average of four years to pass through enamel in permanent teeth. Because the cementum enveloping the root surface is not nearly as durable as the enamel encasing the crown, root caries tend to progress much more rapidly than decay on other surfaces. The progression and loss of mineralization on the root surface is 2.5 times faster than caries in enamel. In very severe cases where oral hygiene is very poor and where the diet is very rich in fermentable carbohydrates, caries may cause cavities within months of tooth eruption. This can occur, for example, when children continuously drink sugary drinks from baby bottles (see later discussion).

Teeth edit

 
Tooth decay

There are certain diseases and disorders affecting teeth that may leave an individual at a greater risk for cavities.

Molar incisor hypo-mineralization seems to be increasingly common.[34] While the cause is unknown it is thought to be a combination of genetic and environmental factors.[35] Possible contributing factors that have been investigated include systemic factors such as high levels of dioxins or polychlorinated biphenyl (PCB) in the mother's milk, premature birth and oxygen deprivation at birth, and certain disorders during the child's first 3 years such as mumps, diphtheria, scarlet fever, measles, hypoparathyroidism, malnutrition, malabsorption, hypo-vitaminosis D, chronic respiratory diseases, or undiagnosed and untreated coeliac disease, which usually presents with mild or absent gastrointestinal symptoms.[34][36][37][38][39][40]

Amelogenesis imperfecta, which occurs in between 1 in 718 and 1 in 14,000 individuals, is a disease in which the enamel does not fully form or forms in insufficient amounts and can fall off a tooth.[41] In both cases, teeth may be left more vulnerable to decay because the enamel is not able to protect the tooth.[42]

In most people, disorders or diseases affecting teeth are not the primary cause of dental caries. Approximately 96% of tooth enamel is composed of minerals.[43] These minerals, especially hydroxyapatite, will become soluble when exposed to acidic environments. Enamel begins to demineralize at a pH of 5.5.[44] Dentin and cementum are more susceptible to caries than enamel because they have lower mineral content.[45] Thus, when root surfaces of teeth are exposed from gingival recession or periodontal disease, caries can develop more readily. Even in a healthy oral environment, however, the tooth is susceptible to dental caries.

The evidence for linking malocclusion and/or crowding to dental caries is weak;[46][47] however, the anatomy of teeth may affect the likelihood of caries formation. Where the deep developmental grooves of teeth are more numerous and exaggerated, pit and fissure caries is more likely to develop (see next section). Also, caries is more likely to develop when food is trapped between teeth.

Other factors edit

Reduced salivary flow rate is associated with increased caries since the buffering capability of saliva is not present to counterbalance the acidic environment created by certain foods. As a result, medical conditions that reduce the amount of saliva produced by salivary glands, in particular the submandibular gland and parotid gland, are likely to lead to dry mouth and thus to widespread tooth decay. Examples include Sjögren syndrome, diabetes mellitus, diabetes insipidus, and sarcoidosis.[48] Medications, such as antihistamines and antidepressants, can also impair salivary flow. Stimulants, most notoriously methylamphetamine, also occlude the flow of saliva to an extreme degree. This is known as meth mouth. Tetrahydrocannabinol (THC), the active chemical substance in cannabis, also causes a nearly complete occlusion of salivation, known in colloquial terms as "cotton mouth". Moreover, 63% of the most commonly prescribed medications in the United States list dry mouth as a known side-effect.[48] Radiation therapy of the head and neck may also damage the cells in salivary glands, somewhat increasing the likelihood of caries formation.[49][50]

Susceptibility to caries can be related to altered metabolism in the tooth, in particular to fluid flow in the dentin. Experiments on rats have shown that a high-sucrose, cariogenic diet "significantly suppresses the rate of fluid motion" in dentin.[51]

The use of tobacco may also increase the risk for caries formation. Some brands of smokeless tobacco contain high sugar content, increasing susceptibility to caries.[52] Tobacco use is a significant risk factor for periodontal disease, which can cause the gingiva to recede.[53] As the gingiva loses attachment to the teeth due to gingival recession, the root surface becomes more visible in the mouth. If this occurs, root caries is a concern since the cementum covering the roots of teeth is more easily demineralized by acids than enamel.[54] Currently, there is not enough evidence to support a causal relationship between smoking and coronal caries, but evidence does suggest a relationship between smoking and root-surface caries.[55] Exposure of children to secondhand tobacco smoke is associated with tooth decay.[56]

Intrauterine and neonatal lead exposure promote tooth decay.[57][58][59][60][61][62][63] Besides lead, all atoms with electrical charge and ionic radius similar to bivalent calcium,[64] such as cadmium, mimic the calcium ion and therefore exposure to them may promote tooth decay.[65]

Poverty is also a significant social determinant for oral health.[66] Dental caries have been linked with lower socio-economic status and can be considered a disease of poverty.[67]

Forms are available for risk assessment for caries when treating dental cases; this system using the evidence-based Caries Management by Risk Assessment (CAMBRA).[68] It is still unknown if the identification of high-risk individuals can lead to more effective long-term patient management that prevents caries initiation and arrests or reverses the progression of lesions.[69]

Saliva also contains iodine and EGF. EGF results effective in cellular proliferation, differentiation and survival.[70] Salivary EGF, which seems also regulated by dietary inorganic iodine, plays an important physiological role in the maintenance of oral (and gastro-oesophageal) tissue integrity, and, on the other hand, iodine is effective in prevention of dental caries and oral health.[71]

Pathophysiology edit

 
Microbe communities attach to tooth surface and create a biofilm. As the biofilm grows an anaerobic environment forms from the oxygen being used. Microbes use sucrose and other dietary sugars as a food source. The dietary sugars go through anaerobic fermentation pathways producing lactate. The lactate is excreted from the cell onto the tooth enamel then ionizes. The lactate ions demineralize the hydroxyapatite crystals causing the tooth to degrade.
 
The progression of pit and fissure caries resembles two triangles with their bases meeting along the junction of enamel and dentin.

Teeth are bathed in saliva and have a coating of bacteria on them (biofilm) that continually forms. The development of biofilm begins with pellicle formation. Pellicle is an acellular proteinaceous film which covers the teeth. Bacteria colonize on the teeth by adhering to the pellicle-coated surface. Over time, a mature biofilm is formed, creating a cariogenic environment on the tooth surface.[72][73] The minerals in the hard tissues of the teeth – enamel, dentin and cementum – are constantly undergoing demineralization and remineralization. Dental caries result when the demineralization rate is faster than the remineralization, producing net mineral loss, which occurs when there is an ecologic shift within the dental biofilm from a balanced population of microorganisms to a population that produces acids and can survive in an acid environment.[74]

Enamel edit

Tooth enamel is a highly mineralized acellular tissue, and caries act upon it through a chemical process brought on by the acidic environment produced by bacteria. As the bacteria consume the sugar and use it for their own energy, they produce lactic acid. The effects of this process include the demineralization of crystals in the enamel, caused by acids, over time until the bacteria physically penetrate the dentin. Enamel rods, which are the basic unit of the enamel structure, run perpendicularly from the surface of the tooth to the dentin. Since demineralization of enamel by caries follows the direction of the enamel rods, the different triangular patterns between pit and fissure and smooth-surface caries develop in the enamel because the orientation of enamel rods are different in the two areas of the tooth.[75]

As the enamel loses minerals, and dental caries progresses, the enamel develops several distinct zones, visible under a light microscope. From the deepest layer of the enamel to the enamel surface, the identified areas are the: translucent zone, dark zones, body of the lesion, and surface zone.[76] The translucent zone is the first visible sign of caries and coincides with a one to two percent loss of minerals.[77] A slight remineralization of enamel occurs in the dark zone, which serves as an example of how the development of dental caries is an active process with alternating changes.[78] The area of greatest demineralization and destruction is in the body of the lesion itself. The surface zone remains relatively mineralized and is present until the loss of tooth structure results in a cavitation.

Dentin edit

Unlike enamel, the dentin reacts to the progression of dental caries. After tooth formation, the ameloblasts, which produce enamel, are destroyed once enamel formation is complete and thus cannot later regenerate enamel after its destruction. On the other hand, dentin is produced continuously throughout life by odontoblasts, which reside at the border between the pulp and dentin. Since odontoblasts are present, a stimulus, such as caries, can trigger a biologic response. These defense mechanisms include the formation of sclerotic and tertiary dentin.[79]

In dentin from the deepest layer to the enamel, the distinct areas affected by caries are the advancing front, the zone of bacterial penetration, and the zone of destruction.[75] The advancing front represents a zone of demineralized dentin due to acid and has no bacteria present. The zones of bacterial penetration and destruction are the locations of invading bacteria and ultimately the decomposition of dentin. The zone of destruction has a more mixed bacterial population where proteolytic enzymes have destroyed the organic matrix. The innermost dentin caries has been reversibly attacked because the collagen matrix is not severely damaged, giving it potential for repair.

 
The faster spread of caries through dentin creates this triangular appearance in smooth surface caries.

Sclerotic dentin edit

The structure of dentin is an arrangement of microscopic channels, called dentinal tubules, which radiate outward from the pulp chamber to the exterior cementum or enamel border.[80] The diameter of the dentinal tubules is largest near the pulp (about 2.5 μm) and smallest (about 900 nm) at the junction of dentin and enamel.[81] The carious process continues through the dentinal tubules, which are responsible for the triangular patterns resulting from the progression of caries deep into the tooth. The tubules also allow caries to progress faster.

In response, the fluid inside the tubules brings immunoglobulins from the immune system to fight the bacterial infection. At the same time, there is an increase of mineralization of the surrounding tubules.[82] This results in a constriction of the tubules, which is an attempt to slow the bacterial progression. In addition, as the acid from the bacteria demineralizes the hydroxyapatite crystals, calcium and phosphorus are released, allowing for the precipitation of more crystals which fall deeper into the dentinal tubule. These crystals form a barrier and slow the advancement of caries. After these protective responses, the dentin is considered sclerotic.

According to hydrodynamic theory, fluids within dentinal tubules are believed to be the mechanism by which pain receptors are triggered within the pulp of the tooth.[83] Since sclerotic dentin prevents the passage of such fluids, pain that would otherwise serve as a warning of the invading bacteria may not develop at first.

Tertiary dentin edit

See also: Tertiary dentin

In response to dental caries, there may be production of more dentin toward the direction of the pulp. This new dentin is referred to as tertiary dentin.[81] Tertiary dentin is produced to protect the pulp for as long as possible from the advancing bacteria. As more tertiary dentin is produced, the size of the pulp decreases. This type of dentin has been subdivided according to the presence or absence of the original odontoblasts.[84] If the odontoblasts survive long enough to react to the dental caries, then the dentin produced is called "reactionary" dentin. If the odontoblasts are killed, the dentin produced is called "reparative" dentin.

In the case of reparative dentin, other cells are needed to assume the role of the destroyed odontoblasts. Growth factors, especially TGF-β,[84] are thought to initiate the production of reparative dentin by fibroblasts and mesenchymal cells of the pulp.[85] Reparative dentin is produced at an average of 1.5 μm/day, but can be increased to 3.5 μm/day. The resulting dentin contains irregularly shaped dentinal tubules that may not line up with existing dentinal tubules. This diminishes the ability for dental caries to progress within the dentinal tubules.

Cementum edit

The incidence of cemental caries increases in older adults as gingival recession occurs from either trauma or periodontal disease. It is a chronic condition that forms a large, shallow lesion and slowly invades first the root's cementum and then dentin to cause a chronic infection of the pulp (see further discussion under classification by affected hard tissue). Because dental pain is a late finding, many lesions are not detected early, resulting in restorative challenges and increased tooth loss.[86]

Diagnosis edit

 
The tip of a dental explorer, which is used for caries diagnosis
 
A dental infection resulting in an abscess and inflammation of the maxillary sinus
 
Tooth samples imaged with a non-coherent continuous light source (row 1), LSI (row 2) and pseudo-color visualization of LSI (row 3).[87]

The presentation of caries is highly variable. However, the risk factors and stages of development are similar. Initially, it may appear as a small chalky area (smooth surface caries), which may eventually develop into a large cavitation. Sometimes caries may be directly visible. However other methods of detection such as X-rays are used for less visible areas of teeth and to judge the extent of destruction. Lasers for detecting caries allow detection without ionizing radiation and are now used for detection of interproximal decay (between the teeth).

Primary diagnosis involves inspection of all visible tooth surfaces using a good light source, dental mirror and explorer. Dental radiographs (X-rays) may show dental caries before it is otherwise visible, in particular caries between the teeth. Large areas of dental caries are often apparent to the naked eye, but smaller lesions can be difficult to identify. Visual and tactile inspection along with radiographs are employed frequently among dentists, in particular to diagnose pit and fissure caries.[88] Early, uncavitated caries is often diagnosed by blowing air across the suspect surface, which removes moisture and changes the optical properties of the unmineralized enamel.

Some dental researchers have cautioned against the use of dental explorers to find caries,[89] in particular sharp ended explorers. In cases where a small area of tooth has begun demineralizing but has not yet cavitated, the pressure from the dental explorer could cause a cavity. Since the carious process is reversible before a cavity is present, it may be possible to arrest caries with fluoride and remineralize the tooth surface. When a cavity is present, a restoration will be needed to replace the lost tooth structure.

At times, pit and fissure caries may be difficult to detect. Bacteria can penetrate the enamel to reach dentin, but then the outer surface may remineralize, especially if fluoride is present.[90] These caries, sometimes referred to as "hidden caries", will still be visible on X-ray radiographs, but visual examination of the tooth would show the enamel intact or minimally perforated.

The differential diagnosis for dental caries includes dental fluorosis and developmental defects of the tooth including hypomineralization of the tooth and hypoplasia of the tooth.[91]

The early carious lesion is characterized by demineralization of the tooth surface, altering the tooth's optical properties. Technology using laser speckle image (LSI) techniques may provide a diagnostic aid to detect early carious lesions.[87]

Classification edit

 
G. V. Black Classification of Restorations

Caries can be classified by location, etiology, rate of progression, and affected hard tissues.[92] These forms of classification can be used to characterize a particular case of tooth decay to more accurately represent the condition to others and also indicate the severity of tooth destruction. In some instances, caries is described in other ways that might indicate the cause. The G. V. Black classification is as follows:

  • Class I: occlusal surfaces of posterior teeth, buccal or lingual pits on molars, lingual pit near cingulum of maxillary incisors
  • Class II: proximal surfaces of posterior teeth
  • Class III: interproximal surfaces of anterior teeth without incisal edge involvement
  • Class IV: interproximal surfaces of anterior teeth with incisal edge involvement
  • Class V: cervical third of facial or lingual surface of tooth
  • Class VI: incisal or occlusal edge is worn away due to attrition

Early childhood caries edit

 
Rampant caries caused by methamphetamine abuse.

Early childhood caries (ECC), also known as "baby bottle caries," "baby bottle tooth decay" or "bottle rot," is a pattern of decay found in young children with their deciduous (baby) teeth. This must include the presence of at least one carious lesion on a primary tooth in a child under the age of 6 years.[93] The teeth most likely affected are the maxillary anterior teeth, but all teeth can be affected.[94] The name for this type of caries comes from the fact that the decay usually is a result of allowing children to fall asleep with sweetened liquids in their bottles or feeding children sweetened liquids multiple times during the day.[95]

Another pattern of decay is "rampant caries", which signifies advanced or severe decay on multiple surfaces of many teeth.[96] Rampant caries may be seen in individuals with xerostomia, poor oral hygiene, stimulant use (due to drug-induced dry mouth[97]), and/or large sugar intake. If rampant caries is a result of previous radiation to the head and neck, it may be described as radiation-induced caries. Problems can also be caused by the self-destruction of roots and whole tooth resorption when new teeth erupt or later from unknown causes.

Children at 6–12 months are at increased risk of developing dental caries. For other children aged 12–18 months, dental caries develop on primary teeth and approximately twice yearly for permanent teeth.[98]

A range of studies have reported that there is a correlation between caries in primary teeth and caries in permanent teeth.[99][100]

Rate of progression edit

Temporal descriptions can be applied to caries to indicate the progression rate and previous history. "Acute" signifies a quickly developing condition, whereas "chronic" describes a condition that has taken an extended time to develop, in which thousands of meals and snacks, many causing some acid demineralization that is not remineralized, eventually result in cavities.

Recurrent caries, also described as secondary, are caries that appear at a location with a previous history of caries. This is frequently found on the margins of fillings and other dental restorations. On the other hand, incipient caries describes decay at a location that has not experienced previous decay. Arrested caries describes a lesion on a tooth that was previously demineralized but was remineralized before causing a cavitation. Fluoride treatment can help recalcification of tooth enamel as well as the use of amorphous calcium phosphate.

Micro-invasive interventions (such as dental sealant or resin infiltration) have been shown to slow down the progression of proximal decay.[101]

Affected hard tissue edit

Depending on which hard tissues are affected, it is possible to describe caries as involving enamel, dentin, or cementum. Early in its development, caries may affect only enamel. Once the extent of decay reaches the deeper layer of dentin, the term "dentinal caries" is used. Since cementum is the hard tissue that covers the roots of teeth, it is not often affected by decay unless the roots of teeth are exposed to the mouth. Although the term "cementum caries" may be used to describe the decay on roots of teeth, very rarely does caries affect the cementum alone.

Prevention edit

 
Toothbrushes are commonly used to clean teeth.

Oral hygiene edit

The primary approach to dental hygiene care consists of tooth-brushing and flossing. The purpose of oral hygiene is to remove and prevent the formation of plaque or dental biofilm,[102] although studies have shown this effect on caries is limited.[103] While there is no evidence that flossing prevents tooth decay,[104] the practice is still generally recommended.[5]

A toothbrush can be used to remove plaque on accessible surfaces, but not between teeth or inside pits and fissures on chewing surfaces. When used correctly, dental floss removes plaque from areas that could otherwise develop proximal caries but only if the depth of sulcus has not been compromised. Additional aids include interdental brushes, water picks, and mouthwashes. The use of rotational electric toothbrushes might reduce the risk of plaque and gingivitis, though it is unclear whether they are of clinical importance.[105]

However, oral hygiene is effective at preventing gum disease (gingivitis / periodontal disease). Food is forced inside pits and fissures under chewing pressure, leading to carbohydrate-fuelled acid demineralisation where the brush, fluoride toothpaste, and saliva have no access to remove trapped food, neutralise acid, or remineralise tooth enamel. (Occlusal caries accounts for between 80 and 90% of caries in children (Weintraub, 2001).) Unlike brushing, fluoride leads to proven reduction in caries incidence by approximately 25%; higher concentrations of fluoride (>1,000 ppm) in toothpaste also helps prevents tooth decay, with the effect increasing with concentration up to a plateau.[106] A randomized clinical trial demonstrated that toothpastes that contain arginine have greater protection against tooth cavitation than the regular fluoride toothpastes containing 1450 ppm alone.[107] A Cochrane review has confirmed that the use of fluoride gels, normally applied by a dental professional from once to several times a year, assists in the prevention of tooth decay in children and adolescents, reiterating the importance of fluoride as the principal means of caries prevention.[108] Another review concluded that the supervised regular use of a fluoride mouthwash greatly reduced the onset of decay in the permanent teeth of children.[109]

Professional hygiene care consists of regular dental examinations and professional prophylaxis (cleaning). Sometimes, complete plaque removal is difficult, and a dentist or dental hygienist may be needed. Along with oral hygiene, radiographs may be taken at dental visits to detect possible dental caries development in high-risk areas of the mouth (e.g. "bitewing" X-rays which visualize the crowns of the back teeth).

Alternative methods of oral hygiene also exist around the world, such as the use of teeth cleaning twigs such as miswaks in some Middle Eastern and African cultures. There is some limited evidence demonstrating the efficacy of these alternative methods of oral hygiene.[110]

Dietary modification edit

 
Annual caries incidence increases exponentially with annual per capita sugar consumption. Data based on 10,553 Japanese children whose individual lower first molar teeth were monitored yearly from the age of 6 to 11 years of age. Caries plotted on a logarithmic scale, so line is straight.

People who eat more free sugars get more cavities, with cavities increasing exponentially with increasing sugar intake. Populations with less sugar intake have fewer cavities. In one population, in Nigeria, where sugar consumption was about 2g/day, only two percent of the population, of any age, had had a cavity.[111]

Chewy and sticky foods (such as candy, cookies, potato chips, and crackers) tend to adhere to teeth longer. However, dried fruits such as raisins and fresh fruit such as apples and bananas disappear from the mouth quickly, and do not appear to be a risk factor. Consumers are not good at guessing which foods stick around in the mouth.[112]

For children, the American Dental Association and the European Academy of Paediatric Dentistry recommend limiting the frequency of consumption of drinks with sugar, and not giving baby bottles to infants during sleep (see earlier discussion).[113][114] Parents are also recommended to avoid sharing utensils and cups with their infants to prevent transferring bacteria from the parent's mouth.[115]

Xylitol is a naturally occurring sugar alcohol that is used in different products as an alternative to sucrose (table sugar). As of 2015 the evidence concerning the use of xylitol in chewing gum was insufficient to determine if it is effective at preventing caries.[116][117][118]

Other measures edit

 
Common dentistry trays used to deliver fluoride.
 
Fluoride is sold in tablets for cavity prevention.

The use of dental sealants is a means of prevention.[119] A sealant is a thin plastic-like coating applied to the chewing surfaces of the molars to prevent food from being trapped inside pits and fissures. This deprives resident plaque bacteria of carbohydrate, preventing the formation of pit and fissure caries. Sealants are usually applied on the teeth of children, as soon as the teeth erupt but adults are receiving them if not previously performed. Sealants can wear out and fail to prevent access of food and plaque bacteria inside pits and fissures and need to be replaced so they must be checked regularly by dental professionals. Dental sealants have been shown to be more effective at preventing occlusal decay when compared to fluoride varnish applications.[120][needs update]

Calcium, as found in food such as milk and green vegetables, is often recommended to protect against dental caries. Fluoride helps prevent decay of a tooth by binding to the hydroxyapatite crystals in enamel.[121] Streptococcus mutans is the leading cause of tooth decay. Low concentration fluoride ions act as bacteriostatic therapeutic agent and high concentration fluoride ions are bactericidal.[122] The incorporated fluorine makes enamel more resistant to demineralization and, thus, resistant to decay.[123] Fluoride can be found in either topical or systemic form.[124] Topical fluoride is more highly recommended than systemic intake to protect the surface of the teeth.[125] Topical fluoride is used in toothpaste, mouthwash and fluoride varnish.[124] Standard fluoride toothpaste (1,000–1,500 ppm) is more effective than low fluoride toothpaste (< 600ppm) to prevent dental caries.[126] It is recommended that all adult patients to use fluoridated toothpaste with at least 1350ppm fluoride content, brushing at least 2 times per day and brush right before bed. For children and young adults, use fluoridated toothpaste with 1350ppm to 1500ppm fluoride content, brushing 2 times per day and also brush right before bed. American Dental Association Council suggest that for children <3 years old, caregivers should begin brushing their teeth by using fluoridated toothpaste with an amount no more than a smear. Supervised toothbrushing must also be done to children below 8 years of age to prevent swallowing of toothpaste.[127] After brushing with fluoride toothpaste, rinsing should be avoided and the excess spat out.[128] Many dental professionals include application of topical fluoride solutions as part of routine visits and recommend the use of xylitol and amorphous calcium phosphate products. Silver diamine fluoride may work better than fluoride varnish to prevent cavities.[129] Systemic fluoride is found as lozenges, tablets, drops and water fluoridation. These are ingested orally to provide fluoride systemically.[124] Water fluoridation has been shown to be beneficial to prevent tooth decay, especially in low social economical areas, where other forms of fluoride is not available. However, a Cochrane systematic review found no evidence to suggest that taking fluoride systemically daily in pregnant women was effective in preventing dental decay in their offspring.[124] While some products containing chlorhexidine have been shown to limit the progression of existing tooth decay; there is currently no evidence suggesting that chlorhexidine gels and varnishes can prevent dental caries or reduce the population of Streptococcus mutans in the mouth.[130]

An oral health assessment carried out before a child reaches the age of one may help with management of caries. The oral health assessment should include checking the child's history, a clinical examination, checking the risk of caries in the child including the state of their occlusion and assessing how well equipped the child's parent or carer is to help the child prevent caries.[131] To further increase a child's cooperation in caries management, good communication by the dentist and the rest of the staff of a dental practice should be used. This communication can be improved by calling the child by their name, using eye contact and including them in any conversation about their treatment.[131]

Vaccines are also under development.[132]

Treatment edit

See also: Dental restoration and Tooth extraction
No carious lesion No treatment
Carious lesion Inactive lesion No treatment
Active lesion Non-cavitated lesion Non-operative treatment
Cavitated lesion Operative treatment
Existing filling No defect No replacement
Defective filling Ditching, overhang No replacement
Fracture or food impaction Repair or replacement of filling
Inactive lesion No treatment
Active lesion Non-cavitated lesion Non-operative treatment
Cavitated lesion Repair or replacement of filling
 
An amalgam used as a restorative material in a tooth.

Most importantly, whether the carious lesion is cavitated or non-cavitated dictates the management. Clinical assessment of whether the lesion is active or arrested is also important. Noncavitated lesions can be arrested and remineralization can occur under the right conditions. However, this may require extensive changes to the diet (reduction in frequency of refined sugars), improved oral hygiene (toothbrushing twice per day with fluoride toothpaste and daily flossing), and regular application of topical fluoride. More recently, Immunoglobulin Y specific to Streptococcus mutans has been used to suppress growth of S. mutans.[133] Such management of a carious lesion is termed "non-operative" since no drilling is carried out on the tooth. Non-operative treatment requires excellent understanding and motivation from the individual, otherwise the decay will continue.

Once a lesion has cavitated, especially if dentin is involved, remineralization is much more difficult and a dental restoration is usually indicated ("operative treatment"). Before a restoration can be placed, all of the decay must be removed otherwise it will continue to progress underneath the filling. Sometimes a small amount of decay can be left if it is entombed and there is a seal which isolates the bacteria from their substrate. This can be likened to placing a glass container over a candle, which burns itself out once the oxygen is used up. Techniques such as stepwise caries removal are designed to avoid exposure of the dental pulp and overall reduction of the amount of tooth substance which requires removal before the final filling is placed. Often enamel which overlies decayed dentin must also be removed as it is unsupported and susceptible to fracture. The modern decision-making process with regards the activity of the lesion, and whether it is cavitated, is summarized in the table.[134]

Destroyed tooth structure does not fully regenerate, although remineralization of very small carious lesions may occur if dental hygiene is kept at optimal level.[15] For the small lesions, topical fluoride is sometimes used to encourage remineralization. For larger lesions, the progression of dental caries can be stopped by treatment. The goal of treatment is to preserve tooth structures and prevent further destruction of the tooth. Aggressive treatment, by filling, of incipient carious lesions, places where there is superficial damage to the enamel, is controversial as they may heal themselves, while once a filling is performed it will eventually have to be redone and the site serves as a vulnerable site for further decay.[13]

In general, early treatment is quicker and less expensive than treatment of extensive decay. Local anesthetics, nitrous oxide ("laughing gas"), or other prescription medications may be required in some cases to relieve pain during or following treatment or to relieve anxiety during treatment.[135] A dental handpiece ("drill") is used to remove large portions of decayed material from a tooth. A spoon, a dental instrument used to carefully remove decay, is sometimes employed when the decay in dentin reaches near the pulp.[136] Some dentists remove dental caries using a laser rather than the traditional dental drill. A Cochrane review of this technique looked at Er:YAG (erbium-doped yttrium aluminium garnet), Er,Cr:YSGG (erbium, chromium: yttrium-scandium-gallium-garnet) and Nd:YAG (neodymium-doped yttrium aluminium garnet) lasers and found that although people treated with lasers (compared to a conventional dental "drill") experienced less pain and had a lesser need for dental anaesthesia, that overall there was little difference in caries removal.[137] Another alternative to drilling or lasers for small caries is the use of air abrasion, in which small abrasive particles are blasted at decay using pressurized air (similar to sand blasting).[138][139] Once the cary is removed, the missing tooth structure requires a dental restoration of some sort to return the tooth to function and aesthetic condition.

Restorative materials include dental amalgam, composite resin, glass ionomer cement, porcelain, and gold.[140] Composite resin and porcelain can be made to match the color of a patient's natural teeth and are thus used more frequently when aesthetics are a concern. Composite restorations are not as strong as dental amalgam and gold; some dentists consider the latter as the only advisable restoration for posterior areas where chewing forces are great.[141] When the decay is too extensive, there may not be enough tooth structure remaining to allow a restorative material to be placed within the tooth. Thus, a crown may be needed. This restoration appears similar to a cap and is fitted over the remainder of the natural crown of the tooth. Crowns are often made of gold, porcelain, or porcelain fused to metal.

For children, preformed crowns are available to place over the tooth. These are usually made of metal (usually stainless steel but increasingly there are aesthetic materials). Traditionally teeth are shaved down to make room for the crown but, more recently, stainless steel crowns have been used to seal decay into the tooth and stop it progressing. This is known as the Hall Technique and works by depriving the bacteria in the decay of nutrients and making their environment less favorable for them. It is a minimally invasive method of managing decay in children and does not require local anesthetic injections in the mouth.

 
A tooth with extensive caries eventually requiring extraction.

In certain cases, endodontic therapy may be necessary for the restoration of a tooth.[142] Endodontic therapy, also known as a "root canal", is recommended if the pulp in a tooth dies from infection by decay-causing bacteria or from trauma. In root canal therapy, the pulp of the tooth, including the nerve and vascular tissues, is removed along with decayed portions of the tooth. The canals are instrumented with endodontic files to clean and shape them, and they are then usually filled with a rubber-like material called gutta percha.[143] The tooth is filled and a crown can be placed. Upon completion of root canal therapy, the tooth is non-vital, as it is devoid of any living tissue.

An extraction can also serve as treatment for dental caries. The removal of the decayed tooth is performed if the tooth is too far destroyed from the decay process to effectively restore the tooth. Extractions are sometimes considered if the tooth lacks an opposing tooth or will probably cause further problems in the future, as may be the case for wisdom teeth.[144] Extractions may also be preferred by people unable or unwilling to undergo the expense or difficulties in restoring the tooth.

Epidemiology edit

 
Disability-adjusted life year for dental caries per 100,000 inhabitants in 2004.[145]

Worldwide, approximately 3.6 billion people have dental caries in their permanent teeth.[7] In baby teeth it affects about 620 million people or 9% of the population.[10] The disease is most common in Latin American countries, countries in the Middle East, and South Asia, and least prevalent in China.[146] In the United States, dental caries is the most common chronic childhood disease, being at least five times more common than asthma.[147] It is the primary pathological cause of tooth loss in children.[148] Between 29% and 59% of adults over the age of 50 experience caries.[149]

Treating dental cavities costs 5–10% of health-care budgets in industrialized countries, and can easily exceed budgets in lower-income countries.[150]

The number of cases has decreased in some developed countries, and this decline is usually attributed to increasingly better oral hygiene practices and preventive measures such as fluoride treatment.[151] Nonetheless, countries that have experienced an overall decrease in cases of tooth decay continue to have a disparity in the distribution of the disease.[149] Among children in the United States and Europe, twenty percent of the population endures sixty to eighty percent of cases of dental caries.[152] A similarly skewed distribution of the disease is found throughout the world with some children having none or very few caries and others having a high number.[149] Australia, Nepal, and Sweden (where children receive dental care paid for by the government) have a low incidence of cases of dental caries among children, whereas cases are more numerous in Costa Rica and Slovakia.[153]

The classic DMF (decay/missing/filled) index is one of the most common methods for assessing caries prevalence as well as dental treatment needs among populations. This index is based on in-field clinical examination of individuals by using a probe, mirror and cotton rolls. Because the DMF index is done without X-ray imaging, it underestimates real caries prevalence and treatment needs.[90]

Bacteria typically associated with dental caries have been isolated from vaginal samples from females who have bacterial vaginosis.[154]

History edit

 
An image from Omne Bonum (14th century) depicting a dentist extracting a tooth with forceps.

There is a long history of dental caries. Over a million years ago, hominins such as Paranthropus had cavities.[155] The largest increases in the prevalence of caries have been associated with dietary changes.[156][157]

Archaeological evidence shows that tooth decay is an ancient disease dating far into prehistory. Skulls dating from a million years ago through the Neolithic period show signs of caries, including those from the Paleolithic and Mesolithic ages.[158] The increase of caries during the Neolithic period may be attributed to the increased consumption of plant foods containing carbohydrates.[159] The beginning of rice cultivation in South Asia is also believed to have caused an increase in caries especially for women,[160] although there is also some evidence from sites in Thailand, such as Khok Phanom Di, that shows a decrease in overall percentage of dental caries with the increase in dependence on rice agriculture.[161]

A Sumerian text from 5000 BC describes a "tooth worm" as the cause of caries.[162] Evidence of this belief has also been found in India, Egypt, Japan, and China.[157] Unearthed ancient skulls show evidence of primitive dental work. In Pakistan, teeth dating from around 5500 BC to 7000 BC show nearly perfect holes from primitive dental drills.[163] The Ebers Papyrus, an Egyptian text from 1550 BC, mentions diseases of teeth.[162] During the Sargonid dynasty of Assyria during 668 to 626 BC, writings from the king's physician specify the need to extract a tooth due to spreading inflammation.[157] In the Roman Empire, wider consumption of cooked foods led to a small increase in caries prevalence.[152] The Greco-Roman civilization, in addition to the Egyptian civilization, had treatments for pain resulting from caries.[157]

The rate of caries remained low through the Bronze Age and Iron Age, but sharply increased during the Middle Ages.[156] Periodic increases in caries prevalence had been small in comparison to the 1000 AD increase, when sugar cane became more accessible to the Western world. Treatment consisted mainly of herbal remedies and charms, but sometimes also included bloodletting.[164] The barber surgeons of the time provided services that included tooth extractions.[157] Learning their training from apprenticeships, these health providers were quite successful in ending tooth pain and likely prevented systemic spread of infections in many cases. Among Roman Catholics, prayers to Saint Apollonia, the patroness of dentistry, were meant to heal pain derived from tooth infection.[165]

There is also evidence of caries increase when Indigenous people in North America changed from a strictly hunter-gatherer diet to a diet with maize. Rates also increased after contact with colonizing Europeans, implying an even greater dependence on maize.[156]

During the European Age of Enlightenment, the belief that a "tooth worm" caused caries was also no longer accepted in the European medical community.[166] Pierre Fauchard, known as the father of modern dentistry, was one of the first to reject the idea that worms caused tooth decay and noted that sugar was detrimental to the teeth and gingiva.[167] In 1850, another sharp increase in the prevalence of caries occurred and is believed to be a result of widespread diet changes.[157] Prior to this time, cervical caries was the most frequent type of caries, but increased availability of sugar cane, refined flour, bread, and sweetened tea corresponded with a greater number of pit and fissure caries.

In the 1890s, W. D. Miller conducted a series of studies that led him to propose an explanation for dental caries that was influential for current theories. He found that bacteria inhabited the mouth and that they produced acids that dissolved tooth structures when in the presence of fermentable carbohydrates.[168] This explanation is known as the chemoparasitic caries theory.[169] Miller's contribution, along with the research on plaque by G. V. Black and J. L. Williams, served as the foundation for the current explanation of the etiology of caries.[157] Several of the specific strains of lactobacilli were identified in 1921 by Fernando E. Rodríguez Vargas.

In 1924 in London, Killian Clarke described a spherical bacterium in chains isolated from carious lesions which he called Streptococcus mutans. Although Clarke proposed that this organism was the cause of caries, the discovery was not followed up. Later, in 1954 in the US, Frank Orland working with hamsters showed that caries was transmissible and caused by acid-producing Streptococcus thus ending the debate whether dental caries were resultant from bacteria. It was not until the late 1960s that it became generally accepted that the Streptococcus isolated from hamster caries was the same as S. mutans.[170]

Tooth decay has been present throughout human history, from early hominids millions of years ago, to modern humans.[171] The prevalence of caries increased dramatically in the 19th century, as the Industrial Revolution made certain items, such as refined sugar and flour, readily available.[157] The diet of the "newly industrialized English working class"[157] then became centered on bread, jam, and sweetened tea, greatly increasing both sugar consumption and caries.

Etymology and usage edit

Naturalized from Latin into English (a loanword), caries in its English form originated as a mass noun that means 'rottenness',[3][172] that is, 'decay'. The word is an uncountable noun.

Cariesology[173][174] or cariology[175] is the study of dental caries.

Society and culture edit

It is estimated that untreated dental caries results in worldwide productivity losses in the size of about US$27 billion yearly.[176]

Other animals edit

Main article: Dental caries (non-human)

Dental caries are uncommon among companion animals.[177]

See also edit

References edit

  1. ^ a b c d e Laudenbach, JM; Simon, Z (November 2014). "Common Dental and Periodontal Diseases: Evaluation and Management". The Medical Clinics of North America. 98 (6): 1239–1260. doi:10.1016/j.mcna.2014.08.002. PMID 25443675.
  2. ^ a b c d e f g . World Health Organization. April 2012. Archived from the original on 8 December 2014. Retrieved 10 December 2014.
  3. ^ a b c d Taber's cyclopedic medical dictionary (Ed. 22, illustrated in full color ed.). Philadelphia: F.A. Davis Co. 2013. p. 401. ISBN 9780803639096. from the original on 2015-07-13.
  4. ^ a b c d e f g h i j k SECTION ON ORAL, HEALTH; SECTION ON ORAL, HEALTH (December 2014). "Maintaining and improving the oral health of young children". Pediatrics. 134 (6): 1224–9. doi:10.1542/peds.2014-2984. PMID 25422016. S2CID 32580232.
  5. ^ a b de Oliveira, KMH; Nemezio, MA; Romualdo, PC; da Silva, RAB; de Paula E Silva, FWG; Küchler, EC (2017). "Dental Flossing and Proximal Caries in the Primary Dentition: A Systematic Review". Oral Health & Preventive Dentistry. 15 (5): 427–434. doi:10.3290/j.ohpd.a38780. PMID 28785751.
  6. ^ a b c d e f g h Silk, H (March 2014). "Diseases of the mouth". Primary Care: Clinics in Office Practice. 41 (1): 75–90. doi:10.1016/j.pop.2013.10.011. PMID 24439882. S2CID 9127595.
  7. ^ a b c "Oral health". World Health Organization. Retrieved 2019-09-14.
  8. ^ Schwendicke, F; Dörfer, CE; Schlattmann, P; Page, LF; Thomson, WM; Paris, S (January 2015). "Socioeconomic Inequality and Caries: A Systematic Review and Meta-Analysis". Journal of Dental Research. 94 (1): 10–18. doi:10.1177/0022034514557546. PMID 25394849. S2CID 24227334.
  9. ^ Otsu, K; Kumakami-Sakano, M; Fujiwara, N; Kikuchi, K; Keller, L; Lesot, H; Harada, H (2014). "Stem cell sources for tooth regeneration: current status and future prospects". Frontiers in Physiology. 5: 36. doi:10.3389/fphys.2014.00036. PMC 3912331. PMID 24550845.
  10. ^ a b Vos, T (Dec 15, 2012). "Years lived with disability (YLDs) for 1160 sequelae of 289 diseases and injuries 1990–2010: a systematic analysis for the Global Burden of Disease Study 2010". The Lancet. 380 (9859): 2163–96. doi:10.1016/S0140-6736(12)61729-2. PMC 6350784. PMID 23245607.
  11. ^ Bagramian, RA; Garcia-Godoy, F; Volpe, AR (February 2009). "The global increase in dental caries. A pending public health crisis". American Journal of Dentistry. 22 (1): 3–8. PMID 19281105.
  12. ^ Health Promotion Board: Dental Caries 2010-09-01 at the Wayback Machine, affiliated with the Singapore government. Page accessed August 14, 2006.
  13. ^ a b Richie S. King (November 28, 2011). "A Closer Look at Teeth May Mean More Fillings". The New York Times. from the original on November 29, 2011. Retrieved November 30, 2011. An incipient carious lesion is the initial stage of structural damage to the enamel, usually caused by a bacterial infection that produces tooth-dissolving acid.
  14. ^ Johnson, Clarke. "Biology of the Human Dentition 2015-10-30 at the Wayback Machine." Page accessed July 18, 2007.
  15. ^ a b MedlinePlus Encyclopedia: Dental Cavities
  16. ^ , hosted on the New York University Medical Center website. Page accessed August 14, 2006.
  17. ^ Cavernous Sinus Thrombosis 2008-05-27 at the Wayback Machine, hosted on WebMD. Page accessed May 25, 2008.
  18. ^ MedlinePlus Encyclopedia: Ludwig's Anigna
  19. ^ Hartmann, Richard W. Ludwig's Angina in Children 2008-07-09 at the Wayback Machine, hosted on the American Academy of Family Physicians website. Page accessed May 25, 2008.
  20. ^ Southam JC, Soames JV (1993). "2. Dental Caries". Oral pathology (2nd ed.). Oxford: Oxford Univ. Press. ISBN 978-0-19-262214-3.
  21. ^ Wong, Allen; Young, Douglas A.; Emmanouil, Dimitris E.; Wong, Lynne M.; Waters, Ashley R.; Booth, Mark T. (2013-06-01). "Raisins and oral health". Journal of Food Science. 78 (Suppl 1): A26–29. doi:10.1111/1750-3841.12152. ISSN 1750-3841. PMID 23789933.
  22. ^ Smith B, Pickard HM, Kidd EA (1990). "1. Why restore teeth?". Pickard's manual of operative dentistry (6th ed.). Oxford University Press. ISBN 978-0-19-261808-5.
  23. ^ a b Hardie JM (May 1982). "The microbiology of dental caries". Dental Update. 9 (4): 199–200, 202–4, 206–8. PMID 6959931.
  24. ^ a b Holloway PJ; Moore, W.J. (September 1983). "The role of sugar in the etiology of dental caries". Journal of Dentistry. 11 (3): 189–213. doi:10.1016/0300-5712(83)90182-3. PMID 6358295.
  25. ^ Watt RG, Listl S, Peres MA, Heilmann A, editors. Social inequalities in oral health: from evidence to action 2015-06-19 at the Wayback Machine. London: International Centre for Oral Health Inequalities Research & Policy; www.icohirp.com
  26. ^ Marsh, Philip D.; Head, David A.; Devine, Deirdre A. (2015). . Journal of Oral Biosciences. 57 (4): 185–191. doi:10.1016/j.job.2015.08.002. S2CID 86407760. Archived from the original on 29 August 2021. Alt URL
  27. ^ Marsh, P (1994). "Microbial ecology of dental plaque and its significance in health and disease". Advances in Dental Research. 8 (2): 263–71. doi:10.1177/08959374940080022001. PMID 7865085. S2CID 32327358.
  28. ^ Cavities/tooth decay 2008-03-15 at the Wayback Machine, hosted on the Mayo Clinic website. Page accessed May 25, 2008.
  29. ^ Douglass, JM; Li, Y; Tinanoff, N. (Sep–Oct 2008), "Association of mutans streptococci between caregivers and their children", Pediatric Dentistry, 30 (5): 375–87, PMID 18942596
  30. ^ Silverstone LM (May 1983). "Remineralization and enamel caries: new concepts". Dental Update. 10 (4): 261–73. PMID 6578983.
  31. ^ Madigan M.T. & Martinko J.M. Brock – Biology of Microorganisms. 11th Ed., 2006, Pearson, USA. pp. 705
  32. ^ Dental Caries 2006-06-30 at the Wayback Machine, hosted on the University of California Los Angeles School of Dentistry website. Page accessed August 14, 2006.
  33. ^ Summit, James B., J. William Robbins, and Richard S. Schwartz. "Fundamentals of Operative Dentistry: A Contemporary Approach." 2nd edition. Carol Stream, Illinois, Quintessence Publishing Co, Inc, 2001, p. 75. ISBN 0-86715-382-2.
  34. ^ a b Mast P, Rodrigueztapia MT, Daeniker L, Krejci I (Sep 2013). "Understanding MIH: definition, epidemiology, differential diagnosis and new treatment guidelines" (PDF). European Journal of Paediatric Dentistry (Review). 14 (3): 204–8. PMID 24295005. (PDF) from the original on 2016-10-05.
  35. ^ Silva, Mihiri J.; Scurrah, Katrina J.; Craig, Jeffrey M.; Manton, David J.; Kilpatrick, Nicky (August 2016). "Etiology of molar incisor hypomineralization — A systematic review". Community Dentistry and Oral Epidemiology. 44 (4): 342–353. doi:10.1111/cdoe.12229. hdl:11343/291225. ISSN 1600-0528. PMID 27121068.
  36. ^ William V, Messer LB, Burrow MF (2006). "Molar incisor hypomineralization: review and recommendations for clinical management" (PDF). Pediatric Dentistry (Review). 28 (3): 224–32. PMID 16805354. (PDF) from the original on 2016-03-06.
  37. ^ "Dental Enamel Defects and Celiac Disease" (PDF). National Institute of Health (NIH). (PDF) from the original on 2016-03-05. Retrieved Mar 7, 2016. Tooth defects that result from celiac disease may resemble those caused by too much fluoride or a maternal or early childhood illness. Dentists mostly say it's from fluoride, that the mother took tetracycline, or that there was an illness early on
  38. ^ Ferraz EG, Campos Ede J, Sarmento VA, Silva LR (2012). "The oral manifestations of celiac disease: information for the pediatric dentist". Pediatric Dentistry (Review). 34 (7): 485–8. PMID 23265166. The presence of these clinical features in children may signal the need for early investigation of possible celiac disease, especially in asymptomatic cases. (...) Pediatric dentists must recognize typical oral lesions, especially those associated with nutritional deficiencies, and should suspect the presence of celiac disease, which can change the disease's course and patient's prognosis.
  39. ^ Rashid M, Zarkadas M, Anca A, Limeback H (2011). "Oral manifestations of celiac disease: a clinical guide for dentists". Journal of the Canadian Dental Association (Review). 77: b39. PMID 21507289. from the original on 2016-03-08.
  40. ^ Giuca MR, Cei G, Gigli F, Gandini P (2010). "Oral signs in the diagnosis of celiac disease: review of the literature". Minerva Stomatologica (Review). 59 (1–2): 33–43. PMID 20212408.
  41. ^ Neville, B.W., Damm, Douglas; Allen, Carl and Bouquot, Jerry (2002). "Oral & Maxillofacial Pathology." 2nd edition, p. 89. ISBN 0-7216-9003-3.
  42. ^ Neville, B.W., Damm, Douglas; Allen, Carl and Bouquot, Jerry (2002). "Oral & Maxillofacial Pathology." 2nd edition, p. 94. ISBN 0-7216-9003-3.
  43. ^ Nanci, p. 122
  44. ^ Dawes C (December 2003). "What is the critical pH and why does a tooth dissolve in acid?". Journal of the Canadian Dental Association. 69 (11): 722–4. PMID 14653937. from the original on 2009-07-14.
  45. ^ Mellberg JR (1986). "Demineralization and remineralization of root surface caries". Gerodontology. 5 (1): 25–31. doi:10.1111/j.1741-2358.1986.tb00380.x. PMID 3549537.
  46. ^ Borzabadi-Farahani, A; Eslamipour, F; Asgari, I (2011). "Association between orthodontic treatment need and caries experience". Acta Odontologica Scandinavica. 69 (1): 2–11. doi:10.3109/00016357.2010.516732. PMID 20923258. S2CID 25095059.
  47. ^ Hafez, HS; Shaarawy, SM; Al-Sakiti, AA; Mostafa, YA (2012). "Dental crowding as a caries risk factor: A systematic review". American Journal of Orthodontics and Dentofacial Orthopedics. 142 (4): 443–50. doi:10.1016/j.ajodo.2012.04.018. PMID 22999666.
  48. ^ a b Neville, B. W., Douglas Damm, Carl Allen, Jerry Bouquot. Oral & Maxillofacial Pathology 2nd edition, 2002, p. 398. ISBN 0-7216-9003-3.
  49. ^ Oral Complications of Chemotherapy and Head/Neck Radiation 2008-12-06 at the Wayback Machine, hosted on the National Cancer Institute 2015-03-12 at the Wayback Machine website. Page accessed January 8, 2007.
  50. ^ See Common effects of cancer therapies on salivary glands at . Archived from the original on 2013-12-02. Retrieved 2013-07-30.
  51. ^ Ralph R. Steinman & John Leonora (1971) "Relationship of fluid transport through dentation to the incidence of dental caries", Journal of Dental Research 50(6): 1536 to 43
  52. ^ Neville, B.W., Douglas Damm, Carl Allen, Jerry Bouquot. Oral & Maxillofacial Pathology 2nd edition, 2002, p. 347. ISBN 0-7216-9003-3.
  53. ^ Tobacco Use Increases the Risk of Gum Disease 2007-01-09 at the Wayback Machine, hosted on the American Academy of Periodontology 2005-12-14 at the Wayback Machine. Page accessed January 9, 2007.
  54. ^ Banting, D. W. "The Diagnosis of Root Caries 2006-09-30 at the Wayback Machine." Presentation to the National Institute of Health Consensus Development Conference on Diagnosis and Management of Dental Caries Throughout Life, in pdf format, hosted on the National Institute of Dental and Craniofacial Research, p. 19. Page accessed August 15, 2006.
  55. ^ Executive Summary 2007-02-16 at the Wayback Machine of U.S. Surgeon General's report titled, "The Health Consequences of Smoking: A Report of the Surgeon General," hosted on the CDC 2012-03-20 at the Wayback Machine website, p. 12. Page accessed January 9, 2007.
  56. ^ Zhou, S; Rosenthal, DG; Sherman, S; Zelikoff, J; Gordon, T; Weitzman, M (September 2014). "Physical, behavioral, and cognitive effects of prenatal tobacco and postnatal secondhand smoke exposure". Current Problems in Pediatric and Adolescent Health Care. 44 (8): 219–41. doi:10.1016/j.cppeds.2014.03.007. PMC 6876620. PMID 25106748.
  57. ^ Brudevold F, Steadman LT (1956). "The distribution of lead in human enamel". Journal of Dental Research. 35 (3): 430–437. doi:10.1177/00220345560350031401. PMID 13332147. S2CID 5453470.
  58. ^ Brudevold F, Aasenden R, Srinivasian BN, Bakhos Y (1977). "Lead in enamel and saliva, dental caries and the use of enamel biopsies for measuring past exposure to lead". Journal of Dental Research. 56 (10): 1165–1171. doi:10.1177/00220345770560100701. PMID 272374. S2CID 37185511.
  59. ^ Goyer RA (1990). "Transplacental transport of lead". Environmental Health Perspectives. 89: 101–105. doi:10.2307/3430905. JSTOR 3430905. PMC 1567784. PMID 2088735.
  60. ^ Moss ME, Lanphear BP, Auinger P (1999). "Association of dental caries and blood lead levels". JAMA. 281 (24): 2294–8. doi:10.1001/jama.281.24.2294. PMID 10386553.
  61. ^ Campbell JR, Moss ME, Raubertas RF (2000). "The association between caries and childhood lead exposure". Environmental Health Perspectives. 108 (11): 1099–1102. doi:10.2307/3434965. JSTOR 3434965. PMC 1240169. PMID 11102303.
  62. ^ Gemmel A, Tavares M, Alperin S, Soncini J, Daniel D, Dunn J, Crawford S, Braveman N, Clarkson TW, McKinlay S, Bellinger DC (2002). "Blood Lead Level and Dental Caries in School-Age Children". Environmental Health Perspectives. 110 (10): A625–A630. doi:10.1289/ehp.021100625. PMC 1241049. PMID 12361944.
  63. ^ Billings RJ, Berkowitz RJ, Watson G (2004). "Teeth". Pediatrics. 113 (4): 1120–1127. doi:10.1542/peds.113.S3.1120. PMID 15060208.
  64. ^ Leroy N, Bres E (2001). "Structure and substitutions in fluorapatite". European Cells and Materials. 2: 36–48. doi:10.22203/eCM.v002a05. PMID 14562256.
  65. ^ Arora M, Weuve J, Schwartz J, Wright RO (2008). "Association of environmental cadmium exposure with pediatric dental caries". Environmental Health Perspectives. 116 (6): 821–825. doi:10.1289/ehp.10947. PMC 2430240. PMID 18560540.
  66. ^ Dye B (2010). "Trends in Oral Health by Poverty Status as Measured by Healthy People 2010 Objectives". Public Health Reports. 125 (6): 817–30. doi:10.1177/003335491012500609. PMC 2966663. PMID 21121227.
  67. ^ Selwitz R. H.; Ismail A. I.; Pitts N. B. (2007). "Dental caries". The Lancet. 369 (9555): 51–59. doi:10.1016/s0140-6736(07)60031-2. PMID 17208642. S2CID 204616785.
  68. ^ . American Dental Association
  69. ^ Tellez, M., Gomez, J., Pretty, I., Ellwood, R., Ismail, A. (2013). "Evidence on existing caries risk assessment systems: are they predictive of future caries?". Community Dentistry and Oral Epidemiology. 41 (1): 67–78. doi:10.1111/cdoe.12003. PMID 22978796.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  70. ^ Herbst RS (2004). "Review of epidermal growth factor receptor biology". International Journal of Radiation Oncology, Biology, Physics. 59 (2 Suppl): 21–6. doi:10.1016/j.ijrobp.2003.11.041. PMID 15142631.
  71. ^ Venturi S, Venturi M (2009). "Iodine in evolution of salivary glands and in oral health". Nutrition and Health. 20 (2): 119–134. doi:10.1177/026010600902000204. PMID 19835108. S2CID 25710052.
  72. ^ Dental caries : the disease and its clinical management. Fejerskov, Ole., Kidd, Edwina A. M. (2nd ed.). Oxford: Blackwell Munksgaard. 2008. pp. 166–169. ISBN 978-1-4051-3889-5. OCLC 136316302.{{cite book}}: CS1 maint: others (link)
  73. ^ Banerjee, Avijit. (2011). Pickard's manual of operative dentistry. Watson, Timothy F. (Ninth ed.). Oxford. p. 2. ISBN 978-0-19-100304-2. OCLC 867050322.{{cite book}}: CS1 maint: location missing publisher (link)
  74. ^ Fejerskov O, Nyvad B, Kidd EA (2008) "Pathology of dental caries", pp 20–48 in Fejerskov O, Kidd EAM (eds) Dental caries: The disease and its clinical management. Oxford, Blackwell Munksgaard, Vol. 2. ISBN 1444309285.
  75. ^ a b Kidd EA, Fejerskov O (2004). "What constitutes dental caries? Histopathology of carious enamel and dentin related to the action of cariogenic biofilms". Journal of Dental Research. 83 Spec No C: C35–8. doi:10.1177/154405910408301S07. PMID 15286119. S2CID 12240610.
  76. ^ Darling AI (1963). "Resistance of the enamel to dental caries". Journal of Dental Research. 42 (1 Pt2): 488–96. doi:10.1177/00220345630420015601. PMID 14041429. S2CID 71450112.
  77. ^ Robinson C, Shore RC, Brookes SJ, Strafford S, Wood SR, Kirkham J (2000). "The chemistry of enamel caries". Critical Reviews in Oral Biology & Medicine. 11 (4): 481–95. doi:10.1177/10454411000110040601. PMID 11132767.
  78. ^ Nanci, p. 121
  79. ^ "Teeth & Jaws: Caries, Pulp, & Periapical Conditions 2007-05-06 at the Wayback Machine," hosted on the University of Southern California School of Dentistry 2005-12-07 at the Wayback Machine website. Page accessed June 22, 2007.
  80. ^ Ross, Michael H., Kaye, Gordon I. and Pawlina, Wojciech (2003) Histology: a text and atlas. 4th edition, p. 450. ISBN 0-683-30242-6.
  81. ^ a b Nanci, p. 166
  82. ^ Summit, James B., J. William Robbins, and Richard S. Schwartz. Fundamentals of Operative Dentistry: A Contemporary Approach 2nd edition. Carol Stream, Illinois, Quintessence Publishing Co, Inc, 2001, p. 13. ISBN 0-86715-382-2.
  83. ^ Dababneh RH, Khouri AT, Addy M (December 1999). "Dentine hypersensitivity – an enigma? A review of terminology, mechanisms, aetiology and management". British Dental Journal. 187 (11): 606–11, discussion 603. doi:10.1038/sj.bdj.4800345a. PMID 16163281.
  84. ^ a b Smith AJ, Murray PE, Sloan AJ, Matthews JB, Zhao S (August 2001). "Trans-dentinal stimulation of tertiary dentinogenesis". Advances in Dental Research. 15: 51–4. doi:10.1177/08959374010150011301. PMID 12640740. S2CID 7319363.
  85. ^ Summit, James B., J. William Robbins, and Richard S. Schwartz. "Fundamentals of Operative Dentistry: A Contemporary Approach." 2nd edition. Carol Stream, Illinois, Quintessence Publishing Co, Inc, 2001, p. 14. ISBN 0-86715-382-2.
  86. ^ Illustrated Embryology, Histology, and Anatomy, Bath-Balogh and Fehrenbach, Elsevier, 2011[page needed]
  87. ^ a b Deana, A M; Jesus, S H C; Koshoji, N H; Bussadori, S K; Oliveira, M T (2013). "Detection of early carious lesions using contrast enhancement with coherent light scattering (speckle imaging)". Laser Physics. 23 (7): 075607. Bibcode:2013LaPhy..23g5607D. doi:10.1088/1054-660x/23/7/075607. S2CID 121571950.
  88. ^ Rosenstiel, Stephen F. Clinical Diagnosis of Dental Caries: A North American Perspective 2006-08-09 at the Wayback Machine. Maintained by the University of Michigan Dentistry Library, along with the National Institutes of Health, National Institute of Dental and Craniofacial Research. 2000. Page accessed August 13, 2006.
  89. ^ Summit, James B., J. William Robbins, and Richard S. Schwartz. Fundamentals of Operative Dentistry: A Contemporary Approach 2nd edition. Carol Stream, Illinois, Quintessence Publishing Co, Inc, 2001, p. 31. ISBN 0-86715-382-2.
  90. ^ a b Zadik Yehuda; Bechor Ron (June–July 2008). (PDF). The New York State Dental Journal. 74 (4): 46–50. PMID 18788181. Archived from the original (PDF) on 2011-07-22. Retrieved 2008-08-08.
  91. ^ Fejerskov, Ole; Nyvad, Bente; Kidd, Edwina, eds. (May 2015). Dental Caries: The Disease and its Clinical Management (3 ed.). Nashville, TN: John Wiley & Sons. p. 67. ISBN 978-1-118-93582-8.
  92. ^ Sonis, Stephen T. (2003). Dental Secrets (3rd ed.). Philadelphia: Hanley & Belfus. p. 130. ISBN 978-1-56053-573-7.
  93. ^ Sukumaran Anil. Early Childhood Caries: Prevalence, Risk Factors, and Prevention
  94. ^ ADA Early Childhood Tooth Decay (Baby Bottle Tooth Decay) 2006-08-13 at the Wayback Machine. Hosted on the American Dental Association website. Page accessed August 14, 2006.
  95. ^ Statement on Early Childhood Caries, American Dental Association at "Statement on Early Childhood Caries". from the original on 2013-05-12. Retrieved 2013-07-30.
  96. ^ Radiographic Classification of Caries 2006-08-23 at the Wayback Machine. Hosted on the Ohio State University website. Page accessed August 14, 2006.
  97. ^ ADA Methamphetamine Use (METH MOUTH) 2008-06-01 at the Wayback Machine. Hosted on the American Dental Association website. Page accessed February 14, 2007.
  98. ^ Prevention and Management of Dental Caries in Children. Dundee Dental Education Centre, Frankland Building, Small's Wynd, Dundee DD1 4HN, Scotland: Scottish Dental Clinical Effectiveness Programme. April 2010. p. 11. ISBN 9781905829088.{{cite book}}: CS1 maint: location (link)
  99. ^ Helfenstein, U.; Steiner, M.; Marthaler, T. M. (1991). "Caries prediction on the basis of past caries including precavity lesions". Caries Research. 25 (5): 372–6. doi:10.1159/000261394. PMID 1747888.
  100. ^ Seppa, Liisa; Hausen, Hannu; Pollanen, Lea; Helasharju, Kirsti; Karkkainen, Sakari (1989). "Past caries recordings made in Public Dental Clinics as predictors of caries prevalence in early adolescence". Community Dentistry and Oral Epidemiology. 17 (6): 277–281. doi:10.1111/j.1600-0528.1989.tb00635.x. PMID 2686924.
  101. ^ Dorri, Mojtaba; Dunne, Stephen M; Walsh, Tanya; Schwendicke, Falk (2015-11-05). "Micro-invasive interventions for managing proximal dental decay in primary and permanent teeth". Cochrane Database of Systematic Reviews. 2015 (11): CD010431. doi:10.1002/14651858.cd010431.pub2. ISSN 1465-1858. PMC 8504982. PMID 26545080.
  102. ^ Introduction to Dental Plaque 2006-06-23 at the Wayback Machine. Hosted on the Leeds Dental Institute Website. Page accessed August 14, 2006.
  103. ^ Hujoel, Philippe Pierre; Hujoel, Margaux Louise A.; Kotsakis, Georgios A. (2018). "Personal oral hygiene and dental caries: A systematic review of randomised controlled trials". Gerodontology. 35 (4): 282–289. doi:10.1111/ger.12331. ISSN 1741-2358. PMID 29766564. S2CID 21697327.
  104. ^ Sambunjak, Dario; Nickerson, Jason W; Poklepovic, Tina; Johnson, Trevor M; Imai, Pauline; Tugwell, Peter; Worthington, Helen V (2011-12-07). "Flossing for the management of periodontal diseases and dental caries in adults". Cochrane Database of Systematic Reviews (12): CD008829. doi:10.1002/14651858.cd008829.pub2. ISSN 1465-1858. PMID 22161438. S2CID 70702223.
  105. ^ Deacon, Scott A.; Glenny, Anne-Marie; Deery, Chris; Robinson, Peter G.; Heanue, Mike; Walmsley, A Damien; Shaw, William C. (2010). "Different powered toothbrushes for plaque control and gingival health". Cochrane Database of Systematic Reviews. 2020 (12): CD004971. doi:10.1002/14651858.cd004971.pub2. PMC 8406707. PMID 21154357.
  106. ^ Walsh, Tanya; Worthington, Helen V.; Glenny, Anne-Marie; Marinho, Valeria Cc; Jeroncic, Ana (4 March 2019). "Fluoride toothpastes of different concentrations for preventing dental caries". The Cochrane Database of Systematic Reviews. 3 (3): CD007868. doi:10.1002/14651858.CD007868.pub3. ISSN 1469-493X. PMC 6398117. PMID 30829399.
  107. ^ Kraivaphan, Petcharat; Amornchat, Cholticha; Triratana, T; Mateo, L.R.; Ellwood, R; Cummins, Diane; Devizio, William; Zhang, Y-P (2013-08-28). "Two-Year Caries Clinical Study of the Efficacy of Novel Dentifrices Containing 1.5% Arginine, an Insoluble Calcium Compound and 1,450 ppm Fluoride". Caries Research. 47 (6): 582–590. doi:10.1159/000353183. PMID 23988908. S2CID 17683424.
  108. ^ Marinho, Valeria C. C.; Worthington, Helen V.; Walsh, Tanya; Chong, Lee Yee (2015-06-15). "Fluoride gels for preventing dental caries in children and adolescents". Cochrane Database of Systematic Reviews. 2021 (6): CD002280. doi:10.1002/14651858.CD002280.pub2. ISSN 1469-493X. PMC 7138249. PMID 26075879.
  109. ^ Marinho, Valeria C. C.; Chong, Lee Yee; Worthington, Helen V.; Walsh, Tanya (2016-07-29). "Fluoride mouthrinses for preventing dental caries in children and adolescents". Cochrane Database of Systematic Reviews. 7 (2): CD002284. doi:10.1002/14651858.CD002284.pub2. ISSN 1469-493X. PMC 6457869. PMID 27472005.
  110. ^ al-Khateeb TL, O'Mullane DM, Whelton H, Sulaiman MI (2003). "Periodontal treatment needs among Saudi Arabian adults and their relationship to the use of the Miswak". Community Dental Health. 8 (4): 323–328. ISSN 0265-539X. PMID 1790476.
  111. ^ Sheiham, A; James, WP (October 2014). "A new understanding of the relationship between sugars, dental caries and fluoride use: implications for limits on sugars consumption". Public Health Nutrition. 17 (10): 2176–84. doi:10.1017/S136898001400113X. PMC 10282617. PMID 24892213.
  112. ^ Kashket, S.; Van Houte, J.; Lopez, L. R.; Stocks, S. (1991-10-01). "Lack of correlation between food retention on the human dentition and consumer perception of food stickiness". Journal of Dental Research. 70 (10): 1314–1319. doi:10.1177/00220345910700100101. ISSN 0022-0345. PMID 1939824. S2CID 24467161.
  113. ^ "Nutrition and tooth decay in infancy". European Academy of Paediatric Dentistry. Kyriaki Tsinidou. Retrieved 2019-04-06.
  114. ^ Oral Health Topics: Baby Bottle Tooth Decay 2006-08-13 at the Wayback Machine, hosted on the American Dental Association website. Page accessed August 14, 2006.
  115. ^ Guideline on Infant Oral Health Care 2006-12-06 at the Wayback Machine, hosted on the American Academy of Pediatric Dentistry 2007-01-12 at the Wayback Machine website. Page accessed January 13, 2007.
  116. ^ Twetman, S (2015). "The evidence base for professional and self-care prevention--caries, erosion and sensitivity". BMC Oral Health. 15 (Suppl 1): S4. doi:10.1186/1472-6831-15-S1-S4. PMC 4580782. PMID 26392204.
  117. ^ Twetman, S; Dhar, V (2015). "Evidence of Effectiveness of Current Therapies to Prevent and Treat Early Childhood Caries". Pediatric Dentistry. 37 (3): 246–53. PMID 26063553. from the original on 2017-03-28.
  118. ^ Riley P, Moore D, Ahmed F, Sharif MO, Worthington HV (March 2015). "Xylitol-containing products for preventing dental caries in children and adults". Cochrane Database of Systematic Reviews. 2015 (3): CD010743. doi:10.1002/14651858.CD010743.pub2. PMC 9345289. PMID 25809586.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  119. ^ Mejare I, Lingstrom P, Petersson LG, Holm AK, Twetman S, Kallestal C, Nordenram G, Lagerlof F, Soder B, Norlund A, Axelsson S, Dahlgren H (2003). "Caries-preventive effect of fissure sealants: a systematic review". Acta Odontologica Scandinavica. 61 (6): 321–330. doi:10.1080/00016350310007581. PMID 14960003. S2CID 57252105.
  120. ^ Ahovuo-Saloranta, Anneli; Forss, Helena; Hiiri, Anne; Nordblad, Anne; Mäkelä, Marjukka (2016-01-18). "Pit and fissure sealants versus fluoride varnishes for preventing dental decay in the permanent teeth of children and adolescents". The Cochrane Database of Systematic Reviews. 2016 (1): CD003067. doi:10.1002/14651858.CD003067.pub4. ISSN 1469-493X. PMC 7177291. PMID 26780162.
  121. ^ Nanci, p. 7
  122. ^ A, Deepti; Jeevarathan, J; Muthu, MS; Prabhu V, Rathna; Chamundeswari (2008-01-01). "Effect of Fluoride Varnish on Streptococcus mutans Count in Saliva of Caries Free Children Using Dentocult SM Strip Mutans Test: A Randomized Controlled Triple Blind Study". International Journal of Clinical Pediatric Dentistry. 1 (1): 1–9. doi:10.5005/jp-journals-10005-1001. ISSN 0974-7052. PMC 4086538. PMID 25206081.
  123. ^ Ross, Michael H., Kaye, Gordon I. and Pawlina, Wojciech (2003). Histology: A Text and Atlas. 4th edition, p. 453. ISBN 0-683-30242-6.
  124. ^ a b c d Takahashi, Rena; Ota, Erika; Hoshi, Keika; Naito, Toru; Toyoshima, Yoshihiro; Yuasa, Hidemichi; Mori, Rintaro (2015). Mori, Rintaro (ed.). "Fluoride supplementation in pregnant women for preventing dental caries in the primary teeth of their children". Cochrane Database of Systematic Reviews (8): CD011850. doi:10.1002/14651858.cd011850.
  125. ^ Limited evidence suggests fluoride varnish applied twice yearly is effective for caries prevention in children at . Archived from the original on 2013-12-03. Retrieved 2013-07-30.
  126. ^ Santos, A. P. P.; Oliveira, B. H.; Nadanovsky, P. (2013-01-01). "Effects of low and standard fluoride toothpastes on caries and fluorosis: systematic review and meta-analysis". Caries Research. 47 (5): 382–390. doi:10.1159/000348492. ISSN 1421-976X. PMID 23572031. S2CID 207625475.
  127. ^ American Dental Association Council on Scientific Affairs (February 2014). "Fluoride toothpaste use for young children". The Journal of the American Dental Association. 145 (2): 190–191. doi:10.14219/jada.2013.47. ISSN 0002-8177. PMID 24487611.
  128. ^ "Delivering Better Oral Health: An evidence-based toolkit for prevention, second edition" (PDF). Department of Health / British Association for the Study of Community Dentistry. April 2009. Archived from the original (PDF) on 2010-08-10.
  129. ^ "Prevention and management of dental caries in children: Dental clinical guidance" (PDF). sdcep.co.uk. April 2010. pp. 6–7. (PDF) from the original on 5 October 2016. Retrieved 7 March 2016.
  130. ^ Walsh, Tanya; Oliveira-Neto, Jeronimo M; Moore, Deborah (2015-04-13). "Chlorhexidine treatment for the prevention of dental caries in children and adolescents". Cochrane Database of Systematic Reviews. 2015 (4): CD008457. doi:10.1002/14651858.cd008457.pub2. ISSN 1465-1858. PMC 10726983. PMID 25867816.
  131. ^ a b "Prevention and management of dental caries in children: Dental clinical guidance" (PDF). sdcep.co.uk. April 2010. pp. 6–7. (PDF) from the original on 5 October 2016. Retrieved 7 March 2016.
  132. ^ Russell, MW; Childers, NK; Michalek, SM; Smith, DJ; Taubman, MA (May–Jun 2004). "A Caries Vaccine? The state of the science of immunization against dental caries". Caries Research. 38 (3): 230–5. doi:10.1159/000077759. PMID 15153693. S2CID 5238758.
  133. ^ Chiba, Itsuo; Isogai, Hiroshi; Kobayashi-Sakamoto, Michiyo; Mizugai, Hiroyuki; Hirose, Kimiharu; Isogai, Emiko; Nakano, Taku; Icatlo, Faustino C.; Nguyen, Sa V. (2011-08-01). "Anti–cell-associated glucosyltransferase immunoglobulin Y suppression of salivary mutans streptococci in healthy young adults". The Journal of the American Dental Association. 142 (8): 943–949. doi:10.14219/jada.archive.2011.0301. ISSN 0002-8177. PMID 21804061.
  134. ^ Ole Fejerskov; Edwina Kidd (2004). Dental caries : the disease and its clinical management. Copenhagen [u.a.]: Blackwell Munksgaard. ISBN 9781405107181.
  135. ^ Oral Health Topics: Anesthesia Frequently Asked Questions 2006-07-16 at the Wayback Machine, hosted on the American Dental Association website. Page accessed August 16, 2006.
  136. ^ Summit, James B., J. William Robbins, and Richard S. Schwartz. "Fundamentals of Operative Dentistry: A Contemporary Approach." 2nd edition. Carol Stream, Illinois, Quintessence Publishing Co, Inc, 2001, p. 128. ISBN 0-86715-382-2.
  137. ^ Montedori, Alessandro; Abraha, Iosief; Orso, Massimiliano; d'Errico, Potito Giuseppe; Pagano, Stefano; Lombardo, Guido (2016). "Lasers for caries removal in deciduous and permanent teeth". Cochrane Database of Systematic Reviews. 2016 (9): CD010229. doi:10.1002/14651858.cd010229.pub2. PMC 6457657. PMID 27666123.
  138. ^ Huang, CT; Kim, J; Arce, C; Lawson, NC (2019). "Intraoral Air Abrasion: A Review of Devices, Materials, Evidence, and Clinical Applications in Restorative Dentistry". Compendium of Continuing Education in Dentistry. 40 (8): 508–514. ISSN 1548-8578. PMID 31478697.
  139. ^ Mandinic, Zoran; Vulicevic, Zoran; Beloica, Milos; Radovic, Ivana; Mandic, Jelena; Carevic, Momir; Tekic, Jasmina (2014). "The application of air abrasion in dentistry". Srpski Arhiv Za Celokupno Lekarstvo. National Library of Serbia. 142 (1–2): 99–105. doi:10.2298/sarh1402099m. ISSN 0370-8179. PMID 24684041.
  140. ^ "Aspects of Treatment of Cavities and of Caries Disease 2008-12-07 at the Wayback Machine" from the Disease Control Priorities Project. Page accessed August 15, 2006.
  141. ^ Oral Health Topics: Dental Filling Options 2009-08-30 at the Wayback Machine, hosted on the American Dental Association website. Page accessed August 16, 2006.
  142. ^ What is a Root Canal? 2006-08-06 at the Wayback Machine, hosted by the Academy of General Dentistry. Page accessed August 16, 2006.
  143. ^ FAQs About Root Canal Treatment 2006-08-13 at the Wayback Machine, hosted by the American Association of Endodontists website. Page accessed August 16, 2006.
  144. ^ Wisdom Teeth 2006-08-23 at the Wayback Machine, a packet in pdf format hosted by the American Association of Oral and Maxillofacial Surgeons. Page accessed August 16, 2006.
  145. ^ "WHO Disease and injury country estimates". World Health Organization. 2009. from the original on 2009-11-11. Retrieved Nov 11, 2009.
  146. ^ The World Oral Health Report 2003: Continuous improvement of oral health in the 21st century – the approach of the WHO Global Oral Health Programme 2006-09-27 at the Wayback Machine, released by the World Health Organization. (File in pdf format.) Page accessed August 15, 2006.
  147. ^ Healthy People: 2010 2006-08-13 at the Wayback Machine. Html version hosted on Healthy People.gov 2017-03-10 at the Wayback Machine website. Page accessed August 13, 2006.
  148. ^ Frequently Asked Questions 2006-08-16 at the Wayback Machine, hosted on the American Dental Hygiene Association website. Page accessed August 15, 2006.
  149. ^ a b c "Dental caries 2008-12-07 at the Wayback Machine", from the Disease Control Priorities Project. Page accessed August 15, 2006.
  150. ^ http://apps.who.int/iris/bitstream/handle/10665/149782/9789241549028_eng.pdf[bare URL PDF]
  151. ^ World Health Organization 2006-03-26 at the Wayback Machine website, "World Water Day 2001: Oral health", p. 2. Page accessed August 14, 2006.
  152. ^ a b Touger-Decker R, van Loveren C (October 2003). "Sugars and dental caries". The American Journal of Clinical Nutrition. 78 (4): 881S–892S. doi:10.1093/ajcn/78.4.881S. PMID 14522753.
  153. ^ "Table 38.1. Mean DMFT and SiC Index of 12-Year-Olds for Some Countries, by Ascending Order of DMFT 2008-12-07 at the Wayback Machine", from the Disease Control Priorities Project. Page accessed January 8, 2007.
  154. ^ Africa, Charlene; Nel, Janske; Stemmet, Megan (2014). "Anaerobes and Bacterial Vaginosis in Pregnancy: Virulence Factors Contributing to Vaginal Colonisation". International Journal of Environmental Research and Public Health. 11 (7): 6979–7000. doi:10.3390/ijerph110706979. ISSN 1660-4601. PMC 4113856. PMID 25014248.
  155. ^ Towle, Ian; Irish, Joel D.; Groote, Isabelle De (2017). "Dental pathology, wear, and developmental defects in fossil hominins and extant primates". ResearchGate. Unpublished. doi:10.13140/RG.2.2.21395.99369. Retrieved 2019-01-09.
  156. ^ a b c Epidemiology of Dental Disease 2006-11-29 at the Wayback Machine, hosted on the University of Illinois at Chicago website. Page accessed January 9, 2007.
  157. ^ a b c d e f g h i Suddick RP, Harris NO (1990). "Historical perspectives of oral biology: a series". Critical Reviews in Oral Biology & Medicine. 1 (2): 135–51. doi:10.1177/10454411900010020301. PMID 2129621.
  158. ^ Caries Through Time: An Anthropological Overview; Luis Pezo Lanfranco and Sabine Eggers; Laboratório de Antropologia Biológica, Depto. de Genética e Biologia Evolutiva, Instituto de Biociências, Universidade de São Paulo, Brazil
  159. ^ Richards MP (December 2002). "A brief review of the archaeological evidence for Palaeolithic and Neolithic subsistence". European Journal of Clinical Nutrition. 56 (12): 1270–1278. doi:10.1038/sj.ejcn.1601646. PMID 12494313. S2CID 17082871.
  160. ^ Lukacs, John R. (1996-02-01). "Sex Differences in Dental Caries Rates With the Origin of Agriculture in South Asia". Current Anthropology. 37 (1): 147–153. doi:10.1086/204481. ISSN 0011-3204. S2CID 143956987.
  161. ^ Tayles N.; Domett K.; Nelsen K. (2000). "Agriculture and dental caries? The case of rice in prehistoric Southeast Asia". World Archaeology. 32 (1): 68–83. doi:10.1080/004382400409899. PMID 16475298. S2CID 43087099.
  162. ^ a b History of Dentistry: Ancient Origins Archived 2007-07-16 at WebCite, hosted on the American Dental Association 2005-01-03 at the Wayback Machine website. Page accessed January 9, 2007.
  163. ^ Coppa A, Bondioli L, Cucina A, et al. (April 2006). "Palaeontology: early Neolithic tradition of dentistry". Nature. 440 (7085): 755–6. Bibcode:2006Natur.440..755C. doi:10.1038/440755a. PMID 16598247. S2CID 6787162.
  164. ^ Anderson T (October 2004). "Dental treatment in Medieval England". British Dental Journal. 197 (7): 419–25. doi:10.1038/sj.bdj.4811723. PMID 15475905. S2CID 25691109.
  165. ^ Elliott, Jane (October 8, 2004). Medieval teeth 'better than Baldrick's' 2007-01-11 at the Wayback Machine, BBC news.
  166. ^ Gerabek WE (March 1999). "The tooth-worm: historical aspects of a popular medical belief". Clinical Oral Investigations. 3 (1): 1–6. doi:10.1007/s007840050070. PMID 10522185. S2CID 6077189.
  167. ^ McCauley, H. Berton. Pierre Fauchard (1678–1761) 2007-04-04 at the Wayback Machine, hosted on the Pierre Fauchard Academy website. The excerpt comes from a speech given at a Maryland PFA Meeting on March 13, 2001. Page accessed January 17, 2007.
  168. ^ Kleinberg I (1 March 2002). "A mixed-bacteria ecological approach to understanding the role of the oral bacteria in dental caries causation: an alternative to Streptococcus mutans and the specific-plaque hypothesis". Critical Reviews in Oral Biology & Medicine. 13 (2): 108–25. doi:10.1177/154411130201300202. PMID 12097354.
  169. ^ Baehni PC, Guggenheim B (1996). "Potential of diagnostic microbiology for treatment and prognosis of dental caries and periodontal diseases" (PDF). Critical Reviews in Oral Biology & Medicine. 7 (3): 259–77. doi:10.1177/10454411960070030401. PMID 8909881.
  170. ^ Hiremath, S. S. (2011). Textbook of Preventive and Community Dentistry. Elsevier India. p. 145. ISBN 9788131225301.
  171. ^ Selwitz RH, Ismail AI, Pitts NB (January 2007). "Dental caries". The Lancet. 369 (9555): 51–9. doi:10.1016/S0140-6736(07)60031-2. PMID 17208642. S2CID 204616785.
  172. ^ Elsevier, Dorland's Illustrated Medical Dictionary.
  173. ^ "Dentistry for All / International Dental Review – General Info". Retrieved 2019-09-26. ...Head of Cariesology and Endodontics Department...
  174. ^ "The Faculty of Dental Medicine". Retrieved 2019-09-26.
  175. ^ ""Cariology" entry". thefreedictionary.com. Retrieved 2019-09-26.
  176. ^ Listl, S.; Galloway, J.; Mossey, P. A.; Marcenes, W. (28 August 2015). "Global Economic Impact of Dental Diseases". Journal of Dental Research. 94 (10): 1355–1361. doi:10.1177/0022034515602879. PMID 26318590. S2CID 39147394.
  177. ^ . American Veterinary Dental Society. Archived from the original on 13 October 2006. Retrieved 10 November 2013.

General and cited sources edit

  • Nanci, A. (2013). Ten Cate's Oral Histology (8th ed.). St. Louis, MO: Elsevier. ISBN 978-0323078467.

External links edit

 
Wikimedia Commons has media related to Dental caries.
 
Wikipedia's health care articles can be viewed offline with the Medical Wikipedia app.
  • Tooth decay at Curlie
  • Centers for Disease Control: Dental Caries

February 16, 2024
tooth, decay, caries, bone, osteolysis, also, known, cavities, caries, breakdown, teeth, acids, produced, bacteria, cavities, number, different, colors, from, yellow, black, symptoms, include, pain, difficulty, with, eating, complications, include, inflammatio. For caries of bone see Osteolysis Tooth decay also known as cavities or caries is the breakdown of teeth due to acids produced by bacteria 6 The cavities may be a number of different colors from yellow to black 1 Symptoms may include pain and difficulty with eating 1 2 Complications may include inflammation of the tissue around the tooth tooth loss and infection or abscess formation 1 3 Tooth decayOther namesDental cavities dental caries cavities cariesDestruction of a tooth by dental caries and diseasePronunciationCaries ˈ k ɛer iː z SpecialtyDentistrySymptomsPain tooth loss difficulty eating 1 2 ComplicationsInflammation around the tooth tooth loss infection or abscess formation 1 3 DurationLong termCausesBacteria producing acid from food debris 4 Risk factorsDiet high in simple sugar diabetes mellitus Sjogren syndrome medications that decrease saliva 4 PreventionLow sugar diet tooth brushing fluoride flossing 2 5 MedicationParacetamol acetaminophen ibuprofen 6 Frequency3 6 billion 2016 7 The cause of cavities is acid from bacteria dissolving the hard tissues of the teeth enamel dentin and cementum 4 The acid is produced by the bacteria when they break down food debris or sugar on the tooth surface 4 Simple sugars in food are these bacteria s primary energy source and thus a diet high in simple sugar is a risk factor 4 If mineral breakdown is greater than build up from sources such as saliva caries results 4 Risk factors include conditions that result in less saliva such as diabetes mellitus Sjogren syndrome and some medications 4 Medications that decrease saliva production include antihistamines and antidepressants 4 Dental caries are also associated with poverty poor cleaning of the mouth and receding gums resulting in exposure of the roots of the teeth 6 8 Prevention of dental caries includes regular cleaning of the teeth a diet low in sugar and small amounts of fluoride 2 4 Brushing one s teeth twice per day and flossing between the teeth once a day is recommended 4 6 Fluoride may be acquired from water salt or toothpaste among other sources 2 Treating a mother s dental caries may decrease the risk in her children by decreasing the number of certain bacteria she may spread to them 4 Screening can result in earlier detection 6 Depending on the extent of destruction various treatments can be used to restore the tooth to proper function or the tooth may be removed 6 There is no known method to grow back large amounts of tooth 9 The availability of treatment is often poor in the developing world 2 Paracetamol acetaminophen or ibuprofen may be taken for pain 6 Worldwide approximately 3 6 billion people 48 of the population have dental caries in their permanent teeth as of 2016 7 The World Health Organization estimates that nearly all adults have dental caries at some point in time 2 In baby teeth it affects about 620 million people or 9 of the population 10 They have become more common in both children and adults in recent years 11 The disease is most common in the developed world due to greater simple sugar consumption and less common in the developing world 6 Caries is Latin for rottenness 3 Contents 1 Signs and symptoms 2 Cause 2 1 Bacteria 2 2 Dietary sugars 2 3 Exposure 2 4 Teeth 2 5 Other factors 3 Pathophysiology 3 1 Enamel 3 2 Dentin 3 2 1 Sclerotic dentin 3 2 2 Tertiary dentin 3 3 Cementum 4 Diagnosis 4 1 Classification 4 2 Early childhood caries 4 3 Rate of progression 4 4 Affected hard tissue 5 Prevention 5 1 Oral hygiene 5 2 Dietary modification 5 3 Other measures 6 Treatment 7 Epidemiology 8 History 8 1 Etymology and usage 9 Society and culture 10 Other animals 11 See also 12 References 12 1 General and cited sources 13 External linksSigns and symptoms edit nbsp A A small spot of decay visible on the surface of a tooth B The radiograph reveals an extensive region of demineralization within the dentin arrows C A hole is discovered on the side of the tooth at the beginning of decay removal D All decay removed ready for a filling A person experiencing caries may not be aware of the disease 12 The earliest sign of a new carious lesion is the appearance of a chalky white spot on the surface of the tooth indicating an area of demineralization of enamel This is referred to as a white spot lesion an incipient carious lesion or a micro cavity 13 As the lesion continues to demineralize it can turn brown but will eventually turn into a cavitation cavity Before the cavity forms the process is reversible but once a cavity forms the lost tooth structure cannot be regenerated A lesion that appears dark brown and shiny suggests dental caries were once present but the demineralization process has stopped leaving a stain Active decay is lighter in color and dull in appearance 14 As the enamel and dentin are destroyed the cavity becomes more noticeable The affected areas of the tooth change color and become soft to the touch Once the decay passes through the enamel the dentinal tubules which have passages to the nerve of the tooth become exposed resulting in pain that can be transient temporarily worsening with exposure to heat cold or sweet foods and drinks 15 A tooth weakened by extensive internal decay can sometimes suddenly fracture under normal chewing forces When the decay has progressed enough to allow the bacteria to overwhelm the pulp tissue in the center of the tooth a toothache can result and the pain will become more constant Death of the pulp tissue and infection are common consequences The tooth will no longer be sensitive to hot or cold but can be very tender to pressure Dental caries can also cause bad breath and foul tastes 16 In highly progressed cases an infection can spread from the tooth to the surrounding soft tissues Complications such as cavernous sinus thrombosis and Ludwig angina can be life threatening 17 18 19 Cause edit nbsp Diagrammatic representation of acidogenic theory of causation of dental caries Four factors namely a suitable carbohydrate substrate 1 micro organisms in dental plaque 2 a susceptible tooth surface 3 and time 4 must be present together for dental caries to occur 5 Saliva 6 and fluoride 7 are modifying factors Four things are required for caries to form a tooth surface enamel or dentin caries causing bacteria fermentable carbohydrates such as sucrose and time 20 This involves adherence of food to the teeth and acid creation by the bacteria that makes up the dental plaque 21 However these four criteria are not always enough to cause the disease and a sheltered environment promoting development of a cariogenic biofilm is required The caries disease process does not have an inevitable outcome and different individuals will be susceptible to different degrees depending on the shape of their teeth oral hygiene habits and the buffering capacity of their saliva Dental caries can occur on any surface of a tooth that is exposed to the oral cavity but not the structures that are retained within the bone 22 Tooth decay is caused by biofilm dental plaque lying on the teeth and maturing to become cariogenic causing decay Certain bacteria in the biofilm produce acid in the presence of fermentable carbohydrates such as sucrose fructose and glucose 23 24 Caries occur more often in people from the lower end of the socio economic scale than people from the upper end of the socio economic scale due to lack of education about dental care and lack of access to professional dental care which may be expensive 25 Bacteria edit nbsp A Gram stain image of Streptococcus mutans See also Oral ecology The most common bacteria associated with dental cavities are the mutans streptococci most prominently Streptococcus mutans and Streptococcus sobrinus and lactobacilli However cariogenic bacteria the ones that can cause the disease are present in dental plaque but they are usually in too low concentrations to cause problems unless there is a shift in the balance 26 This is driven by local environmental change such as frequent sugar intake or inadequate biofilm removal toothbrushing 27 If left untreated the disease can lead to pain tooth loss and infection 28 The mouth contains a wide variety of oral bacteria but only a few specific species of bacteria are believed to cause dental caries Streptococcus mutans and Lactobacillus species among them Streptococcus mutans are gram positive bacteria which constitute biofilms on the surface of teeth These organisms can produce high levels of lactic acid following fermentation of dietary sugars and are resistant to the adverse effects of low pH properties essential for cariogenic bacteria 23 As the cementum of root surfaces is more easily demineralized than enamel surfaces a wider variety of bacteria can cause root caries including Lactobacillus acidophilus Actinomyces spp Nocardia spp and Streptococcus mutans Bacteria collect around the teeth and gums in a sticky creamy coloured mass called plaque which serves as a biofilm Some sites collect plaque more commonly than others for example sites with a low rate of salivary flow molar fissures Grooves on the occlusal surfaces of molar and premolar teeth provide microscopic retention sites for plaque bacteria as do the interproximal sites Plaque may also collect above or below the gingiva where it is referred to as supra or sub gingival plaque respectively These bacterial strains most notably S mutans can be inherited by a child from a caretaker s kiss or through feeding pre masticated food 29 Dietary sugars edit Bacteria in a person s mouth convert glucose fructose and most commonly sucrose table sugar into acids such as lactic acid through a glycolytic process called fermentation 24 If left in contact with the tooth these acids may cause demineralization which is the dissolution of its mineral content The process is dynamic however as remineralization can also occur if the acid is neutralized by saliva or mouthwash Fluoride toothpaste or dental varnish may aid remineralization 30 If demineralization continues over time enough mineral content may be lost so that the soft organic material left behind disintegrates forming a cavity or hole The impact such sugars have on the progress of dental caries is called cariogenicity Sucrose although a bound glucose and fructose unit is in fact more cariogenic than a mixture of equal parts of glucose and fructose This is due to the bacteria using the energy in the saccharide bond between the glucose and fructose subunits S mutans adheres to the biofilm on the tooth by converting sucrose into an extremely adhesive substance called dextran polysaccharide by the enzyme dextran sucranase 31 Exposure edit nbsp Stephan curve showing sudden decrease in plaque pH following glucose rinse which returns to normal after 30 60 min Net demineralization of dental hard tissues occurs below the critical pH 5 5 shown in yellow The frequency with which teeth are exposed to cariogenic acidic environments affects the likelihood of caries development citation needed After meals or snacks the bacteria in the mouth metabolize sugar resulting in an acidic by product that decreases pH As time progresses the pH returns to normal due to the buffering capacity of saliva and the dissolved mineral content of tooth surfaces During every exposure to the acidic environment portions of the inorganic mineral content at the surface of teeth dissolve and can remain dissolved for two hours 32 Since teeth are vulnerable during these acidic periods the development of dental caries relies heavily on the frequency of acid exposure The carious process can begin within days of a tooth s erupting into the mouth if the diet is sufficiently rich in suitable carbohydrates Evidence suggests that the introduction of fluoride treatments has slowed the process 33 Proximal caries take an average of four years to pass through enamel in permanent teeth Because the cementum enveloping the root surface is not nearly as durable as the enamel encasing the crown root caries tend to progress much more rapidly than decay on other surfaces The progression and loss of mineralization on the root surface is 2 5 times faster than caries in enamel In very severe cases where oral hygiene is very poor and where the diet is very rich in fermentable carbohydrates caries may cause cavities within months of tooth eruption This can occur for example when children continuously drink sugary drinks from baby bottles see later discussion Teeth edit nbsp Tooth decayThere are certain diseases and disorders affecting teeth that may leave an individual at a greater risk for cavities Molar incisor hypo mineralization seems to be increasingly common 34 While the cause is unknown it is thought to be a combination of genetic and environmental factors 35 Possible contributing factors that have been investigated include systemic factors such as high levels of dioxins or polychlorinated biphenyl PCB in the mother s milk premature birth and oxygen deprivation at birth and certain disorders during the child s first 3 years such as mumps diphtheria scarlet fever measles hypoparathyroidism malnutrition malabsorption hypo vitaminosis D chronic respiratory diseases or undiagnosed and untreated coeliac disease which usually presents with mild or absent gastrointestinal symptoms 34 36 37 38 39 40 Amelogenesis imperfecta which occurs in between 1 in 718 and 1 in 14 000 individuals is a disease in which the enamel does not fully form or forms in insufficient amounts and can fall off a tooth 41 In both cases teeth may be left more vulnerable to decay because the enamel is not able to protect the tooth 42 In most people disorders or diseases affecting teeth are not the primary cause of dental caries Approximately 96 of tooth enamel is composed of minerals 43 These minerals especially hydroxyapatite will become soluble when exposed to acidic environments Enamel begins to demineralize at a pH of 5 5 44 Dentin and cementum are more susceptible to caries than enamel because they have lower mineral content 45 Thus when root surfaces of teeth are exposed from gingival recession or periodontal disease caries can develop more readily Even in a healthy oral environment however the tooth is susceptible to dental caries The evidence for linking malocclusion and or crowding to dental caries is weak 46 47 however the anatomy of teeth may affect the likelihood of caries formation Where the deep developmental grooves of teeth are more numerous and exaggerated pit and fissure caries is more likely to develop see next section Also caries is more likely to develop when food is trapped between teeth Other factors edit Reduced salivary flow rate is associated with increased caries since the buffering capability of saliva is not present to counterbalance the acidic environment created by certain foods As a result medical conditions that reduce the amount of saliva produced by salivary glands in particular the submandibular gland and parotid gland are likely to lead to dry mouth and thus to widespread tooth decay Examples include Sjogren syndrome diabetes mellitus diabetes insipidus and sarcoidosis 48 Medications such as antihistamines and antidepressants can also impair salivary flow Stimulants most notoriously methylamphetamine also occlude the flow of saliva to an extreme degree This is known as meth mouth Tetrahydrocannabinol THC the active chemical substance in cannabis also causes a nearly complete occlusion of salivation known in colloquial terms as cotton mouth Moreover 63 of the most commonly prescribed medications in the United States list dry mouth as a known side effect 48 Radiation therapy of the head and neck may also damage the cells in salivary glands somewhat increasing the likelihood of caries formation 49 50 Susceptibility to caries can be related to altered metabolism in the tooth in particular to fluid flow in the dentin Experiments on rats have shown that a high sucrose cariogenic diet significantly suppresses the rate of fluid motion in dentin 51 The use of tobacco may also increase the risk for caries formation Some brands of smokeless tobacco contain high sugar content increasing susceptibility to caries 52 Tobacco use is a significant risk factor for periodontal disease which can cause the gingiva to recede 53 As the gingiva loses attachment to the teeth due to gingival recession the root surface becomes more visible in the mouth If this occurs root caries is a concern since the cementum covering the roots of teeth is more easily demineralized by acids than enamel 54 Currently there is not enough evidence to support a causal relationship between smoking and coronal caries but evidence does suggest a relationship between smoking and root surface caries 55 Exposure of children to secondhand tobacco smoke is associated with tooth decay 56 Intrauterine and neonatal lead exposure promote tooth decay 57 58 59 60 61 62 63 Besides lead all atoms with electrical charge and ionic radius similar to bivalent calcium 64 such as cadmium mimic the calcium ion and therefore exposure to them may promote tooth decay 65 Poverty is also a significant social determinant for oral health 66 Dental caries have been linked with lower socio economic status and can be considered a disease of poverty 67 Forms are available for risk assessment for caries when treating dental cases this system using the evidence based Caries Management by Risk Assessment CAMBRA 68 It is still unknown if the identification of high risk individuals can lead to more effective long term patient management that prevents caries initiation and arrests or reverses the progression of lesions 69 Saliva also contains iodine and EGF EGF results effective in cellular proliferation differentiation and survival 70 Salivary EGF which seems also regulated by dietary inorganic iodine plays an important physiological role in the maintenance of oral and gastro oesophageal tissue integrity and on the other hand iodine is effective in prevention of dental caries and oral health 71 Pathophysiology edit nbsp Microbe communities attach to tooth surface and create a biofilm As the biofilm grows an anaerobic environment forms from the oxygen being used Microbes use sucrose and other dietary sugars as a food source The dietary sugars go through anaerobic fermentation pathways producing lactate The lactate is excreted from the cell onto the tooth enamel then ionizes The lactate ions demineralize the hydroxyapatite crystals causing the tooth to degrade nbsp The progression of pit and fissure caries resembles two triangles with their bases meeting along the junction of enamel and dentin Teeth are bathed in saliva and have a coating of bacteria on them biofilm that continually forms The development of biofilm begins with pellicle formation Pellicle is an acellular proteinaceous film which covers the teeth Bacteria colonize on the teeth by adhering to the pellicle coated surface Over time a mature biofilm is formed creating a cariogenic environment on the tooth surface 72 73 The minerals in the hard tissues of the teeth enamel dentin and cementum are constantly undergoing demineralization and remineralization Dental caries result when the demineralization rate is faster than the remineralization producing net mineral loss which occurs when there is an ecologic shift within the dental biofilm from a balanced population of microorganisms to a population that produces acids and can survive in an acid environment 74 Enamel edit Tooth enamel is a highly mineralized acellular tissue and caries act upon it through a chemical process brought on by the acidic environment produced by bacteria As the bacteria consume the sugar and use it for their own energy they produce lactic acid The effects of this process include the demineralization of crystals in the enamel caused by acids over time until the bacteria physically penetrate the dentin Enamel rods which are the basic unit of the enamel structure run perpendicularly from the surface of the tooth to the dentin Since demineralization of enamel by caries follows the direction of the enamel rods the different triangular patterns between pit and fissure and smooth surface caries develop in the enamel because the orientation of enamel rods are different in the two areas of the tooth 75 As the enamel loses minerals and dental caries progresses the enamel develops several distinct zones visible under a light microscope From the deepest layer of the enamel to the enamel surface the identified areas are the translucent zone dark zones body of the lesion and surface zone 76 The translucent zone is the first visible sign of caries and coincides with a one to two percent loss of minerals 77 A slight remineralization of enamel occurs in the dark zone which serves as an example of how the development of dental caries is an active process with alternating changes 78 The area of greatest demineralization and destruction is in the body of the lesion itself The surface zone remains relatively mineralized and is present until the loss of tooth structure results in a cavitation Dentin edit Unlike enamel the dentin reacts to the progression of dental caries After tooth formation the ameloblasts which produce enamel are destroyed once enamel formation is complete and thus cannot later regenerate enamel after its destruction On the other hand dentin is produced continuously throughout life by odontoblasts which reside at the border between the pulp and dentin Since odontoblasts are present a stimulus such as caries can trigger a biologic response These defense mechanisms include the formation of sclerotic and tertiary dentin 79 In dentin from the deepest layer to the enamel the distinct areas affected by caries are the advancing front the zone of bacterial penetration and the zone of destruction 75 The advancing front represents a zone of demineralized dentin due to acid and has no bacteria present The zones of bacterial penetration and destruction are the locations of invading bacteria and ultimately the decomposition of dentin The zone of destruction has a more mixed bacterial population where proteolytic enzymes have destroyed the organic matrix The innermost dentin caries has been reversibly attacked because the collagen matrix is not severely damaged giving it potential for repair nbsp The faster spread of caries through dentin creates this triangular appearance in smooth surface caries Sclerotic dentin edit The structure of dentin is an arrangement of microscopic channels called dentinal tubules which radiate outward from the pulp chamber to the exterior cementum or enamel border 80 The diameter of the dentinal tubules is largest near the pulp about 2 5 mm and smallest about 900 nm at the junction of dentin and enamel 81 The carious process continues through the dentinal tubules which are responsible for the triangular patterns resulting from the progression of caries deep into the tooth The tubules also allow caries to progress faster In response the fluid inside the tubules brings immunoglobulins from the immune system to fight the bacterial infection At the same time there is an increase of mineralization of the surrounding tubules 82 This results in a constriction of the tubules which is an attempt to slow the bacterial progression In addition as the acid from the bacteria demineralizes the hydroxyapatite crystals calcium and phosphorus are released allowing for the precipitation of more crystals which fall deeper into the dentinal tubule These crystals form a barrier and slow the advancement of caries After these protective responses the dentin is considered sclerotic According to hydrodynamic theory fluids within dentinal tubules are believed to be the mechanism by which pain receptors are triggered within the pulp of the tooth 83 Since sclerotic dentin prevents the passage of such fluids pain that would otherwise serve as a warning of the invading bacteria may not develop at first Tertiary dentin edit See also Tertiary dentin In response to dental caries there may be production of more dentin toward the direction of the pulp This new dentin is referred to as tertiary dentin 81 Tertiary dentin is produced to protect the pulp for as long as possible from the advancing bacteria As more tertiary dentin is produced the size of the pulp decreases This type of dentin has been subdivided according to the presence or absence of the original odontoblasts 84 If the odontoblasts survive long enough to react to the dental caries then the dentin produced is called reactionary dentin If the odontoblasts are killed the dentin produced is called reparative dentin In the case of reparative dentin other cells are needed to assume the role of the destroyed odontoblasts Growth factors especially TGF b 84 are thought to initiate the production of reparative dentin by fibroblasts and mesenchymal cells of the pulp 85 Reparative dentin is produced at an average of 1 5 mm day but can be increased to 3 5 mm day The resulting dentin contains irregularly shaped dentinal tubules that may not line up with existing dentinal tubules This diminishes the ability for dental caries to progress within the dentinal tubules Cementum edit The incidence of cemental caries increases in older adults as gingival recession occurs from either trauma or periodontal disease It is a chronic condition that forms a large shallow lesion and slowly invades first the root s cementum and then dentin to cause a chronic infection of the pulp see further discussion under classification by affected hard tissue Because dental pain is a late finding many lesions are not detected early resulting in restorative challenges and increased tooth loss 86 Diagnosis edit nbsp The tip of a dental explorer which is used for caries diagnosis nbsp A dental infection resulting in an abscess and inflammation of the maxillary sinus nbsp Tooth samples imaged with a non coherent continuous light source row 1 LSI row 2 and pseudo color visualization of LSI row 3 87 The presentation of caries is highly variable However the risk factors and stages of development are similar Initially it may appear as a small chalky area smooth surface caries which may eventually develop into a large cavitation Sometimes caries may be directly visible However other methods of detection such as X rays are used for less visible areas of teeth and to judge the extent of destruction Lasers for detecting caries allow detection without ionizing radiation and are now used for detection of interproximal decay between the teeth Primary diagnosis involves inspection of all visible tooth surfaces using a good light source dental mirror and explorer Dental radiographs X rays may show dental caries before it is otherwise visible in particular caries between the teeth Large areas of dental caries are often apparent to the naked eye but smaller lesions can be difficult to identify Visual and tactile inspection along with radiographs are employed frequently among dentists in particular to diagnose pit and fissure caries 88 Early uncavitated caries is often diagnosed by blowing air across the suspect surface which removes moisture and changes the optical properties of the unmineralized enamel Some dental researchers have cautioned against the use of dental explorers to find caries 89 in particular sharp ended explorers In cases where a small area of tooth has begun demineralizing but has not yet cavitated the pressure from the dental explorer could cause a cavity Since the carious process is reversible before a cavity is present it may be possible to arrest caries with fluoride and remineralize the tooth surface When a cavity is present a restoration will be needed to replace the lost tooth structure At times pit and fissure caries may be difficult to detect Bacteria can penetrate the enamel to reach dentin but then the outer surface may remineralize especially if fluoride is present 90 These caries sometimes referred to as hidden caries will still be visible on X ray radiographs but visual examination of the tooth would show the enamel intact or minimally perforated The differential diagnosis for dental caries includes dental fluorosis and developmental defects of the tooth including hypomineralization of the tooth and hypoplasia of the tooth 91 The early carious lesion is characterized by demineralization of the tooth surface altering the tooth s optical properties Technology using laser speckle image LSI techniques may provide a diagnostic aid to detect early carious lesions 87 Classification edit nbsp G V Black Classification of RestorationsCaries can be classified by location etiology rate of progression and affected hard tissues 92 These forms of classification can be used to characterize a particular case of tooth decay to more accurately represent the condition to others and also indicate the severity of tooth destruction In some instances caries is described in other ways that might indicate the cause The G V Black classification is as follows Class I occlusal surfaces of posterior teeth buccal or lingual pits on molars lingual pit near cingulum of maxillary incisors Class II proximal surfaces of posterior teeth Class III interproximal surfaces of anterior teeth without incisal edge involvement Class IV interproximal surfaces of anterior teeth with incisal edge involvement Class V cervical third of facial or lingual surface of tooth Class VI incisal or occlusal edge is worn away due to attritionEarly childhood caries edit nbsp Rampant caries caused by methamphetamine abuse Early childhood caries ECC also known as baby bottle caries baby bottle tooth decay or bottle rot is a pattern of decay found in young children with their deciduous baby teeth This must include the presence of at least one carious lesion on a primary tooth in a child under the age of 6 years 93 The teeth most likely affected are the maxillary anterior teeth but all teeth can be affected 94 The name for this type of caries comes from the fact that the decay usually is a result of allowing children to fall asleep with sweetened liquids in their bottles or feeding children sweetened liquids multiple times during the day 95 Another pattern of decay is rampant caries which signifies advanced or severe decay on multiple surfaces of many teeth 96 Rampant caries may be seen in individuals with xerostomia poor oral hygiene stimulant use due to drug induced dry mouth 97 and or large sugar intake If rampant caries is a result of previous radiation to the head and neck it may be described as radiation induced caries Problems can also be caused by the self destruction of roots and whole tooth resorption when new teeth erupt or later from unknown causes Children at 6 12 months are at increased risk of developing dental caries For other children aged 12 18 months dental caries develop on primary teeth and approximately twice yearly for permanent teeth 98 A range of studies have reported that there is a correlation between caries in primary teeth and caries in permanent teeth 99 100 Rate of progression edit This section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed November 2016 Learn how and when to remove this template message Temporal descriptions can be applied to caries to indicate the progression rate and previous history Acute signifies a quickly developing condition whereas chronic describes a condition that has taken an extended time to develop in which thousands of meals and snacks many causing some acid demineralization that is not remineralized eventually result in cavities Recurrent caries also described as secondary are caries that appear at a location with a previous history of caries This is frequently found on the margins of fillings and other dental restorations On the other hand incipient caries describes decay at a location that has not experienced previous decay Arrested caries describes a lesion on a tooth that was previously demineralized but was remineralized before causing a cavitation Fluoride treatment can help recalcification of tooth enamel as well as the use of amorphous calcium phosphate Micro invasive interventions such as dental sealant or resin infiltration have been shown to slow down the progression of proximal decay 101 Affected hard tissue edit Depending on which hard tissues are affected it is possible to describe caries as involving enamel dentin or cementum Early in its development caries may affect only enamel Once the extent of decay reaches the deeper layer of dentin the term dentinal caries is used Since cementum is the hard tissue that covers the roots of teeth it is not often affected by decay unless the roots of teeth are exposed to the mouth Although the term cementum caries may be used to describe the decay on roots of teeth very rarely does caries affect the cementum alone Prevention edit nbsp Toothbrushes are commonly used to clean teeth Oral hygiene edit The primary approach to dental hygiene care consists of tooth brushing and flossing The purpose of oral hygiene is to remove and prevent the formation of plaque or dental biofilm 102 although studies have shown this effect on caries is limited 103 While there is no evidence that flossing prevents tooth decay 104 the practice is still generally recommended 5 A toothbrush can be used to remove plaque on accessible surfaces but not between teeth or inside pits and fissures on chewing surfaces When used correctly dental floss removes plaque from areas that could otherwise develop proximal caries but only if the depth of sulcus has not been compromised Additional aids include interdental brushes water picks and mouthwashes The use of rotational electric toothbrushes might reduce the risk of plaque and gingivitis though it is unclear whether they are of clinical importance 105 However oral hygiene is effective at preventing gum disease gingivitis periodontal disease Food is forced inside pits and fissures under chewing pressure leading to carbohydrate fuelled acid demineralisation where the brush fluoride toothpaste and saliva have no access to remove trapped food neutralise acid or remineralise tooth enamel Occlusal caries accounts for between 80 and 90 of caries in children Weintraub 2001 Unlike brushing fluoride leads to proven reduction in caries incidence by approximately 25 higher concentrations of fluoride gt 1 000 ppm in toothpaste also helps prevents tooth decay with the effect increasing with concentration up to a plateau 106 A randomized clinical trial demonstrated that toothpastes that contain arginine have greater protection against tooth cavitation than the regular fluoride toothpastes containing 1450 ppm alone 107 A Cochrane review has confirmed that the use of fluoride gels normally applied by a dental professional from once to several times a year assists in the prevention of tooth decay in children and adolescents reiterating the importance of fluoride as the principal means of caries prevention 108 Another review concluded that the supervised regular use of a fluoride mouthwash greatly reduced the onset of decay in the permanent teeth of children 109 Professional hygiene care consists of regular dental examinations and professional prophylaxis cleaning Sometimes complete plaque removal is difficult and a dentist or dental hygienist may be needed Along with oral hygiene radiographs may be taken at dental visits to detect possible dental caries development in high risk areas of the mouth e g bitewing X rays which visualize the crowns of the back teeth Alternative methods of oral hygiene also exist around the world such as the use of teeth cleaning twigs such as miswaks in some Middle Eastern and African cultures There is some limited evidence demonstrating the efficacy of these alternative methods of oral hygiene 110 Dietary modification edit nbsp Annual caries incidence increases exponentially with annual per capita sugar consumption Data based on 10 553 Japanese children whose individual lower first molar teeth were monitored yearly from the age of 6 to 11 years of age Caries plotted on a logarithmic scale so line is straight People who eat more free sugars get more cavities with cavities increasing exponentially with increasing sugar intake Populations with less sugar intake have fewer cavities In one population in Nigeria where sugar consumption was about 2g day only two percent of the population of any age had had a cavity 111 Chewy and sticky foods such as candy cookies potato chips and crackers tend to adhere to teeth longer However dried fruits such as raisins and fresh fruit such as apples and bananas disappear from the mouth quickly and do not appear to be a risk factor Consumers are not good at guessing which foods stick around in the mouth 112 For children the American Dental Association and the European Academy of Paediatric Dentistry recommend limiting the frequency of consumption of drinks with sugar and not giving baby bottles to infants during sleep see earlier discussion 113 114 Parents are also recommended to avoid sharing utensils and cups with their infants to prevent transferring bacteria from the parent s mouth 115 Xylitol is a naturally occurring sugar alcohol that is used in different products as an alternative to sucrose table sugar As of 2015 the evidence concerning the use of xylitol in chewing gum was insufficient to determine if it is effective at preventing caries 116 117 118 Other measures edit nbsp Common dentistry trays used to deliver fluoride nbsp Fluoride is sold in tablets for cavity prevention The use of dental sealants is a means of prevention 119 A sealant is a thin plastic like coating applied to the chewing surfaces of the molars to prevent food from being trapped inside pits and fissures This deprives resident plaque bacteria of carbohydrate preventing the formation of pit and fissure caries Sealants are usually applied on the teeth of children as soon as the teeth erupt but adults are receiving them if not previously performed Sealants can wear out and fail to prevent access of food and plaque bacteria inside pits and fissures and need to be replaced so they must be checked regularly by dental professionals Dental sealants have been shown to be more effective at preventing occlusal decay when compared to fluoride varnish applications 120 needs update Calcium as found in food such as milk and green vegetables is often recommended to protect against dental caries Fluoride helps prevent decay of a tooth by binding to the hydroxyapatite crystals in enamel 121 Streptococcus mutans is the leading cause of tooth decay Low concentration fluoride ions act as bacteriostatic therapeutic agent and high concentration fluoride ions are bactericidal 122 The incorporated fluorine makes enamel more resistant to demineralization and thus resistant to decay 123 Fluoride can be found in either topical or systemic form 124 Topical fluoride is more highly recommended than systemic intake to protect the surface of the teeth 125 Topical fluoride is used in toothpaste mouthwash and fluoride varnish 124 Standard fluoride toothpaste 1 000 1 500 ppm is more effective than low fluoride toothpaste lt 600ppm to prevent dental caries 126 It is recommended that all adult patients to use fluoridated toothpaste with at least 1350ppm fluoride content brushing at least 2 times per day and brush right before bed For children and young adults use fluoridated toothpaste with 1350ppm to 1500ppm fluoride content brushing 2 times per day and also brush right before bed American Dental Association Council suggest that for children lt 3 years old caregivers should begin brushing their teeth by using fluoridated toothpaste with an amount no more than a smear Supervised toothbrushing must also be done to children below 8 years of age to prevent swallowing of toothpaste 127 After brushing with fluoride toothpaste rinsing should be avoided and the excess spat out 128 Many dental professionals include application of topical fluoride solutions as part of routine visits and recommend the use of xylitol and amorphous calcium phosphate products Silver diamine fluoride may work better than fluoride varnish to prevent cavities 129 Systemic fluoride is found as lozenges tablets drops and water fluoridation These are ingested orally to provide fluoride systemically 124 Water fluoridation has been shown to be beneficial to prevent tooth decay especially in low social economical areas where other forms of fluoride is not available However a Cochrane systematic review found no evidence to suggest that taking fluoride systemically daily in pregnant women was effective in preventing dental decay in their offspring 124 While some products containing chlorhexidine have been shown to limit the progression of existing tooth decay there is currently no evidence suggesting that chlorhexidine gels and varnishes can prevent dental caries or reduce the population of Streptococcus mutans in the mouth 130 An oral health assessment carried out before a child reaches the age of one may help with management of caries The oral health assessment should include checking the child s history a clinical examination checking the risk of caries in the child including the state of their occlusion and assessing how well equipped the child s parent or carer is to help the child prevent caries 131 To further increase a child s cooperation in caries management good communication by the dentist and the rest of the staff of a dental practice should be used This communication can be improved by calling the child by their name using eye contact and including them in any conversation about their treatment 131 Vaccines are also under development 132 Treatment editSee also Dental restoration and Tooth extraction No carious lesion No treatmentCarious lesion Inactive lesion No treatmentActive lesion Non cavitated lesion Non operative treatmentCavitated lesion Operative treatmentExisting filling No defect No replacementDefective filling Ditching overhang No replacementFracture or food impaction Repair or replacement of fillingInactive lesion No treatmentActive lesion Non cavitated lesion Non operative treatmentCavitated lesion Repair or replacement of filling nbsp An amalgam used as a restorative material in a tooth Most importantly whether the carious lesion is cavitated or non cavitated dictates the management Clinical assessment of whether the lesion is active or arrested is also important Noncavitated lesions can be arrested and remineralization can occur under the right conditions However this may require extensive changes to the diet reduction in frequency of refined sugars improved oral hygiene toothbrushing twice per day with fluoride toothpaste and daily flossing and regular application of topical fluoride More recently Immunoglobulin Y specific to Streptococcus mutans has been used to suppress growth of S mutans 133 Such management of a carious lesion is termed non operative since no drilling is carried out on the tooth Non operative treatment requires excellent understanding and motivation from the individual otherwise the decay will continue Once a lesion has cavitated especially if dentin is involved remineralization is much more difficult and a dental restoration is usually indicated operative treatment Before a restoration can be placed all of the decay must be removed otherwise it will continue to progress underneath the filling Sometimes a small amount of decay can be left if it is entombed and there is a seal which isolates the bacteria from their substrate This can be likened to placing a glass container over a candle which burns itself out once the oxygen is used up Techniques such as stepwise caries removal are designed to avoid exposure of the dental pulp and overall reduction of the amount of tooth substance which requires removal before the final filling is placed Often enamel which overlies decayed dentin must also be removed as it is unsupported and susceptible to fracture The modern decision making process with regards the activity of the lesion and whether it is cavitated is summarized in the table 134 Destroyed tooth structure does not fully regenerate although remineralization of very small carious lesions may occur if dental hygiene is kept at optimal level 15 For the small lesions topical fluoride is sometimes used to encourage remineralization For larger lesions the progression of dental caries can be stopped by treatment The goal of treatment is to preserve tooth structures and prevent further destruction of the tooth Aggressive treatment by filling of incipient carious lesions places where there is superficial damage to the enamel is controversial as they may heal themselves while once a filling is performed it will eventually have to be redone and the site serves as a vulnerable site for further decay 13 In general early treatment is quicker and less expensive than treatment of extensive decay Local anesthetics nitrous oxide laughing gas or other prescription medications may be required in some cases to relieve pain during or following treatment or to relieve anxiety during treatment 135 A dental handpiece drill is used to remove large portions of decayed material from a tooth A spoon a dental instrument used to carefully remove decay is sometimes employed when the decay in dentin reaches near the pulp 136 Some dentists remove dental caries using a laser rather than the traditional dental drill A Cochrane review of this technique looked at Er YAG erbium doped yttrium aluminium garnet Er Cr YSGG erbium chromium yttrium scandium gallium garnet and Nd YAG neodymium doped yttrium aluminium garnet lasers and found that although people treated with lasers compared to a conventional dental drill experienced less pain and had a lesser need for dental anaesthesia that overall there was little difference in caries removal 137 Another alternative to drilling or lasers for small caries is the use of air abrasion in which small abrasive particles are blasted at decay using pressurized air similar to sand blasting 138 139 Once the cary is removed the missing tooth structure requires a dental restoration of some sort to return the tooth to function and aesthetic condition Restorative materials include dental amalgam composite resin glass ionomer cement porcelain and gold 140 Composite resin and porcelain can be made to match the color of a patient s natural teeth and are thus used more frequently when aesthetics are a concern Composite restorations are not as strong as dental amalgam and gold some dentists consider the latter as the only advisable restoration for posterior areas where chewing forces are great 141 When the decay is too extensive there may not be enough tooth structure remaining to allow a restorative material to be placed within the tooth Thus a crown may be needed This restoration appears similar to a cap and is fitted over the remainder of the natural crown of the tooth Crowns are often made of gold porcelain or porcelain fused to metal For children preformed crowns are available to place over the tooth These are usually made of metal usually stainless steel but increasingly there are aesthetic materials Traditionally teeth are shaved down to make room for the crown but more recently stainless steel crowns have been used to seal decay into the tooth and stop it progressing This is known as the Hall Technique and works by depriving the bacteria in the decay of nutrients and making their environment less favorable for them It is a minimally invasive method of managing decay in children and does not require local anesthetic injections in the mouth nbsp A tooth with extensive caries eventually requiring extraction In certain cases endodontic therapy may be necessary for the restoration of a tooth 142 Endodontic therapy also known as a root canal is recommended if the pulp in a tooth dies from infection by decay causing bacteria or from trauma In root canal therapy the pulp of the tooth including the nerve and vascular tissues is removed along with decayed portions of the tooth The canals are instrumented with endodontic files to clean and shape them and they are then usually filled with a rubber like material called gutta percha 143 The tooth is filled and a crown can be placed Upon completion of root canal therapy the tooth is non vital as it is devoid of any living tissue An extraction can also serve as treatment for dental caries The removal of the decayed tooth is performed if the tooth is too far destroyed from the decay process to effectively restore the tooth Extractions are sometimes considered if the tooth lacks an opposing tooth or will probably cause further problems in the future as may be the case for wisdom teeth 144 Extractions may also be preferred by people unable or unwilling to undergo the expense or difficulties in restoring the tooth Epidemiology edit nbsp Disability adjusted life year for dental caries per 100 000 inhabitants in 2004 145 no data lt 50 50 60 60 70 70 80 80 90 90 100 100 115 115 130 130 138 138 140 140 142 gt 142Worldwide approximately 3 6 billion people have dental caries in their permanent teeth 7 In baby teeth it affects about 620 million people or 9 of the population 10 The disease is most common in Latin American countries countries in the Middle East and South Asia and least prevalent in China 146 In the United States dental caries is the most common chronic childhood disease being at least five times more common than asthma 147 It is the primary pathological cause of tooth loss in children 148 Between 29 and 59 of adults over the age of 50 experience caries 149 Treating dental cavities costs 5 10 of health care budgets in industrialized countries and can easily exceed budgets in lower income countries 150 The number of cases has decreased in some developed countries and this decline is usually attributed to increasingly better oral hygiene practices and preventive measures such as fluoride treatment 151 Nonetheless countries that have experienced an overall decrease in cases of tooth decay continue to have a disparity in the distribution of the disease 149 Among children in the United States and Europe twenty percent of the population endures sixty to eighty percent of cases of dental caries 152 A similarly skewed distribution of the disease is found throughout the world with some children having none or very few caries and others having a high number 149 Australia Nepal and Sweden where children receive dental care paid for by the government have a low incidence of cases of dental caries among children whereas cases are more numerous in Costa Rica and Slovakia 153 The classic DMF decay missing filled index is one of the most common methods for assessing caries prevalence as well as dental treatment needs among populations This index is based on in field clinical examination of individuals by using a probe mirror and cotton rolls Because the DMF index is done without X ray imaging it underestimates real caries prevalence and treatment needs 90 Bacteria typically associated with dental caries have been isolated from vaginal samples from females who have bacterial vaginosis 154 History edit nbsp An image from Omne Bonum 14th century depicting a dentist extracting a tooth with forceps There is a long history of dental caries Over a million years ago hominins such as Paranthropus had cavities 155 The largest increases in the prevalence of caries have been associated with dietary changes 156 157 Archaeological evidence shows that tooth decay is an ancient disease dating far into prehistory Skulls dating from a million years ago through the Neolithic period show signs of caries including those from the Paleolithic and Mesolithic ages 158 The increase of caries during the Neolithic period may be attributed to the increased consumption of plant foods containing carbohydrates 159 The beginning of rice cultivation in South Asia is also believed to have caused an increase in caries especially for women 160 although there is also some evidence from sites in Thailand such as Khok Phanom Di that shows a decrease in overall percentage of dental caries with the increase in dependence on rice agriculture 161 A Sumerian text from 5000 BC describes a tooth worm as the cause of caries 162 Evidence of this belief has also been found in India Egypt Japan and China 157 Unearthed ancient skulls show evidence of primitive dental work In Pakistan teeth dating from around 5500 BC to 7000 BC show nearly perfect holes from primitive dental drills 163 The Ebers Papyrus an Egyptian text from 1550 BC mentions diseases of teeth 162 During the Sargonid dynasty of Assyria during 668 to 626 BC writings from the king s physician specify the need to extract a tooth due to spreading inflammation 157 In the Roman Empire wider consumption of cooked foods led to a small increase in caries prevalence 152 The Greco Roman civilization in addition to the Egyptian civilization had treatments for pain resulting from caries 157 The rate of caries remained low through the Bronze Age and Iron Age but sharply increased during the Middle Ages 156 Periodic increases in caries prevalence had been small in comparison to the 1000 AD increase when sugar cane became more accessible to the Western world Treatment consisted mainly of herbal remedies and charms but sometimes also included bloodletting 164 The barber surgeons of the time provided services that included tooth extractions 157 Learning their training from apprenticeships these health providers were quite successful in ending tooth pain and likely prevented systemic spread of infections in many cases Among Roman Catholics prayers to Saint Apollonia the patroness of dentistry were meant to heal pain derived from tooth infection 165 There is also evidence of caries increase when Indigenous people in North America changed from a strictly hunter gatherer diet to a diet with maize Rates also increased after contact with colonizing Europeans implying an even greater dependence on maize 156 During the European Age of Enlightenment the belief that a tooth worm caused caries was also no longer accepted in the European medical community 166 Pierre Fauchard known as the father of modern dentistry was one of the first to reject the idea that worms caused tooth decay and noted that sugar was detrimental to the teeth and gingiva 167 In 1850 another sharp increase in the prevalence of caries occurred and is believed to be a result of widespread diet changes 157 Prior to this time cervical caries was the most frequent type of caries but increased availability of sugar cane refined flour bread and sweetened tea corresponded with a greater number of pit and fissure caries In the 1890s W D Miller conducted a series of studies that led him to propose an explanation for dental caries that was influential for current theories He found that bacteria inhabited the mouth and that they produced acids that dissolved tooth structures when in the presence of fermentable carbohydrates 168 This explanation is known as the chemoparasitic caries theory 169 Miller s contribution along with the research on plaque by G V Black and J L Williams served as the foundation for the current explanation of the etiology of caries 157 Several of the specific strains of lactobacilli were identified in 1921 by Fernando E Rodriguez Vargas In 1924 in London Killian Clarke described a spherical bacterium in chains isolated from carious lesions which he called Streptococcus mutans Although Clarke proposed that this organism was the cause of caries the discovery was not followed up Later in 1954 in the US Frank Orland working with hamsters showed that caries was transmissible and caused by acid producing Streptococcus thus ending the debate whether dental caries were resultant from bacteria It was not until the late 1960s that it became generally accepted that the Streptococcus isolated from hamster caries was the same as S mutans 170 Tooth decay has been present throughout human history from early hominids millions of years ago to modern humans 171 The prevalence of caries increased dramatically in the 19th century as the Industrial Revolution made certain items such as refined sugar and flour readily available 157 The diet of the newly industrialized English working class 157 then became centered on bread jam and sweetened tea greatly increasing both sugar consumption and caries Etymology and usage edit Naturalized from Latin into English a loanword caries in its English form originated as a mass noun that means rottenness 3 172 that is decay The word is an uncountable noun Cariesology 173 174 or cariology 175 is the study of dental caries Society and culture editIt is estimated that untreated dental caries results in worldwide productivity losses in the size of about US 27 billion yearly 176 Other animals editMain article Dental caries non human Dental caries are uncommon among companion animals 177 See also editCariogramReferences edit a b c d e Laudenbach JM Simon Z November 2014 Common Dental and Periodontal Diseases Evaluation and Management The Medical Clinics of North America 98 6 1239 1260 doi 10 1016 j mcna 2014 08 002 PMID 25443675 a b c d e f g Oral health Fact sheet N 318 World Health Organization April 2012 Archived from the original on 8 December 2014 Retrieved 10 December 2014 a b c d Taber s cyclopedic medical dictionary Ed 22 illustrated in full color ed Philadelphia F A Davis Co 2013 p 401 ISBN 9780803639096 Archived from the original on 2015 07 13 a b c d e f g h i j k SECTION ON ORAL HEALTH SECTION ON ORAL HEALTH December 2014 Maintaining and improving the oral health of young children Pediatrics 134 6 1224 9 doi 10 1542 peds 2014 2984 PMID 25422016 S2CID 32580232 a b de Oliveira KMH Nemezio MA Romualdo PC da Silva RAB de Paula E Silva FWG Kuchler EC 2017 Dental Flossing and Proximal Caries in the Primary Dentition A Systematic Review Oral Health amp Preventive Dentistry 15 5 427 434 doi 10 3290 j ohpd a38780 PMID 28785751 a b c d e f g h Silk H March 2014 Diseases of the mouth Primary Care Clinics in Office Practice 41 1 75 90 doi 10 1016 j pop 2013 10 011 PMID 24439882 S2CID 9127595 a b c Oral health World Health Organization Retrieved 2019 09 14 Schwendicke F Dorfer CE Schlattmann P Page LF Thomson WM Paris S January 2015 Socioeconomic Inequality and Caries A Systematic Review and Meta Analysis Journal of Dental Research 94 1 10 18 doi 10 1177 0022034514557546 PMID 25394849 S2CID 24227334 Otsu K Kumakami Sakano M Fujiwara N Kikuchi K Keller L Lesot H Harada H 2014 Stem cell sources for tooth regeneration current status and future prospects Frontiers in Physiology 5 36 doi 10 3389 fphys 2014 00036 PMC 3912331 PMID 24550845 a b Vos T Dec 15 2012 Years lived with disability YLDs for 1160 sequelae of 289 diseases and injuries 1990 2010 a systematic analysis for the Global Burden of Disease Study 2010 The Lancet 380 9859 2163 96 doi 10 1016 S0140 6736 12 61729 2 PMC 6350784 PMID 23245607 Bagramian RA Garcia Godoy F Volpe AR February 2009 The global increase in dental caries A pending public health crisis American Journal of Dentistry 22 1 3 8 PMID 19281105 Health Promotion Board Dental Caries Archived 2010 09 01 at the Wayback Machine affiliated with the Singapore government Page accessed August 14 2006 a b Richie S King November 28 2011 A Closer Look at Teeth May Mean More Fillings The New York Times Archived from the original on November 29 2011 Retrieved November 30 2011 An incipient carious lesion is the initial stage of structural damage to the enamel usually caused by a bacterial infection that produces tooth dissolving acid Johnson Clarke Biology of the Human Dentition Archived 2015 10 30 at the Wayback Machine Page accessed July 18 2007 a b MedlinePlus Encyclopedia Dental Cavities Tooth Decay hosted on the New York University Medical Center website Page accessed August 14 2006 Cavernous Sinus Thrombosis Archived 2008 05 27 at the Wayback Machine hosted on WebMD Page accessed May 25 2008 MedlinePlus Encyclopedia Ludwig s Anigna Hartmann Richard W Ludwig s Angina in Children Archived 2008 07 09 at the Wayback Machine hosted on the American Academy of Family Physicians website Page accessed May 25 2008 Southam JC Soames JV 1993 2 Dental Caries Oral pathology 2nd ed Oxford Oxford Univ Press ISBN 978 0 19 262214 3 Wong Allen Young Douglas A Emmanouil Dimitris E Wong Lynne M Waters Ashley R Booth Mark T 2013 06 01 Raisins and oral health Journal of Food Science 78 Suppl 1 A26 29 doi 10 1111 1750 3841 12152 ISSN 1750 3841 PMID 23789933 Smith B Pickard HM Kidd EA 1990 1 Why restore teeth Pickard s manual of operative dentistry 6th ed Oxford University Press ISBN 978 0 19 261808 5 a b Hardie JM May 1982 The microbiology of dental caries Dental Update 9 4 199 200 202 4 206 8 PMID 6959931 a b Holloway PJ Moore W J September 1983 The role of sugar in the etiology of dental caries Journal of Dentistry 11 3 189 213 doi 10 1016 0300 5712 83 90182 3 PMID 6358295 Watt RG Listl S Peres MA Heilmann A editors Social inequalities in oral health from evidence to action Archived 2015 06 19 at the Wayback Machine London International Centre for Oral Health Inequalities Research amp Policy www icohirp com Marsh Philip D Head David A Devine Deirdre A 2015 Dental plaque as a biofilm and a microbial community Implications for treatment Journal of Oral Biosciences 57 4 185 191 doi 10 1016 j job 2015 08 002 S2CID 86407760 Archived from the original on 29 August 2021 Alt URL Marsh P 1994 Microbial ecology of dental plaque and its significance in health and disease Advances in Dental Research 8 2 263 71 doi 10 1177 08959374940080022001 PMID 7865085 S2CID 32327358 Cavities tooth decay Archived 2008 03 15 at the Wayback Machine hosted on the Mayo Clinic website Page accessed May 25 2008 Douglass JM Li Y Tinanoff N Sep Oct 2008 Association of mutans streptococci between caregivers and their children Pediatric Dentistry 30 5 375 87 PMID 18942596 Silverstone LM May 1983 Remineralization and enamel caries new concepts Dental Update 10 4 261 73 PMID 6578983 Madigan M T amp Martinko J M Brock Biology of Microorganisms 11th Ed 2006 Pearson USA pp 705 Dental Caries Archived 2006 06 30 at the Wayback Machine hosted on the University of California Los Angeles School of Dentistry website Page accessed August 14 2006 Summit James B J William Robbins and Richard S Schwartz Fundamentals of Operative Dentistry A Contemporary Approach 2nd edition Carol Stream Illinois Quintessence Publishing Co Inc 2001 p 75 ISBN 0 86715 382 2 a b Mast P Rodrigueztapia MT Daeniker L Krejci I Sep 2013 Understanding MIH definition epidemiology differential diagnosis and new treatment guidelines PDF European Journal of Paediatric Dentistry Review 14 3 204 8 PMID 24295005 Archived PDF from the original on 2016 10 05 Silva Mihiri J Scurrah Katrina J Craig Jeffrey M Manton David J Kilpatrick Nicky August 2016 Etiology of molar incisor hypomineralization A systematic review Community Dentistry and Oral Epidemiology 44 4 342 353 doi 10 1111 cdoe 12229 hdl 11343 291225 ISSN 1600 0528 PMID 27121068 William V Messer LB Burrow MF 2006 Molar incisor hypomineralization review and recommendations for clinical management PDF Pediatric Dentistry Review 28 3 224 32 PMID 16805354 Archived PDF from the original on 2016 03 06 Dental Enamel Defects and Celiac Disease PDF National Institute of Health NIH Archived PDF from the original on 2016 03 05 Retrieved Mar 7 2016 Tooth defects that result from celiac disease may resemble those caused by too much fluoride or a maternal or early childhood illness Dentists mostly say it s from fluoride that the mother took tetracycline or that there was an illness early on Ferraz EG Campos Ede J Sarmento VA Silva LR 2012 The oral manifestations of celiac disease information for the pediatric dentist Pediatric Dentistry Review 34 7 485 8 PMID 23265166 The presence of these clinical features in children may signal the need for early investigation of possible celiac disease especially in asymptomatic cases Pediatric dentists must recognize typical oral lesions especially those associated with nutritional deficiencies and should suspect the presence of celiac disease which can change the disease s course and patient s prognosis Rashid M Zarkadas M Anca A Limeback H 2011 Oral manifestations of celiac disease a clinical guide for dentists Journal of the Canadian Dental Association Review 77 b39 PMID 21507289 Archived from the original on 2016 03 08 Giuca MR Cei G Gigli F Gandini P 2010 Oral signs in the diagnosis of celiac disease review of the literature Minerva Stomatologica Review 59 1 2 33 43 PMID 20212408 Neville B W Damm Douglas Allen Carl and Bouquot Jerry 2002 Oral amp Maxillofacial Pathology 2nd edition p 89 ISBN 0 7216 9003 3 Neville B W Damm Douglas Allen Carl and Bouquot Jerry 2002 Oral amp Maxillofacial Pathology 2nd edition p 94 ISBN 0 7216 9003 3 Nanci p 122 Dawes C December 2003 What is the critical pH and why does a tooth dissolve in acid Journal of the Canadian Dental Association 69 11 722 4 PMID 14653937 Archived from the original on 2009 07 14 Mellberg JR 1986 Demineralization and remineralization of root surface caries Gerodontology 5 1 25 31 doi 10 1111 j 1741 2358 1986 tb00380 x PMID 3549537 Borzabadi Farahani A Eslamipour F Asgari I 2011 Association between orthodontic treatment need and caries experience Acta Odontologica Scandinavica 69 1 2 11 doi 10 3109 00016357 2010 516732 PMID 20923258 S2CID 25095059 Hafez HS Shaarawy SM Al Sakiti AA Mostafa YA 2012 Dental crowding as a caries risk factor A systematic review American Journal of Orthodontics and Dentofacial Orthopedics 142 4 443 50 doi 10 1016 j ajodo 2012 04 018 PMID 22999666 a b Neville B W Douglas Damm Carl Allen Jerry Bouquot Oral amp Maxillofacial Pathology 2nd edition 2002 p 398 ISBN 0 7216 9003 3 Oral Complications of Chemotherapy and Head Neck Radiation Archived 2008 12 06 at the Wayback Machine hosted on the National Cancer Institute Archived 2015 03 12 at the Wayback Machine website Page accessed January 8 2007 See Common effects of cancer therapies on salivary glands at ADA EBD Systematic Reviews Archived from the original on 2013 12 02 Retrieved 2013 07 30 Ralph R Steinman amp John Leonora 1971 Relationship of fluid transport through dentation to the incidence of dental caries Journal of Dental Research 50 6 1536 to 43 Neville B W Douglas Damm Carl Allen Jerry Bouquot Oral amp Maxillofacial Pathology 2nd edition 2002 p 347 ISBN 0 7216 9003 3 Tobacco Use Increases the Risk of Gum Disease Archived 2007 01 09 at the Wayback Machine hosted on the American Academy of Periodontology Archived 2005 12 14 at the Wayback Machine Page accessed January 9 2007 Banting D W The Diagnosis of Root Caries Archived 2006 09 30 at the Wayback Machine Presentation to the National Institute of Health Consensus Development Conference on Diagnosis and Management of Dental Caries Throughout Life in pdf format hosted on the National Institute of Dental and Craniofacial Research p 19 Page accessed August 15 2006 Executive Summary Archived 2007 02 16 at the Wayback Machine of U S Surgeon General s report titled The Health Consequences of Smoking A Report of the Surgeon General hosted on the CDC Archived 2012 03 20 at the Wayback Machine website p 12 Page accessed January 9 2007 Zhou S Rosenthal DG Sherman S Zelikoff J Gordon T Weitzman M September 2014 Physical behavioral and cognitive effects of prenatal tobacco and postnatal secondhand smoke exposure Current Problems in Pediatric and Adolescent Health Care 44 8 219 41 doi 10 1016 j cppeds 2014 03 007 PMC 6876620 PMID 25106748 Brudevold F Steadman LT 1956 The distribution of lead in human enamel Journal of Dental Research 35 3 430 437 doi 10 1177 00220345560350031401 PMID 13332147 S2CID 5453470 Brudevold F Aasenden R Srinivasian BN Bakhos Y 1977 Lead in enamel and saliva dental caries and the use of enamel biopsies for measuring past exposure to lead Journal of Dental Research 56 10 1165 1171 doi 10 1177 00220345770560100701 PMID 272374 S2CID 37185511 Goyer RA 1990 Transplacental transport of lead Environmental Health Perspectives 89 101 105 doi 10 2307 3430905 JSTOR 3430905 PMC 1567784 PMID 2088735 Moss ME Lanphear BP Auinger P 1999 Association of dental caries and blood lead levels JAMA 281 24 2294 8 doi 10 1001 jama 281 24 2294 PMID 10386553 Campbell JR Moss ME Raubertas RF 2000 The association between caries and childhood lead exposure Environmental Health Perspectives 108 11 1099 1102 doi 10 2307 3434965 JSTOR 3434965 PMC 1240169 PMID 11102303 Gemmel A Tavares M Alperin S Soncini J Daniel D Dunn J Crawford S Braveman N Clarkson TW McKinlay S Bellinger DC 2002 Blood Lead Level and Dental Caries in School Age Children Environmental Health Perspectives 110 10 A625 A630 doi 10 1289 ehp 021100625 PMC 1241049 PMID 12361944 Billings RJ Berkowitz RJ Watson G 2004 Teeth Pediatrics 113 4 1120 1127 doi 10 1542 peds 113 S3 1120 PMID 15060208 Leroy N Bres E 2001 Structure and substitutions in fluorapatite European Cells and Materials 2 36 48 doi 10 22203 eCM v002a05 PMID 14562256 Arora M Weuve J Schwartz J Wright RO 2008 Association of environmental cadmium exposure with pediatric dental caries Environmental Health Perspectives 116 6 821 825 doi 10 1289 ehp 10947 PMC 2430240 PMID 18560540 Dye B 2010 Trends in Oral Health by Poverty Status as Measured by Healthy People 2010 Objectives Public Health Reports 125 6 817 30 doi 10 1177 003335491012500609 PMC 2966663 PMID 21121227 Selwitz R H Ismail A I Pitts N B 2007 Dental caries The Lancet 369 9555 51 59 doi 10 1016 s0140 6736 07 60031 2 PMID 17208642 S2CID 204616785 ADA Caries Risk Assessment Form Completion Instructions American Dental Association Tellez M Gomez J Pretty I Ellwood R Ismail A 2013 Evidence on existing caries risk assessment systems are they predictive of future caries Community Dentistry and Oral Epidemiology 41 1 67 78 doi 10 1111 cdoe 12003 PMID 22978796 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Herbst RS 2004 Review of epidermal growth factor receptor biology International Journal of Radiation Oncology Biology Physics 59 2 Suppl 21 6 doi 10 1016 j ijrobp 2003 11 041 PMID 15142631 Venturi S Venturi M 2009 Iodine in evolution of salivary glands and in oral health Nutrition and Health 20 2 119 134 doi 10 1177 026010600902000204 PMID 19835108 S2CID 25710052 Dental caries the disease and its clinical management Fejerskov Ole Kidd Edwina A M 2nd ed Oxford Blackwell Munksgaard 2008 pp 166 169 ISBN 978 1 4051 3889 5 OCLC 136316302 a href Template Cite book html title Template Cite book cite book a CS1 maint others link Banerjee Avijit 2011 Pickard s manual of operative dentistry Watson Timothy F Ninth ed Oxford p 2 ISBN 978 0 19 100304 2 OCLC 867050322 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Fejerskov O Nyvad B Kidd EA 2008 Pathology of dental caries pp 20 48 in Fejerskov O Kidd EAM eds Dental caries The disease and its clinical management Oxford Blackwell Munksgaard Vol 2 ISBN 1444309285 a b Kidd EA Fejerskov O 2004 What constitutes dental caries Histopathology of carious enamel and dentin related to the action of cariogenic biofilms Journal of Dental Research 83 Spec No C C35 8 doi 10 1177 154405910408301S07 PMID 15286119 S2CID 12240610 Darling AI 1963 Resistance of the enamel to dental caries Journal of Dental Research 42 1 Pt2 488 96 doi 10 1177 00220345630420015601 PMID 14041429 S2CID 71450112 Robinson C Shore RC Brookes SJ Strafford S Wood SR Kirkham J 2000 The chemistry of enamel caries Critical Reviews in Oral Biology amp Medicine 11 4 481 95 doi 10 1177 10454411000110040601 PMID 11132767 Nanci p 121 Teeth amp Jaws Caries Pulp amp Periapical Conditions Archived 2007 05 06 at the Wayback Machine hosted on the University of Southern California School of Dentistry Archived 2005 12 07 at the Wayback Machine website Page accessed June 22 2007 Ross Michael H Kaye Gordon I and Pawlina Wojciech 2003 Histology a text and atlas 4th edition p 450 ISBN 0 683 30242 6 a b Nanci p 166 Summit James B J William Robbins and Richard S Schwartz Fundamentals of Operative Dentistry A Contemporary Approach 2nd edition Carol Stream Illinois Quintessence Publishing Co Inc 2001 p 13 ISBN 0 86715 382 2 Dababneh RH Khouri AT Addy M December 1999 Dentine hypersensitivity an enigma A review of terminology mechanisms aetiology and management British Dental Journal 187 11 606 11 discussion 603 doi 10 1038 sj bdj 4800345a PMID 16163281 a b Smith AJ Murray PE Sloan AJ Matthews JB Zhao S August 2001 Trans dentinal stimulation of tertiary dentinogenesis Advances in Dental Research 15 51 4 doi 10 1177 08959374010150011301 PMID 12640740 S2CID 7319363 Summit James B J William Robbins and Richard S Schwartz Fundamentals of Operative Dentistry A Contemporary Approach 2nd edition Carol Stream Illinois Quintessence Publishing Co Inc 2001 p 14 ISBN 0 86715 382 2 Illustrated Embryology Histology and Anatomy Bath Balogh and Fehrenbach Elsevier 2011 page needed a b Deana A M Jesus S H C Koshoji N H Bussadori S K Oliveira M T 2013 Detection of early carious lesions using contrast enhancement with coherent light scattering speckle imaging Laser Physics 23 7 075607 Bibcode 2013LaPhy 23g5607D doi 10 1088 1054 660x 23 7 075607 S2CID 121571950 Rosenstiel Stephen F Clinical Diagnosis of Dental Caries A North American Perspective Archived 2006 08 09 at the Wayback Machine Maintained by the University of Michigan Dentistry Library along with the National Institutes of Health National Institute of Dental and Craniofacial Research 2000 Page accessed August 13 2006 Summit James B J William Robbins and Richard S Schwartz Fundamentals of Operative Dentistry A Contemporary Approach 2nd edition Carol Stream Illinois Quintessence Publishing Co Inc 2001 p 31 ISBN 0 86715 382 2 a b Zadik Yehuda Bechor Ron June July 2008 Hidden Occlusal Caries Challenge for the Dentist PDF The New York State Dental Journal 74 4 46 50 PMID 18788181 Archived from the original PDF on 2011 07 22 Retrieved 2008 08 08 Fejerskov Ole Nyvad Bente Kidd Edwina eds May 2015 Dental Caries The Disease and its Clinical Management 3 ed Nashville TN John Wiley amp Sons p 67 ISBN 978 1 118 93582 8 Sonis Stephen T 2003 Dental Secrets 3rd ed Philadelphia Hanley amp Belfus p 130 ISBN 978 1 56053 573 7 Sukumaran Anil Early Childhood Caries Prevalence Risk Factors and Prevention ADA Early Childhood Tooth Decay Baby Bottle Tooth Decay Archived 2006 08 13 at the Wayback Machine Hosted on the American Dental Association website Page accessed August 14 2006 Statement on Early Childhood Caries American Dental Association at Statement on Early Childhood Caries Archived from the original on 2013 05 12 Retrieved 2013 07 30 Radiographic Classification of Caries Archived 2006 08 23 at the Wayback Machine Hosted on the Ohio State University website Page accessed August 14 2006 ADA Methamphetamine Use METH MOUTH Archived 2008 06 01 at the Wayback Machine Hosted on the American Dental Association website Page accessed February 14 2007 Prevention and Management of Dental Caries in Children Dundee Dental Education Centre Frankland Building Small s Wynd Dundee DD1 4HN Scotland Scottish Dental Clinical Effectiveness Programme April 2010 p 11 ISBN 9781905829088 a href Template Cite book html title Template Cite book cite book a CS1 maint location link Helfenstein U Steiner M Marthaler T M 1991 Caries prediction on the basis of past caries including precavity lesions Caries Research 25 5 372 6 doi 10 1159 000261394 PMID 1747888 Seppa Liisa Hausen Hannu Pollanen Lea Helasharju Kirsti Karkkainen Sakari 1989 Past caries recordings made in Public Dental Clinics as predictors of caries prevalence in early adolescence Community Dentistry and Oral Epidemiology 17 6 277 281 doi 10 1111 j 1600 0528 1989 tb00635 x PMID 2686924 Dorri Mojtaba Dunne Stephen M Walsh Tanya Schwendicke Falk 2015 11 05 Micro invasive interventions for managing proximal dental decay in primary and permanent teeth Cochrane Database of Systematic Reviews 2015 11 CD010431 doi 10 1002 14651858 cd010431 pub2 ISSN 1465 1858 PMC 8504982 PMID 26545080 Introduction to Dental Plaque Archived 2006 06 23 at the Wayback Machine Hosted on the Leeds Dental Institute Website Page accessed August 14 2006 Hujoel Philippe Pierre Hujoel Margaux Louise A Kotsakis Georgios A 2018 Personal oral hygiene and dental caries A systematic review of randomised controlled trials Gerodontology 35 4 282 289 doi 10 1111 ger 12331 ISSN 1741 2358 PMID 29766564 S2CID 21697327 Sambunjak Dario Nickerson Jason W Poklepovic Tina Johnson Trevor M Imai Pauline Tugwell Peter Worthington Helen V 2011 12 07 Flossing for the management of periodontal diseases and dental caries in adults Cochrane Database of Systematic Reviews 12 CD008829 doi 10 1002 14651858 cd008829 pub2 ISSN 1465 1858 PMID 22161438 S2CID 70702223 Deacon Scott A Glenny Anne Marie Deery Chris Robinson Peter G Heanue Mike Walmsley A Damien Shaw William C 2010 Different powered toothbrushes for plaque control and gingival health Cochrane Database of Systematic Reviews 2020 12 CD004971 doi 10 1002 14651858 cd004971 pub2 PMC 8406707 PMID 21154357 Walsh Tanya Worthington Helen V Glenny Anne Marie Marinho Valeria Cc Jeroncic Ana 4 March 2019 Fluoride toothpastes of different concentrations for preventing dental caries The Cochrane Database of Systematic Reviews 3 3 CD007868 doi 10 1002 14651858 CD007868 pub3 ISSN 1469 493X PMC 6398117 PMID 30829399 Kraivaphan Petcharat Amornchat Cholticha Triratana T Mateo L R Ellwood R Cummins Diane Devizio William Zhang Y P 2013 08 28 Two Year Caries Clinical Study of the Efficacy of Novel Dentifrices Containing 1 5 Arginine an Insoluble Calcium Compound and 1 450 ppm Fluoride Caries Research 47 6 582 590 doi 10 1159 000353183 PMID 23988908 S2CID 17683424 Marinho Valeria C C Worthington Helen V Walsh Tanya Chong Lee Yee 2015 06 15 Fluoride gels for preventing dental caries in children and adolescents Cochrane Database of Systematic Reviews 2021 6 CD002280 doi 10 1002 14651858 CD002280 pub2 ISSN 1469 493X PMC 7138249 PMID 26075879 Marinho Valeria C C Chong Lee Yee Worthington Helen V Walsh Tanya 2016 07 29 Fluoride mouthrinses for preventing dental caries in children and adolescents Cochrane Database of Systematic Reviews 7 2 CD002284 doi 10 1002 14651858 CD002284 pub2 ISSN 1469 493X PMC 6457869 PMID 27472005 al Khateeb TL O Mullane DM Whelton H Sulaiman MI 2003 Periodontal treatment needs among Saudi Arabian adults and their relationship to the use of the Miswak Community Dental Health 8 4 323 328 ISSN 0265 539X PMID 1790476 Sheiham A James WP October 2014 A new understanding of the relationship between sugars dental caries and fluoride use implications for limits on sugars consumption Public Health Nutrition 17 10 2176 84 doi 10 1017 S136898001400113X PMC 10282617 PMID 24892213 Kashket S Van Houte J Lopez L R Stocks S 1991 10 01 Lack of correlation between food retention on the human dentition and consumer perception of food stickiness Journal of Dental Research 70 10 1314 1319 doi 10 1177 00220345910700100101 ISSN 0022 0345 PMID 1939824 S2CID 24467161 Nutrition and tooth decay in infancy European Academy of Paediatric Dentistry Kyriaki Tsinidou Retrieved 2019 04 06 Oral Health Topics Baby Bottle Tooth Decay Archived 2006 08 13 at the Wayback Machine hosted on the American Dental Association website Page accessed August 14 2006 Guideline on Infant Oral Health Care Archived 2006 12 06 at the Wayback Machine hosted on the American Academy of Pediatric Dentistry Archived 2007 01 12 at the Wayback Machine website Page accessed January 13 2007 Twetman S 2015 The evidence base for professional and self care prevention caries erosion and sensitivity BMC Oral Health 15 Suppl 1 S4 doi 10 1186 1472 6831 15 S1 S4 PMC 4580782 PMID 26392204 Twetman S Dhar V 2015 Evidence of Effectiveness of Current Therapies to Prevent and Treat Early Childhood Caries Pediatric Dentistry 37 3 246 53 PMID 26063553 Archived from the original on 2017 03 28 Riley P Moore D Ahmed F Sharif MO Worthington HV March 2015 Xylitol containing products for preventing dental caries in children and adults Cochrane Database of Systematic Reviews 2015 3 CD010743 doi 10 1002 14651858 CD010743 pub2 PMC 9345289 PMID 25809586 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Mejare I Lingstrom P Petersson LG Holm AK Twetman S Kallestal C Nordenram G Lagerlof F Soder B Norlund A Axelsson S Dahlgren H 2003 Caries preventive effect of fissure sealants a systematic review Acta Odontologica Scandinavica 61 6 321 330 doi 10 1080 00016350310007581 PMID 14960003 S2CID 57252105 Ahovuo Saloranta Anneli Forss Helena Hiiri Anne Nordblad Anne Makela Marjukka 2016 01 18 Pit and fissure sealants versus fluoride varnishes for preventing dental decay in the permanent teeth of children and adolescents The Cochrane Database of Systematic Reviews 2016 1 CD003067 doi 10 1002 14651858 CD003067 pub4 ISSN 1469 493X PMC 7177291 PMID 26780162 Nanci p 7 A Deepti Jeevarathan J Muthu MS Prabhu V Rathna Chamundeswari 2008 01 01 Effect of Fluoride Varnish on Streptococcus mutans Count in Saliva of Caries Free Children Using Dentocult SM Strip Mutans Test A Randomized Controlled Triple Blind Study International Journal of Clinical Pediatric Dentistry 1 1 1 9 doi 10 5005 jp journals 10005 1001 ISSN 0974 7052 PMC 4086538 PMID 25206081 Ross Michael H Kaye Gordon I and Pawlina Wojciech 2003 Histology A Text and Atlas 4th edition p 453 ISBN 0 683 30242 6 a b c d Takahashi Rena Ota Erika Hoshi Keika Naito Toru Toyoshima Yoshihiro Yuasa Hidemichi Mori Rintaro 2015 Mori Rintaro ed Fluoride supplementation in pregnant women for preventing dental caries in the primary teeth of their children Cochrane Database of Systematic Reviews 8 CD011850 doi 10 1002 14651858 cd011850 Limited evidence suggests fluoride varnish applied twice yearly is effective for caries prevention in children at ADA EBD Systematic Reviews Archived from the original on 2013 12 03 Retrieved 2013 07 30 Santos A P P Oliveira B H Nadanovsky P 2013 01 01 Effects of low and standard fluoride toothpastes on caries and fluorosis systematic review and meta analysis Caries Research 47 5 382 390 doi 10 1159 000348492 ISSN 1421 976X PMID 23572031 S2CID 207625475 American Dental Association Council on Scientific Affairs February 2014 Fluoride toothpaste use for young children The Journal of the American Dental Association 145 2 190 191 doi 10 14219 jada 2013 47 ISSN 0002 8177 PMID 24487611 Delivering Better Oral Health An evidence based toolkit for prevention second edition PDF Department of Health British Association for the Study of Community Dentistry April 2009 Archived from the original PDF on 2010 08 10 Prevention and management of dental caries in children Dental clinical guidance PDF sdcep co uk April 2010 pp 6 7 Archived PDF from the original on 5 October 2016 Retrieved 7 March 2016 Walsh Tanya Oliveira Neto Jeronimo M Moore Deborah 2015 04 13 Chlorhexidine treatment for the prevention of dental caries in children and adolescents Cochrane Database of Systematic Reviews 2015 4 CD008457 doi 10 1002 14651858 cd008457 pub2 ISSN 1465 1858 PMC 10726983 PMID 25867816 a b Prevention and management of dental caries in children Dental clinical guidance PDF sdcep co uk April 2010 pp 6 7 Archived PDF from the original on 5 October 2016 Retrieved 7 March 2016 Russell MW Childers NK Michalek SM Smith DJ Taubman MA May Jun 2004 A Caries Vaccine The state of the science of immunization against dental caries Caries Research 38 3 230 5 doi 10 1159 000077759 PMID 15153693 S2CID 5238758 Chiba Itsuo Isogai Hiroshi Kobayashi Sakamoto Michiyo Mizugai Hiroyuki Hirose Kimiharu Isogai Emiko Nakano Taku Icatlo Faustino C Nguyen Sa V 2011 08 01 Anti cell associated glucosyltransferase immunoglobulin Y suppression of salivary mutans streptococci in healthy young adults The Journal of the American Dental Association 142 8 943 949 doi 10 14219 jada archive 2011 0301 ISSN 0002 8177 PMID 21804061 Ole Fejerskov Edwina Kidd 2004 Dental caries the disease and its clinical management Copenhagen u a Blackwell Munksgaard ISBN 9781405107181 Oral Health Topics Anesthesia Frequently Asked Questions Archived 2006 07 16 at the Wayback Machine hosted on the American Dental Association website Page accessed August 16 2006 Summit James B J William Robbins and Richard S Schwartz Fundamentals of Operative Dentistry A Contemporary Approach 2nd edition Carol Stream Illinois Quintessence Publishing Co Inc 2001 p 128 ISBN 0 86715 382 2 Montedori Alessandro Abraha Iosief Orso Massimiliano d Errico Potito Giuseppe Pagano Stefano Lombardo Guido 2016 Lasers for caries removal in deciduous and permanent teeth Cochrane Database of Systematic Reviews 2016 9 CD010229 doi 10 1002 14651858 cd010229 pub2 PMC 6457657 PMID 27666123 Huang CT Kim J Arce C Lawson NC 2019 Intraoral Air Abrasion A Review of Devices Materials Evidence and Clinical Applications in Restorative Dentistry Compendium of Continuing Education in Dentistry 40 8 508 514 ISSN 1548 8578 PMID 31478697 Mandinic Zoran Vulicevic Zoran Beloica Milos Radovic Ivana Mandic Jelena Carevic Momir Tekic Jasmina 2014 The application of air abrasion in dentistry Srpski Arhiv Za Celokupno Lekarstvo National Library of Serbia 142 1 2 99 105 doi 10 2298 sarh1402099m ISSN 0370 8179 PMID 24684041 Aspects of Treatment of Cavities and of Caries Disease Archived 2008 12 07 at the Wayback Machine from the Disease Control Priorities Project Page accessed August 15 2006 Oral Health Topics Dental Filling Options Archived 2009 08 30 at the Wayback Machine hosted on the American Dental Association website Page accessed August 16 2006 What is a Root Canal Archived 2006 08 06 at the Wayback Machine hosted by the Academy of General Dentistry Page accessed August 16 2006 FAQs About Root Canal Treatment Archived 2006 08 13 at the Wayback Machine hosted by the American Association of Endodontists website Page accessed August 16 2006 Wisdom Teeth Archived 2006 08 23 at the Wayback Machine a packet in pdf format hosted by the American Association of Oral and Maxillofacial Surgeons Page accessed August 16 2006 WHO Disease and injury country estimates World Health Organization 2009 Archived from the original on 2009 11 11 Retrieved Nov 11 2009 The World Oral Health Report 2003 Continuous improvement of oral health in the 21st century the approach of the WHO Global Oral Health Programme Archived 2006 09 27 at the Wayback Machine released by the World Health Organization File in pdf format Page accessed August 15 2006 Healthy People 2010 Archived 2006 08 13 at the Wayback Machine Html version hosted on Healthy People gov Archived 2017 03 10 at the Wayback Machine website Page accessed August 13 2006 Frequently Asked Questions Archived 2006 08 16 at the Wayback Machine hosted on the American Dental Hygiene Association website Page accessed August 15 2006 a b c Dental caries Archived 2008 12 07 at the Wayback Machine from the Disease Control Priorities Project Page accessed August 15 2006 http apps who int iris bitstream handle 10665 149782 9789241549028 eng pdf bare URL PDF World Health Organization Archived 2006 03 26 at the Wayback Machine website World Water Day 2001 Oral health p 2 Page accessed August 14 2006 a b Touger Decker R van Loveren C October 2003 Sugars and dental caries The American Journal of Clinical Nutrition 78 4 881S 892S doi 10 1093 ajcn 78 4 881S PMID 14522753 Table 38 1 Mean DMFT and SiC Index of 12 Year Olds for Some Countries by Ascending Order of DMFT Archived 2008 12 07 at the Wayback Machine from the Disease Control Priorities Project Page accessed January 8 2007 Africa Charlene Nel Janske Stemmet Megan 2014 Anaerobes and Bacterial Vaginosis in Pregnancy Virulence Factors Contributing to Vaginal Colonisation International Journal of Environmental Research and Public Health 11 7 6979 7000 doi 10 3390 ijerph110706979 ISSN 1660 4601 PMC 4113856 PMID 25014248 Towle Ian Irish Joel D Groote Isabelle De 2017 Dental pathology wear and developmental defects in fossil hominins and extant primates ResearchGate Unpublished doi 10 13140 RG 2 2 21395 99369 Retrieved 2019 01 09 a b c Epidemiology of Dental Disease Archived 2006 11 29 at the Wayback Machine hosted on the University of Illinois at Chicago website Page accessed January 9 2007 a b c d e f g h i Suddick RP Harris NO 1990 Historical perspectives of oral biology a series Critical Reviews in Oral Biology amp Medicine 1 2 135 51 doi 10 1177 10454411900010020301 PMID 2129621 Caries Through Time An Anthropological Overview Luis Pezo Lanfranco and Sabine Eggers Laboratorio de Antropologia Biologica Depto de Genetica e Biologia Evolutiva Instituto de Biociencias Universidade de Sao Paulo Brazil Richards MP December 2002 A brief review of the archaeological evidence for Palaeolithic and Neolithic subsistence European Journal of Clinical Nutrition 56 12 1270 1278 doi 10 1038 sj ejcn 1601646 PMID 12494313 S2CID 17082871 Lukacs John R 1996 02 01 Sex Differences in Dental Caries Rates With the Origin of Agriculture in South Asia Current Anthropology 37 1 147 153 doi 10 1086 204481 ISSN 0011 3204 S2CID 143956987 Tayles N Domett K Nelsen K 2000 Agriculture and dental caries The case of rice in prehistoric Southeast Asia World Archaeology 32 1 68 83 doi 10 1080 004382400409899 PMID 16475298 S2CID 43087099 a b History of Dentistry Ancient Origins Archived 2007 07 16 at WebCite hosted on the American Dental Association Archived 2005 01 03 at the Wayback Machine website Page accessed January 9 2007 Coppa A Bondioli L Cucina A et al April 2006 Palaeontology early Neolithic tradition of dentistry Nature 440 7085 755 6 Bibcode 2006Natur 440 755C doi 10 1038 440755a PMID 16598247 S2CID 6787162 Anderson T October 2004 Dental treatment in Medieval England British Dental Journal 197 7 419 25 doi 10 1038 sj bdj 4811723 PMID 15475905 S2CID 25691109 Elliott Jane October 8 2004 Medieval teeth better than Baldrick s Archived 2007 01 11 at the Wayback Machine BBC news Gerabek WE March 1999 The tooth worm historical aspects of a popular medical belief Clinical Oral Investigations 3 1 1 6 doi 10 1007 s007840050070 PMID 10522185 S2CID 6077189 McCauley H Berton Pierre Fauchard 1678 1761 Archived 2007 04 04 at the Wayback Machine hosted on the Pierre Fauchard Academy website The excerpt comes from a speech given at a Maryland PFA Meeting on March 13 2001 Page accessed January 17 2007 Kleinberg I 1 March 2002 A mixed bacteria ecological approach to understanding the role of the oral bacteria in dental caries causation an alternative to Streptococcus mutans and the specific plaque hypothesis Critical Reviews in Oral Biology amp Medicine 13 2 108 25 doi 10 1177 154411130201300202 PMID 12097354 Baehni PC Guggenheim B 1996 Potential of diagnostic microbiology for treatment and prognosis of dental caries and periodontal diseases PDF Critical Reviews in Oral Biology amp Medicine 7 3 259 77 doi 10 1177 10454411960070030401 PMID 8909881 Hiremath S S 2011 Textbook of Preventive and Community Dentistry Elsevier India p 145 ISBN 9788131225301 Selwitz RH Ismail AI Pitts NB January 2007 Dental caries The Lancet 369 9555 51 9 doi 10 1016 S0140 6736 07 60031 2 PMID 17208642 S2CID 204616785 Elsevier Dorland s Illustrated Medical Dictionary Dentistry for All International Dental Review General Info Retrieved 2019 09 26 Head of Cariesology and Endodontics Department The Faculty of Dental Medicine Retrieved 2019 09 26 Cariology entry thefreedictionary com Retrieved 2019 09 26 Listl S Galloway J Mossey P A Marcenes W 28 August 2015 Global Economic Impact of Dental Diseases Journal of Dental Research 94 10 1355 1361 doi 10 1177 0022034515602879 PMID 26318590 S2CID 39147394 AVDS Cavities information page Dog Tooth Health Cat Tooth Health American Veterinary Dental Society Archived from the original on 13 October 2006 Retrieved 10 November 2013 General and cited sources edit Nanci A 2013 Ten Cate s Oral Histology 8th ed St Louis MO Elsevier ISBN 978 0323078467 External links edit nbsp Wikimedia Commons has media related to Dental caries nbsp Wikipedia s health care articles can be viewed offline with the Medical Wikipedia app Tooth decay at Curlie Centers for Disease Control Dental Caries Retrieved from https en wikipedia org w index php title Tooth decay amp oldid 1203309388, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.