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Wikipedia

Rickets

October 17, 2023

Not to be confused with Rickettsia.
Not to be confused with osteogenesis imperfecta.
For the surname, see Ricketts.

Rickets is a condition that results in weak or soft bones in children, and is caused by either dietary deficiency or genetic causes.[2] Symptoms include bowed legs, stunted growth, bone pain, large forehead, and trouble sleeping.[2][3] Complications may include bone deformities, bone pseudofractures and fractures, muscle spasms, or an abnormally curved spine.[2][3]

Rickets
X-ray of a two-year-old with rickets, with a marked bowing of the femurs and decreased bone density
Pronunciation
SpecialtyPediatrics, rheumatology, dietetics
SymptomsBowed legs, stunted growth, bone pain, large forehead, trouble sleeping[1][2][3]
ComplicationsBone fractures, muscle spasms, abnormally curved spine, intellectual disability[3]
Usual onsetChildhood[3]
CausesDiet without enough vitamin D or calcium, too little sun exposure, exclusive breastfeeding without supplementation, celiac disease, certain genetic conditions[2][3][4]
Diagnostic methodBlood tests, X-rays[2]
Differential diagnosisFanconi syndrome, scurvy, Lowe syndrome, osteomalacia[3]
PreventionVitamin D supplements for exclusively-breastfed babies[5]
TreatmentVitamin D and calcium[2]
FrequencyRelatively common (Middle East, Africa, Asia)[4]

The most common cause of rickets is a vitamin D deficiency, although hereditary genetic forms also exist.[2] This can result from eating a diet without enough vitamin D, dark skin, too little sun exposure, exclusive breastfeeding without vitamin D supplementation, celiac disease, and certain genetic conditions.[2][3] Other factors may include not enough calcium or phosphorus.[4][5] The underlying mechanism involves insufficient calcification of the growth plate.[6] Diagnosis is generally based on blood tests finding a low calcium, low phosphorus, and a high alkaline phosphatase together with X-rays.[2]

Prevention for exclusively breastfed babies is vitamin D supplements.[5] Otherwise, treatment depends on the underlying cause.[2] If due to a lack of vitamin D, treatment is usually with vitamin D and calcium.[2] This generally results in improvements within a few weeks.[2] Bone deformities may also improve over time.[5] Occasionally surgery may be performed to correct bone deformities.[7][3] Genetic forms of the disease typically require specialized treatment.[5]

Rickets occurs relatively commonly in the Middle East, Africa, and Asia.[4] It is generally uncommon in the United States and Europe, except among certain minority groups.[3][4] It begins in childhood, typically between the ages of 3 and 18 months old.[3][4] Rates of disease are equal in males and females.[3] Cases of what is believed to have been rickets have been described since the 1st century,[8] and the condition was widespread in the Roman Empire.[9] The disease was common into the 20th century.[8] Early treatments included the use of cod liver oil.[8]

Signs and symptoms Edit

 
Widening of wrist

Signs and symptoms of dietary deficiency rickets can include bone tenderness, and a susceptibility for bone fractures, particularly greenstick fractures.[10] Early skeletal deformities can arise in infants such as soft, thinned skull bones – a condition known as craniotabes,[11][12] which is the first sign of rickets; skull bossing may be present and a delayed closure of the fontanelles.

Young children may have bowed legs and thickened ankles and wrists;[13] older children may have knock knees.[10] Spinal curvatures of kyphoscoliosis or lumbar lordosis may be present. The pelvic bones may be deformed. A condition known as rachitic rosary can result as the thickening caused by nodules forming on the costochondral joints. This appears as a visible bump in the middle of each rib in a line on each side of the body. This somewhat resembles a rosary, giving rise to its name. The deformity of a pigeon chest[10] may result in the presence of Harrison's groove.

Hypocalcemia, a low level of calcium in the blood can result in tetany – uncontrolled muscle spasms. Dental problems can also arise.[10]

An X-ray or radiograph of an advanced patient with rickets tends to present in a classic way: the bowed legs (outward curve of long bone of the legs) and a deformed chest. Changes in the skull also occur causing a distinctive "square headed" appearance known as "caput quadratum".[14] These deformities persist into adult life if not treated. Long-term consequences include permanent curvatures or disfiguration of the long bones, and a curved back.[15]

Cause Edit

Maternal deficiencies may be the cause of overt bone disease from before birth and impairment of bone quality after birth.[16][17] The primary cause of congenital rickets is vitamin D deficiency in the mother's blood, which the baby shares.[17] Vitamin D ensures that serum phosphate and calcium levels are sufficient to facilitate the mineralization of bone.[18] Congenital rickets may also be caused by other maternal diseases, including severe osteomalacia, untreated celiac disease, malabsorption, pre-eclampsia, and premature birth.[16] Rickets in children is similar to osteoporosis in the elderly, with brittle bones. Pre-natal care includes checking vitamin levels and ensuring that any deficiencies are supplemented.[19]

Exclusively breast-fed infants may require rickets prevention by vitamin D supplementation or an increased exposure to sunlight.[20]

In sunny countries such as Nigeria, South Africa, and Bangladesh, there is sufficient endogenous vitamin D due to exposure to the sun. However, the disease occurs among older toddlers and children in these countries, which in these circumstances is attributed to low dietary calcium intakes due to a mainly cereal-based diet.[21]

Those at higher risk for developing rickets include:

  • Breast-fed infants whose mothers are not exposed to sunlight
  • Breast-fed infants who are not exposed to sunlight
  • Breast-fed babies who are exposed to little sunlight
  • Adolescents, in particular when undergoing the pubertal growth spurt[22]
  • Any child whose diet does not contain enough vitamin D or calcium

Diseases causing soft bones in infants, like hypophosphatasia or hypophosphatemia, can also lead to rickets.[23]

Strontium is allied with calcium uptake into bones; at excessive dietary levels strontium has a rachitogenic (rickets-producing) action.[24]

Sunlight Edit

Sunlight, especially ultraviolet light, lets human skin cells convert vitamin D from an inactive to active state. In the absence of vitamin D, dietary calcium is not properly absorbed, resulting in hypocalcaemia, leading to skeletal and dental deformities and neuromuscular symptoms, e.g. hyperexcitability. Foods that contain vitamin D include butter, eggs, fish liver oils, margarine, fortified milk and juice, portabella and shiitake mushrooms, and oily fishes such as tuna, herring, and salmon. A rare X-linked dominant form exists called vitamin D-resistant rickets or X-linked hypophosphatemia.[25]

Cases have been reported in Britain in recent years[26] of rickets in children of many social backgrounds caused by insufficient production in the body of vitamin D because the sun's ultraviolet light was not reaching the skin due to use of strong sunblock, too much "covering up" in sunlight, or not getting out into the sun. Other cases have been reported among the children of some ethnic groups in which mothers avoid exposure to the sun for religious or cultural reasons, leading to a maternal shortage of vitamin D, and people with darker skin need more sunlight to maintain vitamin D levels.[27][28]

Rickets had historically been a problem in London, especially during the Industrial Revolution. Persistent thick fog and heavy industrial smog permeating the city blocked out significant amounts of sunlight to such an extent that up to 80 percent of children at one time had varying degrees of rickets in one form or the other.[29] It is sometimes known "the English Disease" in some foreign languages (e.g. German: Die englische Krankheit, Dutch: Engelse ziekte, Hungarian: angolkór, Swedish: engelska sjukan).[30]

Skin color theory Edit

Rickets is often a result of vitamin D3 deficiency. The correlation between human skin color and latitude is thought to be the result of positive selection to varying levels of solar ultraviolet radiation. Northern latitudes have selection for lighter skin that allows UV rays to produce vitamin D from 7-dehydrocholesterol. Conversely, latitudes near the equator have selection for darker skin that can block the majority of UV radiation to protect from toxic levels of vitamin D, as well as skin cancer.[31]

An anecdote often cited to support this hypothesis is that Arctic populations whose skin is relatively darker for their latitude, such as the Inuit, have a diet that is historically rich in vitamin D. Since these people acquire vitamin D through their diet, there is not a positive selective force to synthesize vitamin D from sunlight.[32]

Environment mismatch: vitamin D deficiency arises from a mismatch between an individual's previous and current environment. This risk of mismatch increases with advances in transportation methods and increases in urban population size at high latitudes.[citation needed]

Similar to the environmental mismatch when dark-skinned people live at high latitudes, Rickets can also occur in religious communities that require long garments with hoods and veils.[33] These hoods and veils act as sunlight barriers that prevent individuals from synthesizing vitamin D naturally from the sun.[34]

In a study by Mithal et al.,[35] vitamin D insufficiency of various countries was measured by lower 25-hydroxyvitamin D. 25(OH) D is an indicator of vitamin D insufficiency that can be easily measured. These percentages should be regarded as relative vitamin D levels, and not as predicting evidence for development of rickets.[citation needed]

Asian immigrants living in Europe have an increased risk for vitamin D deficiency. Vitamin D insufficiency was found in 40% of non-Western immigrants in the Netherlands, and in more than 80% of Turkish and Moroccan immigrants.

The Middle East, despite high rates of sun-exposure, has the highest rates of rickets worldwide.[36] This can be explained by limited sun exposure due to cultural practices and lack of vitamin D supplementation for breast-feeding women. Up to 70% and 80% of adolescent girls in Iran and Saudi Arabia, respectively, have vitamin D insufficiency. Socioeconomic factors that limit a vitamin D rich diet also plays a role. In the United States, vitamin D insufficiency varies dramatically by ethnicity. Among females aged 70 years and older, the prevalence of low serum 25(OH) D levels was 28.5% for non-Hispanic whites, 55% for Mexican Americans, and 68% for non-Hispanic blacks. Among males, the prevalence was 23%, 45%, and 58%, respectively.[citation needed]

A systematic review published in the Cochrane Library looked at children up to three years old in Turkey and China and found there was a beneficial association between vitamin D and rickets. In Turkey children getting vitamin D had only a 4% chance of developing rickets compared to children who received no medical intervention. In China, a combination of vitamin D, calcium and nutritional counseling was linked to a decreased risk of rickets.[37]

Parents can supplement their nutritional intake with vitamin D enhanced beverages if they feel their child is at risk for vitamin D deficiency.[38]

A recent review links rickets disease to exclusive consumption of Neocate baby formula.[39]

Diagnosis Edit

 
Wrist X-ray showing changes in rickets. Mainly cupping is seen here.
 
Chest X-ray showing changes consistent with rickets. These changes are usually referred to as "rosary beads" of rickets.

Rickets may be diagnosed with the help of:

  • Blood tests:[40]
    • Serum calcium may show low levels of calcium, serum phosphorus may be low, and serum alkaline phosphatase may be high from bones or changes in the shape or structure of the bones. This can show enlarged limbs and joints.
  • A bone density scan may be undertaken.[40]
  • Radiography typically show widening of the zones of provisional calcification of the metaphyses secondary to unmineralized osteoid. Cupping, fraying, and splaying of metaphyses typically appears with growth and continued weight bearing.[41] These changes are seen predominantly at sites of rapid growth, including the proximal humerus, distal radius, distal femur and both the proximal and the distal tibia. Therefore, a skeletal survey for rickets can be accomplished with anteroposterior radiographs of the knees, wrists, and ankles.[41]

In veterinary practice, rickets, osteodystrophy and mineral metabolism disorders are diagnosed using an ultrasound echosteometer in the design М.М. Orlov and А.V. Savinkov.[42][43][44]

Types Edit

Differential diagnosis Edit

Osteochondrodysplasias, also known as genetic bone diseases, may mimic the clinical picture of rickets in regard to the features of bone deformities.[48] The radiologic picture and the laboratory findings of serum calcium, phosphate and alkaline phosphatase are important differentiating factors. Blount's disease is an important differential diagnosis because it causes knee deformities in a similar fashion to rickets namely bow legs or genu varum. Infants with rickets can have bone fractures. This sometimes leads to child abuse allegations. This issue appears to be more common for solely nursing infants of black mothers, in winter in temperate climates, suffering poor nutrition and no vitamin D supplementation.[49] People with darker skin produce less vitamin D than those with lighter skin, for the same amount of sunlight.[50]

Treatment Edit

Diet and sunlight Edit

 
Cholecalciferol (D3)
 
Ergocalciferol (D2)

Treatment involves increasing dietary intake of calcium, phosphates and vitamin D. Exposure to ultraviolet B light (most easily obtained when the sun is highest in the sky), cod liver oil, halibut-liver oil, and viosterol are all sources of vitamin D.[51]

A sufficient amount of ultraviolet B light in sunlight each day and adequate supplies of calcium and phosphorus in the diet can prevent rickets. Darker-skinned people need to be exposed longer to the ultraviolet rays. The replacement of vitamin D has been proven to correct rickets using these methods of ultraviolet light therapy and medicine.[8]

Recommendations are for 400 international units (IU) of vitamin D a day for infants and children. Children who do not get adequate amounts of vitamin D are at increased risk of rickets. Vitamin D is essential for allowing the body to uptake calcium for use in proper bone calcification and maintenance.[52]

Supplementation Edit

Sufficient vitamin D levels can also be achieved through dietary supplementation and/or exposure to sunlight. Vitamin D3 (cholecalciferol) is the preferred form since it is more readily absorbed than vitamin D2. Most dermatologists recommend vitamin D supplementation as an alternative to unprotected ultraviolet exposure due to the increased risk of skin cancer associated with sun exposure. Endogenous production with full body exposure to sunlight is approximately 250 µg (10,000 IU) per day.[53]

According to the American Academy of Pediatrics (AAP), all infants, including those who are exclusively breast-fed, may need vitamin D supplementation until they start drinking at least 17 US fluid ounces (500 ml) of vitamin D-fortified milk or formula a day.[54]

Despite this recommendation, a recent Cochrane systematic review has found limited evidence that vitamin D plus calcium, or calcium alone compared to vitamin D improves healing in children with nutritional rickets.[55]

Surgery Edit

Occasionally surgery is needed to correct severe and persistent deformities of the lower limbs, especially around the knees namely genu varum and genu valgum. Surgical correction of rachitic deformities can be achieved through osteotomies or guided growth surgery. Guided growth surgery has almost replaced the use of corrective osteotomies. The functional results of guided growth surgery in children with rickets are satisfactory. While bone osteotomies work through acute/immediate correction of the limb deformity, guided growth works through gradual correction.[7]

Epidemiology Edit

In developed countries, rickets is a rare disease[56] (incidence of less than 1 in 200,000). Recently, cases of rickets have been reported among children who are not fed enough vitamin D.[57]

In 2013/2014 there were fewer than 700 cases in England.[57] In 2019 the number of cases hospitalised was said to be the highest in 50 years.[58]

Rickets occurs relatively commonly in the Middle East, Africa, and Asia.[4]

History Edit

 
Skeleton of Infant with Rickets, 1881

Greek physician Soranus of Ephesus, one of the chief representatives of the Methodic school of medicine who practiced in Alexandria and subsequently in Rome, reported deformation of the bones in infants as early as the first and second centuries AD. Rickets was not defined as a specific medical condition until 1645, when an English physician Daniel Whistler gave the earliest known description of the disease. In 1650 a treatise on rickets was published by Francis Glisson, a physician at Caius College, Cambridge,[59] who said it had first appeared about 30 years previously in the counties of Dorset and Somerset.[60] In 1857, John Snow suggested rickets, then widespread in Britain, was being caused by the adulteration of bakers' bread with alum.[61] German pediatrician Kurt Huldschinsky successfully demonstrated in the winter of 1918–1919 how rickets could be treated with ultraviolet lamps. The role of diet in the development of rickets[62][63] was determined by Edward Mellanby between 1918 and 1920.[8] In 1923, American physician Harry Steenbock demonstrated that irradiation by ultraviolet light increased the vitamin D content of foods and other organic materials. Steenbock's irradiation technique was used for foodstuffs, but most memorably for milk. By 1945, rickets had all but been eliminated in the United States.[citation needed]

Etymology Edit

The word rickets may be from the Old English word wrickken ('to twist'), although because this is conjectured, several major dictionaries simply say "origin unknown". The name rickets is plural in form but usually singular in construction. The Greek word rachitis (ῥαχίτης,[64] meaning 'in or of the spine') was later adopted as the scientific term for rickets, due chiefly to the words' similarity in sound.

Vide: Aubrey's Brief Lives: the word has no connection whatever with the Greek rachitis. I quote:

" about 1620 one Ricketts of Newberye a Practictioner of Physick was excellent at the Curing Children with swoln heads, and small legges: and the Disease being new, and without a name, He being so famous for the cure of it, they called the Disease the Ricketts: as the King's Evill from the King's cureing of it with his Touch; and now 'tis good sport to see how they vex their Lexicons, and fetch it from the Greek PaXis, the back bone."

See also Edit

References Edit

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  58. ^ Baraniuk C (17 May 2019). "How going hungry affects children for their whole lives". Independent. Retrieved 4 June 2019.
  59. ^ Claerr J (6 February 2008). . An Interesting Treatise on Human Stupidity. Yahoo! Voices. Archived from the original on 2 July 2014. URL references
  60. ^ Gibbs D (December 1994). "Rickets and the crippled child: an historical perspective". Journal of the Royal Society of Medicine. 87 (12): 729–732. PMC 1294978. PMID 7503834.
  61. ^ Dunnigan M (June 2003). "Commentary: John Snow and alum-induced rickets from adulterated London bread: an overlooked contribution to metabolic bone disease". International Journal of Epidemiology. 32 (3): 340–341. doi:10.1093/ije/dyg160. PMID 12777415.
  62. ^ Pileggi VJ, De Luca HF, Steenbock H (September 1955). "The role of vitamin D and intestinal phytase in the prevention of rickets in rats on cereal diets". Archives of Biochemistry and Biophysics. 58 (1): 194–204. doi:10.1016/0003-9861(55)90106-5. PMID 13259690.
  63. ^ Ford JA, Colhoun EM, McIntosh WB, Dunnigan MG (August 1972). "Biochemical response of late rickets and osteomalacia to a chupatty-free diet". British Medical Journal. 3 (5824): 446–447. doi:10.1136/bmj.3.5824.446. PMC 1786011. PMID 5069221.
  64. ^ "ῥαχίτης" [ῥachitis]. Greek Word Study Tool (in Greek).

External links Edit

  •   Media related to Rickets at Wikimedia Commons

October 17, 2023
rickets, confused, with, rickettsia, confused, with, osteogenesis, imperfecta, surname, ricketts, condition, that, results, weak, soft, bones, children, caused, either, dietary, deficiency, genetic, causes, symptoms, include, bowed, legs, stunted, growth, bone. Not to be confused with Rickettsia Not to be confused with osteogenesis imperfecta For the surname see Ricketts Rickets is a condition that results in weak or soft bones in children and is caused by either dietary deficiency or genetic causes 2 Symptoms include bowed legs stunted growth bone pain large forehead and trouble sleeping 2 3 Complications may include bone deformities bone pseudofractures and fractures muscle spasms or an abnormally curved spine 2 3 RicketsX ray of a two year old with rickets with a marked bowing of the femurs and decreased bone densityPronunciation ˈ r ɪ k ɪ t s SpecialtyPediatrics rheumatology dieteticsSymptomsBowed legs stunted growth bone pain large forehead trouble sleeping 1 2 3 ComplicationsBone fractures muscle spasms abnormally curved spine intellectual disability 3 Usual onsetChildhood 3 CausesDiet without enough vitamin D or calcium too little sun exposure exclusive breastfeeding without supplementation celiac disease certain genetic conditions 2 3 4 Diagnostic methodBlood tests X rays 2 Differential diagnosisFanconi syndrome scurvy Lowe syndrome osteomalacia 3 PreventionVitamin D supplements for exclusively breastfed babies 5 TreatmentVitamin D and calcium 2 FrequencyRelatively common Middle East Africa Asia 4 The most common cause of rickets is a vitamin D deficiency although hereditary genetic forms also exist 2 This can result from eating a diet without enough vitamin D dark skin too little sun exposure exclusive breastfeeding without vitamin D supplementation celiac disease and certain genetic conditions 2 3 Other factors may include not enough calcium or phosphorus 4 5 The underlying mechanism involves insufficient calcification of the growth plate 6 Diagnosis is generally based on blood tests finding a low calcium low phosphorus and a high alkaline phosphatase together with X rays 2 Prevention for exclusively breastfed babies is vitamin D supplements 5 Otherwise treatment depends on the underlying cause 2 If due to a lack of vitamin D treatment is usually with vitamin D and calcium 2 This generally results in improvements within a few weeks 2 Bone deformities may also improve over time 5 Occasionally surgery may be performed to correct bone deformities 7 3 Genetic forms of the disease typically require specialized treatment 5 Rickets occurs relatively commonly in the Middle East Africa and Asia 4 It is generally uncommon in the United States and Europe except among certain minority groups 3 4 It begins in childhood typically between the ages of 3 and 18 months old 3 4 Rates of disease are equal in males and females 3 Cases of what is believed to have been rickets have been described since the 1st century 8 and the condition was widespread in the Roman Empire 9 The disease was common into the 20th century 8 Early treatments included the use of cod liver oil 8 Contents 1 Signs and symptoms 2 Cause 2 1 Sunlight 2 2 Skin color theory 3 Diagnosis 3 1 Types 3 2 Differential diagnosis 4 Treatment 4 1 Diet and sunlight 4 2 Supplementation 4 3 Surgery 5 Epidemiology 6 History 6 1 Etymology 7 See also 8 References 9 External linksSigns and symptoms Edit nbsp Widening of wristSigns and symptoms of dietary deficiency rickets can include bone tenderness and a susceptibility for bone fractures particularly greenstick fractures 10 Early skeletal deformities can arise in infants such as soft thinned skull bones a condition known as craniotabes 11 12 which is the first sign of rickets skull bossing may be present and a delayed closure of the fontanelles Young children may have bowed legs and thickened ankles and wrists 13 older children may have knock knees 10 Spinal curvatures of kyphoscoliosis or lumbar lordosis may be present The pelvic bones may be deformed A condition known as rachitic rosary can result as the thickening caused by nodules forming on the costochondral joints This appears as a visible bump in the middle of each rib in a line on each side of the body This somewhat resembles a rosary giving rise to its name The deformity of a pigeon chest 10 may result in the presence of Harrison s groove Hypocalcemia a low level of calcium in the blood can result in tetany uncontrolled muscle spasms Dental problems can also arise 10 An X ray or radiograph of an advanced patient with rickets tends to present in a classic way the bowed legs outward curve of long bone of the legs and a deformed chest Changes in the skull also occur causing a distinctive square headed appearance known as caput quadratum 14 These deformities persist into adult life if not treated Long term consequences include permanent curvatures or disfiguration of the long bones and a curved back 15 Cause EditMaternal deficiencies may be the cause of overt bone disease from before birth and impairment of bone quality after birth 16 17 The primary cause of congenital rickets is vitamin D deficiency in the mother s blood which the baby shares 17 Vitamin D ensures that serum phosphate and calcium levels are sufficient to facilitate the mineralization of bone 18 Congenital rickets may also be caused by other maternal diseases including severe osteomalacia untreated celiac disease malabsorption pre eclampsia and premature birth 16 Rickets in children is similar to osteoporosis in the elderly with brittle bones Pre natal care includes checking vitamin levels and ensuring that any deficiencies are supplemented 19 Exclusively breast fed infants may require rickets prevention by vitamin D supplementation or an increased exposure to sunlight 20 In sunny countries such as Nigeria South Africa and Bangladesh there is sufficient endogenous vitamin D due to exposure to the sun However the disease occurs among older toddlers and children in these countries which in these circumstances is attributed to low dietary calcium intakes due to a mainly cereal based diet 21 Those at higher risk for developing rickets include Breast fed infants whose mothers are not exposed to sunlight Breast fed infants who are not exposed to sunlight Breast fed babies who are exposed to little sunlight Adolescents in particular when undergoing the pubertal growth spurt 22 Any child whose diet does not contain enough vitamin D or calciumDiseases causing soft bones in infants like hypophosphatasia or hypophosphatemia can also lead to rickets 23 Strontium is allied with calcium uptake into bones at excessive dietary levels strontium has a rachitogenic rickets producing action 24 Sunlight Edit Sunlight especially ultraviolet light lets human skin cells convert vitamin D from an inactive to active state In the absence of vitamin D dietary calcium is not properly absorbed resulting in hypocalcaemia leading to skeletal and dental deformities and neuromuscular symptoms e g hyperexcitability Foods that contain vitamin D include butter eggs fish liver oils margarine fortified milk and juice portabella and shiitake mushrooms and oily fishes such as tuna herring and salmon A rare X linked dominant form exists called vitamin D resistant rickets or X linked hypophosphatemia 25 Cases have been reported in Britain in recent years 26 of rickets in children of many social backgrounds caused by insufficient production in the body of vitamin D because the sun s ultraviolet light was not reaching the skin due to use of strong sunblock too much covering up in sunlight or not getting out into the sun Other cases have been reported among the children of some ethnic groups in which mothers avoid exposure to the sun for religious or cultural reasons leading to a maternal shortage of vitamin D and people with darker skin need more sunlight to maintain vitamin D levels 27 28 Rickets had historically been a problem in London especially during the Industrial Revolution Persistent thick fog and heavy industrial smog permeating the city blocked out significant amounts of sunlight to such an extent that up to 80 percent of children at one time had varying degrees of rickets in one form or the other 29 It is sometimes known the English Disease in some foreign languages e g German Die englische Krankheit Dutch Engelse ziekte Hungarian angolkor Swedish engelska sjukan 30 Skin color theory Edit Rickets is often a result of vitamin D3 deficiency The correlation between human skin color and latitude is thought to be the result of positive selection to varying levels of solar ultraviolet radiation Northern latitudes have selection for lighter skin that allows UV rays to produce vitamin D from 7 dehydrocholesterol Conversely latitudes near the equator have selection for darker skin that can block the majority of UV radiation to protect from toxic levels of vitamin D as well as skin cancer 31 An anecdote often cited to support this hypothesis is that Arctic populations whose skin is relatively darker for their latitude such as the Inuit have a diet that is historically rich in vitamin D Since these people acquire vitamin D through their diet there is not a positive selective force to synthesize vitamin D from sunlight 32 Environment mismatch vitamin D deficiency arises from a mismatch between an individual s previous and current environment This risk of mismatch increases with advances in transportation methods and increases in urban population size at high latitudes citation needed Similar to the environmental mismatch when dark skinned people live at high latitudes Rickets can also occur in religious communities that require long garments with hoods and veils 33 These hoods and veils act as sunlight barriers that prevent individuals from synthesizing vitamin D naturally from the sun 34 In a study by Mithal et al 35 vitamin D insufficiency of various countries was measured by lower 25 hydroxyvitamin D 25 OH D is an indicator of vitamin D insufficiency that can be easily measured These percentages should be regarded as relative vitamin D levels and not as predicting evidence for development of rickets citation needed Asian immigrants living in Europe have an increased risk for vitamin D deficiency Vitamin D insufficiency was found in 40 of non Western immigrants in the Netherlands and in more than 80 of Turkish and Moroccan immigrants The Middle East despite high rates of sun exposure has the highest rates of rickets worldwide 36 This can be explained by limited sun exposure due to cultural practices and lack of vitamin D supplementation for breast feeding women Up to 70 and 80 of adolescent girls in Iran and Saudi Arabia respectively have vitamin D insufficiency Socioeconomic factors that limit a vitamin D rich diet also plays a role In the United States vitamin D insufficiency varies dramatically by ethnicity Among females aged 70 years and older the prevalence of low serum 25 OH D levels was 28 5 for non Hispanic whites 55 for Mexican Americans and 68 for non Hispanic blacks Among males the prevalence was 23 45 and 58 respectively citation needed A systematic review published in the Cochrane Library looked at children up to three years old in Turkey and China and found there was a beneficial association between vitamin D and rickets In Turkey children getting vitamin D had only a 4 chance of developing rickets compared to children who received no medical intervention In China a combination of vitamin D calcium and nutritional counseling was linked to a decreased risk of rickets 37 Parents can supplement their nutritional intake with vitamin D enhanced beverages if they feel their child is at risk for vitamin D deficiency 38 A recent review links rickets disease to exclusive consumption of Neocate baby formula 39 Diagnosis Edit nbsp Wrist X ray showing changes in rickets Mainly cupping is seen here nbsp Chest X ray showing changes consistent with rickets These changes are usually referred to as rosary beads of rickets Rickets may be diagnosed with the help of Blood tests 40 Serum calcium may show low levels of calcium serum phosphorus may be low and serum alkaline phosphatase may be high from bones or changes in the shape or structure of the bones This can show enlarged limbs and joints A bone density scan may be undertaken 40 Radiography typically show widening of the zones of provisional calcification of the metaphyses secondary to unmineralized osteoid Cupping fraying and splaying of metaphyses typically appears with growth and continued weight bearing 41 These changes are seen predominantly at sites of rapid growth including the proximal humerus distal radius distal femur and both the proximal and the distal tibia Therefore a skeletal survey for rickets can be accomplished with anteroposterior radiographs of the knees wrists and ankles 41 In veterinary practice rickets osteodystrophy and mineral metabolism disorders are diagnosed using an ultrasound echosteometer in the design M M Orlov and A V Savinkov 42 43 44 Types Edit Vitamin D related rickets 45 Vitamin D deficiency Vitamin D dependent rickets VDDR 46 Type 1 insufficiency in activation VDDR1A 25 Hydroxyvitamin D3 1 alpha hydroxylase deficiency VDDR1B CYP2R1 deficiency Type 2 resistance to calcitriol VDDR2A calcitriol receptor mutation VDDR2B unknown nuclear ribonucleoprotein interfering with signal transduction Type 3 excessive inactivation CYP3A4 mutation dominant Hypocalcemia related rickets Hypocalcemia Chronic kidney failure CKD BMD Hypophosphatemia related rickets Congenital Vitamin D resistant rickets 45 Autosomal dominant hypophosphatemic rickets ADHR Autosomal recessive hypophosphatemic rickets ARHR 47 Hypophosphatemia typically secondary to malabsorption Fanconi s syndrome Secondary to other diseases Tumor induced osteomalacia McCune Albright syndrome Epidermal nevus syndrome Dent s diseaseDifferential diagnosis Edit Osteochondrodysplasias also known as genetic bone diseases may mimic the clinical picture of rickets in regard to the features of bone deformities 48 The radiologic picture and the laboratory findings of serum calcium phosphate and alkaline phosphatase are important differentiating factors Blount s disease is an important differential diagnosis because it causes knee deformities in a similar fashion to rickets namely bow legs or genu varum Infants with rickets can have bone fractures This sometimes leads to child abuse allegations This issue appears to be more common for solely nursing infants of black mothers in winter in temperate climates suffering poor nutrition and no vitamin D supplementation 49 People with darker skin produce less vitamin D than those with lighter skin for the same amount of sunlight 50 Treatment EditDiet and sunlight Edit nbsp Cholecalciferol D3 nbsp Ergocalciferol D2 Treatment involves increasing dietary intake of calcium phosphates and vitamin D Exposure to ultraviolet B light most easily obtained when the sun is highest in the sky cod liver oil halibut liver oil and viosterol are all sources of vitamin D 51 A sufficient amount of ultraviolet B light in sunlight each day and adequate supplies of calcium and phosphorus in the diet can prevent rickets Darker skinned people need to be exposed longer to the ultraviolet rays The replacement of vitamin D has been proven to correct rickets using these methods of ultraviolet light therapy and medicine 8 Recommendations are for 400 international units IU of vitamin D a day for infants and children Children who do not get adequate amounts of vitamin D are at increased risk of rickets Vitamin D is essential for allowing the body to uptake calcium for use in proper bone calcification and maintenance 52 Supplementation Edit Sufficient vitamin D levels can also be achieved through dietary supplementation and or exposure to sunlight Vitamin D3 cholecalciferol is the preferred form since it is more readily absorbed than vitamin D2 Most dermatologists recommend vitamin D supplementation as an alternative to unprotected ultraviolet exposure due to the increased risk of skin cancer associated with sun exposure Endogenous production with full body exposure to sunlight is approximately 250 µg 10 000 IU per day 53 According to the American Academy of Pediatrics AAP all infants including those who are exclusively breast fed may need vitamin D supplementation until they start drinking at least 17 US fluid ounces 500 ml of vitamin D fortified milk or formula a day 54 Despite this recommendation a recent Cochrane systematic review has found limited evidence that vitamin D plus calcium or calcium alone compared to vitamin D improves healing in children with nutritional rickets 55 Surgery Edit Occasionally surgery is needed to correct severe and persistent deformities of the lower limbs especially around the knees namely genu varum and genu valgum Surgical correction of rachitic deformities can be achieved through osteotomies or guided growth surgery Guided growth surgery has almost replaced the use of corrective osteotomies The functional results of guided growth surgery in children with rickets are satisfactory While bone osteotomies work through acute immediate correction of the limb deformity guided growth works through gradual correction 7 Epidemiology EditIn developed countries rickets is a rare disease 56 incidence of less than 1 in 200 000 Recently cases of rickets have been reported among children who are not fed enough vitamin D 57 In 2013 2014 there were fewer than 700 cases in England 57 In 2019 the number of cases hospitalised was said to be the highest in 50 years 58 Rickets occurs relatively commonly in the Middle East Africa and Asia 4 History Edit nbsp Skeleton of Infant with Rickets 1881Greek physician Soranus of Ephesus one of the chief representatives of the Methodic school of medicine who practiced in Alexandria and subsequently in Rome reported deformation of the bones in infants as early as the first and second centuries AD Rickets was not defined as a specific medical condition until 1645 when an English physician Daniel Whistler gave the earliest known description of the disease In 1650 a treatise on rickets was published by Francis Glisson a physician at Caius College Cambridge 59 who said it had first appeared about 30 years previously in the counties of Dorset and Somerset 60 In 1857 John Snow suggested rickets then widespread in Britain was being caused by the adulteration of bakers bread with alum 61 German pediatrician Kurt Huldschinsky successfully demonstrated in the winter of 1918 1919 how rickets could be treated with ultraviolet lamps The role of diet in the development of rickets 62 63 was determined by Edward Mellanby between 1918 and 1920 8 In 1923 American physician Harry Steenbock demonstrated that irradiation by ultraviolet light increased the vitamin D content of foods and other organic materials Steenbock s irradiation technique was used for foodstuffs but most memorably for milk By 1945 rickets had all but been eliminated in the United States citation needed Etymology Edit The word rickets may be from the Old English word wrickken to twist although because this is conjectured several major dictionaries simply say origin unknown The name rickets is plural in form but usually singular in construction The Greek word rachitis ῥaxiths 64 meaning in or of the spine was later adopted as the scientific term for rickets due chiefly to the words similarity in sound Vide Aubrey s Brief Lives the word has no connection whatever with the Greek rachitis I quote about 1620 one Ricketts of Newberye a Practictioner of Physick was excellent at the Curing Children with swoln heads and small legges and the Disease being new and without a name He being so famous for the cure of it they called the Disease the Ricketts as the King s Evill from the King s cureing of it with his Touch and now tis good sport to see how they vex their Lexicons and fetch it from the Greek PaXis the back bone See also EditHypervitaminosis DReferences Edit Elder CJ Bishop NJ May 2014 Rickets Lancet 383 9929 1665 1676 doi 10 1016 S0140 6736 13 61650 5 PMID 24412049 S2CID 208788707 a b c d e f g h i j k l m Rickets Genetic and Rare Diseases Information Center GARD an NCATS Program 2013 Retrieved 19 December 2017 a b c d e f g h i j k l Rickets Vitamin D Deficiency NORD National Organization for Rare Disorders 2005 Retrieved 19 December 2017 a b c d e f g Creo AL Thacher TD Pettifor JM Strand MA Fischer PR May 2017 Nutritional rickets around the world an update Paediatrics and International Child Health 37 2 84 98 doi 10 1080 20469047 2016 1248170 PMID 27922335 S2CID 6146424 a b c d e Rickets OrthoInfo AAOS September 2010 Retrieved 19 December 2017 Florin T Ludwig S Aronson PL Werner HC 2011 Netter s Pediatrics E Book Elsevier Health Sciences p 430 ISBN 978 1455710645 a b El Sobky TA Samir S Baraka MM Fayyad TA Mahran MA Aly AS et al January 2020 Growth Modulation for Knee Coronal Plane Deformities in Children With Nutritional Rickets A Prospective Series With Treatment Algorithm Journal of the American Academy of Orthopaedic Surgeons Global Research amp Reviews 4 1 e19 00009 doi 10 5435 JAAOSGlobal D 19 00009 PMC 7028784 PMID 32159063 a b c d e Rajakumar K August 2003 Vitamin D cod liver oil sunlight and rickets a historical perspective Pediatrics 112 2 e132 e135 doi 10 1542 peds 112 2 e132 PMID 12897318 Brown M 19 August 2018 Evidence in the bones reveals rickets in Roman times The Guardian Retrieved 20 August 2018 a b c d Medical News Symptoms of Rickets March 2010 Harvey NC Holroyd C Ntani G Javaid K Cooper P Moon R et al July 2014 Vitamin D supplementation in pregnancy a systematic review Health Technology Assessment 18 45 1 190 doi 10 3310 hta18450 PMC 4124722 PMID 25025896 Prentice A July 2013 Nutritional rickets around the world The Journal of Steroid Biochemistry and Molecular Biology 136 201 206 doi 10 1016 j jsbmb 2012 11 018 PMID 23220549 S2CID 19944113 Signs and Symptoms of Rickets Mayo Clinic caput quadratum TheFreeDictionary com O Riordan JL Bijvoet OL January 2014 Rickets before the discovery of vitamin D BoneKEy Reports 3 478 doi 10 1038 bonekey 2013 212 PMC 3899557 PMID 24466409 a b Elidrissy AT September 2016 The Return of Congenital Rickets Are We Missing Occult Cases Calcified Tissue International Review 99 3 227 236 doi 10 1007 s00223 016 0146 2 PMID 27245342 S2CID 14727399 a b Paterson CR Ayoub D October 2015 Congenital rickets due to vitamin D deficiency in the mothers Clinical Nutrition Review 34 5 793 798 doi 10 1016 j clnu 2014 12 006 PMID 25552383 Office of Dietary Supplements Vitamin D Pregnancy and prenatal vitamins Balasubramanian S Ganesh R March 2008 Vitamin D deficiency in exclusively breast fed infants The Indian Journal of Medical Research Review 127 3 250 255 PMID 18497439 Pettifor JM December 2004 Nutritional rickets deficiency of vitamin D calcium or both The American Journal of Clinical Nutrition Review 80 6 Suppl 1725S 1729S doi 10 1093 ajcn 80 6 1725S PMID 15585795 Glorieux FH Pettifor JM 2014 Vitamin D dietary calcium deficiency rickets and pseudo vitamin D deficiency rickets BoneKEy Reports Review 3 524 doi 10 1038 bonekey 2014 19 PMC 4015456 PMID 24818008 Hypophosphatasia Signs and Symptoms Hypophosphatasia com Archived from the original on 15 October 2014 Retrieved 10 September 2014 Pors Nielsen S September 2004 The biological role of strontium Bone 35 3 583 588 doi 10 1016 j bone 2004 04 026 PMID 15336592 Wacker M Holick MF January 2013 Sunlight and Vitamin D A global perspective for health Dermato Endocrinology 5 1 51 108 doi 10 4161 derm 24494 PMC 3897598 PMID 24494042 Daily Telegraph page 4 Wednesday 19 January 2011 Rise in rickets linked to ethnic groups that shun the sun The Independent 25 July 2011 Retrieved 25 July 2011 Doctors fear rickets resurgence BBC 28 December 2007 Retrieved 25 July 2011 Holick MF August 2006 Resurrection of vitamin D deficiency and rickets The Journal of Clinical Investigation 116 8 2062 2072 doi 10 1172 JCI29449 PMC 1523417 PMID 16886050 Bivins R 2007 The English disease or Asian rickets Medical responses to postcolonial immigration Bulletin of the History of Medicine 81 3 533 568 doi 10 1353 bhm 2007 0062 PMC 2630160 PMID 17873451 Loomis WF August 1967 Skin pigment regulation of vitamin D biosynthesis in man Science 157 3788 501 506 Bibcode 1967Sci 157 501F doi 10 1126 science 157 3788 501 PMID 6028915 S2CID 41681581 Sharma S Barr AB Macdonald HM Sheehy T Novotny R Corriveau A August 2011 Vitamin D deficiency and disease risk among aboriginal Arctic populations Nutrition Reviews 69 8 468 478 doi 10 1111 j 1753 4887 2011 00406 x PMID 21790613 Bachrach S Fisher J Parks JS December 1979 An outbreak of vitamin D deficiency rickets in a susceptible population Pediatrics 64 6 871 877 doi 10 1542 peds 64 6 871 PMID 574626 S2CID 26050085 RISE IN RICKETS LINKED TO ETHNIC GROUPS THAT SHUN THE SUN Independent co uk 24 July 2011 Retrieved 21 November 2021 Mithal A Wahl DA Bonjour JP Burckhardt P Dawson Hughes B Eisman JA et al November 2009 Global vitamin D status and determinants of hypovitaminosis D Osteoporosis International 20 11 1807 1820 doi 10 1007 s00198 009 0954 6 PMID 19543765 S2CID 52858668 THE MIDDLE EAST amp AFRICA REGIONAL AUDIT Executive Summary Epidemiology costs amp burden of osteoporosis in 2011 PDF Archived from the original PDF on 25 August 2017 The International Osteoporosis Foundation www iofbonehealth org retrieved 6 April 2017 Lerch C Meissner T October 2007 Interventions for the prevention of nutritional rickets in term born children The Cochrane Database of Systematic Reviews 2010 4 CD006164 doi 10 1002 14651858 CD006164 pub2 PMC 8990776 PMID 17943890 Weisberg P Scanlon KS Li R Cogswell ME December 2004 Nutritional rickets among children in the United States review of cases reported between 1986 and 2003 The American Journal of Clinical Nutrition 80 6 Suppl 1697S 1705S doi 10 1093 ajcn 80 6 1697S PMID 15585790 Akhtar Ali S Mathalikunnel A Bhardwaj V Braskett M Pitukcheewanont P September 2019 Nutritional hypophosphatemic rickets secondary to Neocate use Osteoporosis International 30 9 1887 1891 doi 10 1007 s00198 019 04836 8 PMID 31143989 S2CID 169034641 a b NHS Choice Rickets Diagnoses 6 June 2018 a b Cheema JI Grissom LE Harcke HT 2003 Radiographic characteristics of lower extremity bowing in children Radiographics 23 4 871 880 doi 10 1148 rg 234025149 PMID 12853662 Veterinarnyj ultrazvukovoj ehoosteometr dlya ocenki fizicheskih harakteristik kostej skeleta zhivotnyh pri ih funkcionalnyh i patologicheskih izmeneniyah Veterinary ultrasonic echo osteometer for the assessment of physical characteristics of the bones of the skeleton of animals with their functional and pathological changes in Russian Veterinarnyj ultrazvukovoj ehoosteometr dlya ocenki fizicheskih harakteristik kostej skeleta zhivotnyh pri ih funkcionalnyh i patologicheskih izmeneniyah Veterinary ultrasonic echo osteometer for the assessment of physical characteristics of the bones of the skeleton of animals with their functional and pathological changes in Russian PORTATIVNYJ VETERINARNYJ ULTRAZVUKOVOJ EHOOSTEOMETR DLYa OCENKI FIZIChESKIH HARAKTERISTIK KOSTEJ SKELETA ZhIVOTNYH PRI IH FUNKCIONALNYH I PATOLOGIChESKIH IZMENENIYaH Portable Veterinary Ultravocation Echoosteometer For Assessment Of Physical Characteristics Of Animal Skeletal Bones With Functional And Pathological Changes in Russian a b Nield LS Mahajan P Joshi A Kamat D August 2006 Rickets not a disease of the past American Family Physician 74 4 619 626 PMID 16939184 Levine MA 2020 Diagnosis and Management of Vitamin D Dependent Rickets Frontiers in Pediatrics 8 315 doi 10 3389 fped 2020 00315 PMC 7303887 PMID 32596195 Levy Litan V Hershkovitz E Avizov L Leventhal N Bercovich D Chalifa Caspi V et al February 2010 Autosomal recessive hypophosphatemic rickets is associated with an inactivation mutation in the ENPP1 gene American Journal of Human Genetics 86 2 273 278 doi 10 1016 j ajhg 2010 01 010 PMC 2820183 PMID 20137772 El Sobky TA Shawky RM Sakr HM Elsayed SM Elsayed NS Ragheb SG Gamal R 15 November 2017 A systematized approach to radiographic assessment of commonly seen genetic bone diseases in children A pictorial review J Musculoskelet Surg Res 1 2 25 doi 10 4103 jmsr jmsr 28 17 S2CID 79825711 Keller KA Barnes PD November 2008 Rickets vs abuse a national and international epidemic Pediatric Radiology 38 11 1210 1216 doi 10 1007 s00247 008 1001 z PMID 18810424 S2CID 5848331 Walker C 8 July 2011 CDark Skin Color amp Vitamin D Live Strong Retrieved 2 June 2012 Lamberg Allardt C September 2006 Vitamin D in foods and as supplements Progress in Biophysics and Molecular Biology UV exposure guidance A balanced approach between health risks and health benefits of UV and Vitamin D Proceedings of an International Workshop International Commission on Non ionizing Radiation Protection Munich Germany 17 18 October 2005 92 1 33 38 doi 10 1016 j pbiomolbio 2006 02 017 PMID 16618499 Rickets Symptoms and Causes Mayo Clinic Patient Care and Health Information Mayo Clinic Retrieved 27 January 2022 Vieth R May 1999 Vitamin D supplementation 25 hydroxyvitamin D concentrations and safety The American Journal of Clinical Nutrition 69 5 842 856 doi 10 1093 ajcn 69 5 842 PMID 10232622 Gartner LM Greer FR April 2003 Prevention of rickets and vitamin D deficiency new guidelines for vitamin D intake Pediatrics 111 4 Pt 1 908 910 doi 10 1542 peds 111 4 908 PMID 12671133 Chibuzor MT Graham Kalio D Osaji JO Meremikwu MM et al Cochrane Metabolic and Endocrine Disorders Group April 2020 Vitamin D calcium or a combination of vitamin D and calcium for the treatment of nutritional rickets in children The Cochrane Database of Systematic Reviews 2020 4 CD012581 doi 10 1002 14651858 CD012581 pub2 PMC 7164979 PMID 32303107 Rickets National Health Service of England 28 January 2010 a b Koehler G 20 October 2014 Rickets and osteomalacia nhs uk Archived from the original on 23 April 2016 Retrieved 24 December 2017 Baraniuk C 17 May 2019 How going hungry affects children for their whole lives Independent Retrieved 4 June 2019 Claerr J 6 February 2008 The History of Rickets Scurvy and Other Nutritional Deficiencies An Interesting Treatise on Human Stupidity Yahoo Voices Archived from the original on 2 July 2014 URL references Gibbs D December 1994 Rickets and the crippled child an historical perspective Journal of the Royal Society of Medicine 87 12 729 732 PMC 1294978 PMID 7503834 Dunnigan M June 2003 Commentary John Snow and alum induced rickets from adulterated London bread an overlooked contribution to metabolic bone disease International Journal of Epidemiology 32 3 340 341 doi 10 1093 ije dyg160 PMID 12777415 Pileggi VJ De Luca HF Steenbock H September 1955 The role of vitamin D and intestinal phytase in the prevention of rickets in rats on cereal diets Archives of Biochemistry and Biophysics 58 1 194 204 doi 10 1016 0003 9861 55 90106 5 PMID 13259690 Ford JA Colhoun EM McIntosh WB Dunnigan MG August 1972 Biochemical response of late rickets and osteomalacia to a chupatty free diet British Medical Journal 3 5824 446 447 doi 10 1136 bmj 3 5824 446 PMC 1786011 PMID 5069221 ῥaxiths ῥachitis Greek Word Study Tool in Greek External links Edit nbsp Media related to Rickets at Wikimedia Commons Retrieved from https en wikipedia org w index php title Rickets amp oldid 1173055400, wikipedia, wiki, book, books, library,

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