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Thiamine deficiency

October 28, 2023

"Beri beri" redirects here. For the African ethnic group, see Kanuri people.

Thiamine deficiency is a medical condition of low levels of thiamine (Vitamin B1).[1] A severe and chronic form is known as beriberi.[1][5] The two main types in adults are wet beriberi and dry beriberi.[1] Wet beriberi affects the cardiovascular system, resulting in a fast heart rate, shortness of breath, and leg swelling.[1] Dry beriberi affects the nervous system, resulting in numbness of the hands and feet, confusion, trouble moving the legs, and pain.[1] A form with loss of appetite and constipation may also occur.[3] Another type, acute beriberi, found mostly in babies, presents with loss of appetite, vomiting, lactic acidosis, changes in heart rate, and enlargement of the heart.[6]

Thiamine deficiency[1]
Other namesBeriberi, vitamin B1 deficiency, thiamine-deficiency syndrome[1][2]
A beriberi patient during the early twentieth century in Southeast Asia, displaying characteristic difficulty with walking
SpecialtyNeurology, cardiology, pediatrics
Symptoms
  • Wet: Fast heart rate, shortness of breath, leg swelling[1]
  • Dry: Numbness, confusion, trouble moving the legs, pain[1]
TypesWet, dry, gastrointestinal[3]
CausesNot enough thiamine[1]
Risk factorsDiet of mostly white rice; alcoholism, dialysis, chronic diarrhea, diuretics[1][4]
PreventionFood fortification, Food diversification[1]
TreatmentThiamine supplementation[1]
FrequencyUncommon (USA)[1]

Risk factors include a diet of mostly white rice, alcoholism, dialysis, chronic diarrhea, and taking high doses of diuretics.[1][4] In rare cases, it may be due to a genetic condition that results in difficulties absorbing thiamine found in food.[1] Wernicke encephalopathy and Korsakoff syndrome are forms of dry beriberi.[4] Diagnosis is based on symptoms, low levels of thiamine in the urine, high blood lactate, and improvement with thiamine supplementation.[7]

Treatment is by thiamine supplementation, either by mouth or by injection.[1] With treatment, symptoms generally resolve in a few weeks.[7] The disease may be prevented at the population level through the fortification of food.[1]

Thiamine deficiency is rare in the United States.[8] It remains relatively common in sub-Saharan Africa.[2] Outbreaks have been seen in refugee camps.[4] Thiamine deficiency has been described for thousands of years in Asia, and became more common in the late 1800s with the increased processing of rice.[9]

Signs and symptoms Edit

Symptoms of beriberi include weight loss, emotional disturbances, impaired sensory perception, weakness and pain in the limbs, and periods of irregular heart rate. Edema (swelling of bodily tissues) is common. It may increase the amount of lactic acid and pyruvic acid within the blood. In advanced cases, the disease may cause high-output cardiac failure and death.

Symptoms may occur concurrently with those of Wernicke's encephalopathy, a primarily neurological thiamine deficiency-related condition.

Beriberi is divided into four categories. The first three are historical and the fourth, gastrointestinal beriberi, was recognized in 2004:

  • Dry beriberi especially affects the peripheral nervous system.
  • Wet beriberi especially affects the cardiovascular system and other bodily systems.
  • Infantile beriberi affects the babies of malnourished mothers.
  • Gastrointestinal beriberi affects the digestive system and other bodily systems.

Dry beriberi Edit

Dry beriberi causes wasting and partial paralysis resulting from damaged peripheral nerves. It is also referred to as endemic neuritis. It is characterized by:

  • Difficulty with walking
  • Tingling or loss of sensation (numbness) in hands and feet
  • Loss of tendon reflexes[10]
  • Loss of muscle function or paralysis of the lower legs
  • Mental confusion/speech difficulties
  • Pain
  • Involuntary eye movements (nystagmus)
  • Vomiting

A selective impairment of the large proprioceptive sensory fibers without motor impairment can occur and present as a prominent sensory ataxia, which is a loss of balance and coordination due to loss of the proprioceptive inputs from the periphery and loss of position sense.[11]

Brain disease Edit

Wernicke's encephalopathy (WE), Korsakoff syndrome (also called alcohol amnestic disorder), and Wernicke–Korsakoff syndrome are forms of dry beriberi.[4]

Wernicke's encephalopathy is the most frequently encountered manifestation of thiamine deficiency in Western society,[12][13] though it may also occur in patients with impaired nutrition from other causes, such as gastrointestinal disease,[12] those with HIV/AIDS, and with the injudicious administration of parenteral glucose or hyperalimentation without adequate B-vitamin supplementation.[14] This is a striking neuro-psychiatric disorder characterized by paralysis of eye movements, abnormal stance and gait, and markedly deranged mental function.[15]

Korsakoff syndrome, in general, is considered to occur with deterioration of brain function in patients initially diagnosed with WE.[16] This is an amnestic-confabulatory syndrome characterized by retrograde and anterograde amnesia, impairment of conceptual functions, and decreased spontaneity and initiative.[17]

Alcoholics may have thiamine deficiency because of:

  • Inadequate nutritional intake: Alcoholics tend to intake less than the recommended amount of thiamine.
  • Decreased uptake of thiamine from the GI tract: Active transport of thiamine into enterocytes is disturbed during acute alcohol exposure.
  • Liver thiamine stores are reduced due to hepatic steatosis or fibrosis.[18]
  • Impaired thiamine utilization: Magnesium, which is required for the binding of thiamine to thiamine-using enzymes within the cell, is also deficient due to chronic alcohol consumption. The inefficient use of any thiamine that does reach the cells will further exacerbate the thiamine deficiency.
  • Ethanol per se inhibits thiamine transport in the gastrointestinal system and blocks phosphorylation of thiamine to its cofactor form (ThDP).[19]

Following improved nutrition and the removal of alcohol consumption, some impairments linked with thiamine deficiency are reversed, in particular poor brain functionality, although in more severe cases, Wernicke–Korsakoff syndrome leaves permanent damage. (See delirium tremens.)

Wet beriberi Edit

Wet beriberi affects the heart and circulatory system. It is sometimes fatal, as it causes a combination of heart failure and weakening of the capillary walls, which causes the peripheral tissues to become edematous. Wet beriberi is characterized by:

Gastrointestinal beriberi Edit

Gastrointestinal beriberi causes abdominal pain. It is characterized by:

  • Abdominal pain
  • Nausea
  • Vomiting
  • Lactic acidosis[26][27]

Infants Edit

Infantile beriberi usually occurs between two and six months of age in children whose mothers have inadequate thiamine intake. It may present as either wet or dry beriberi.[2]

In the acute form, the baby develops dyspnea and cyanosis and soon dies of heart failure. These symptoms may be described in infantile beriberi:

  • Hoarseness, where the child makes moves to moan, but emits no sound or just faint moans[28] caused by nerve paralysis[10]
  • Weight loss, becoming thinner and then marasmic as the disease progresses[28]
  • Vomiting[28]
  • Diarrhea[28]
  • Pale skin[10]
  • Edema[10][28]
  • Ill temper[10]
  • Alterations of the cardiovascular system, especially tachycardia (rapid heart rate)[10]
  • Convulsions occasionally observed in the terminal stages[28]

Cause Edit

Beriberi is often caused by eating a diet with a very high proportion of calorie rich polished rice (common in Asia) or cassava root (common in sub-Saharan Africa), without much if any thiamine-containing animal products or vegetables.[2]

It may also be caused by shortcomings other than inadequate intake – diseases or operations on the digestive tract, alcoholism,[21] dialysis or genetic deficiencies. All those causes mainly affect the central nervous system, and provoke the development of Wernicke's encephalopathy.

Wernicke's disease is one of the most prevalent neurological or neuropsychiatric diseases.[29] In autopsy series, features of Wernicke lesions are observed in approximately 2% of general cases.[30] Medical record research shows that about 85% had not been diagnosed, although only 19% would be asymptomatic. In children, only 58% were diagnosed. In alcohol abusers, autopsy series showed neurological damages at rates of 12.5% or more. Mortality caused by Wernicke's disease reaches 17% of diseases, which means 3.4/1000 or about 25 million contemporaries.[31][32] The number of people with Wernicke's disease may be even higher, considering that early stages may have dysfunctions prior to the production of observable lesions at necropsy. In addition, uncounted numbers of people can experience fetal damage and subsequent diseases.

Genetics Edit

Genetic diseases of thiamine transport are rare but serious. Thiamine responsive megaloblastic anemia syndrome (TRMA) with diabetes mellitus and sensorineural deafness[33] is an autosomal recessive disorder caused by mutations in the gene SLC19A2,[34] a high affinity thiamine transporter. TRMA patients do not show signs of systemic thiamine deficiency, suggesting redundancy in the thiamine transport system. This has led to the discovery of a second high-affinity thiamine transporter, SLC19A3.[35][36] Leigh disease (subacute necrotising encephalomyelopathy) is an inherited disorder that affects mostly infants in the first years of life and is invariably fatal. Pathological similarities between Leigh disease and WE led to the hypothesis that the cause was a defect in thiamine metabolism. One of the most consistent findings has been an abnormality of the activation of the pyruvate dehydrogenase complex.[37]

Mutations in the SLC19A3 gene have been linked to biotin-thiamine responsive basal ganglia disease,[38] which is treated with pharmacological doses of thiamine and biotin, another B vitamin.

Other disorders in which a putative role for thiamine has been implicated include subacute necrotising encephalomyelopathy, opsoclonus myoclonus syndrome (a paraneoplastic syndrome), and Nigerian seasonal ataxia (or African seasonal ataxia). In addition, several inherited disorders of ThDP-dependent enzymes have been reported,[39] which may respond to thiamine treatment.[17]

Pathophysiology Edit

Thiamine in the human body has a half-life of 18 days and is quickly exhausted, particularly when metabolic demands exceed intake. A derivative of thiamine, thiamine pyrophosphate (TPP), is a cofactor involved in the citric acid cycle, as well as connecting the breakdown of sugars with the citric acid cycle. The citric acid cycle is a central metabolic pathway involved in the regulation of carbohydrate, lipid, and amino acid metabolism, and its disruption due to thiamine deficiency inhibits the production of many molecules including the neurotransmitters glutamic acid and GABA.[40] Additionally, thiamine may also be directly involved in neuromodulation.[41]

Diagnosis Edit

 
Oxidation of thiamine derivatives to fluorescent thiochromes by potassium ferricyanide under alkaline conditions

A positive diagnosis test for thiamine deficiency involves measuring the activity of the enzyme transketolase in erythrocytes (Erythrocyte transketolase activation assay). Alternatively, thiamine and its phosphorylated derivatives can directly be detected in whole blood, tissues, foods, animal feed, and pharmaceutical preparations following the conversion of thiamine to fluorescent thiochrome derivatives (thiochrome assay) and separation by high-performance liquid chromatography (HPLC).[42][43][44] Capillary electrophoresis (CE) techniques and in-capillary enzyme reaction methods have emerged as alternative techniques in quantifying and monitoring thiamine levels in samples.[45] The normal thiamine concentration in EDTA-blood is about 20-100 µg/L.

Treatment Edit

Many people with beriberi can be treated with thiamine alone.[46] Given thiamine intravenously (and later orally), rapid and dramatic[21] recovery occurs, generally within 24 hours.[47]

Improvements of peripheral neuropathy may require several months of thiamine treatment.[48]

Epidemiology Edit

Beriberi is a recurrent nutritional disease in detention houses, even in this century. In 1999, an outbreak of beriberi occurred in a detention center in Taiwan.[49] High rates of illness and death from beriberi in overcrowded Haitian jails in 2007 were traced to the traditional practice of washing rice before cooking; this removed a nutritious coating which had been applied to the rice after processing.[50] In the Ivory Coast, among a group of prisoners with heavy punishment, 64% were affected by beriberi. Before beginning treatment, prisoners exhibited symptoms of dry or wet beriberi with neurological signs (tingling: 41%), cardiovascular signs (dyspnoea: 42%, thoracic pain: 35%), and edemas of the lower limbs (51%). With treatment, the rate of healing was about 97%.[51]

Populations under extreme stress may be at higher risk for beriberi. Displaced populations, such as refugees from war, are susceptible to micronutritional deficiency, including beriberi.[52] The severe nutritional deprivation caused by famine also can cause beriberis, although symptoms may be overlooked in clinical assessment or masked by other famine-related problems.[53] An extreme weight-loss diet can, rarely, induce a famine-like state and the accompanying beriberi.[21]

History Edit

Earliest written descriptions of thiamine deficiency are from ancient China in the context of Chinese medicine. One of the earliest is by Ge Hong in his book Zhou hou bei ji fang (Emergency Formulas to Keep up Your Sleeve) written sometime during the third century. Hong called the illness by the name jiao qi, which can be interpreted as "foot qi". He described the symptoms to include swelling, weakness, and numbness of the feet. He also acknowledged that the illness could be deadly, and claimed that it could be cured by eating certain foods, such as fermented soybeans in wine. Better known examples of early descriptions of "foot qi" are by Chao Yuanfang (who lived during 550–630) in his book Zhu bing yuan hou lun (Sources and Symptoms of All Diseases)[54][55] and by Sun Simiao (581–682) in his book Bei ji qian jin yao fang (Essential Emergency Formulas Worth a Thousand in Gold).[56][55][57][58]

In the late 19th century, beriberi was studied by Takaki Kanehiro, a British-trained Japanese medical doctor of the Imperial Japanese Navy.[59] Beriberi was a serious problem in the Japanese navy; sailors fell ill an average of four times a year in the period 1878 to 1881, and 35% were cases of beriberi.[59] In 1883, Takaki learned of a very high incidence of beriberi among cadets on a training mission from Japan to Hawaii, via New Zealand and South America. The voyage lasted more than nine months and resulted in 169 cases of sickness and 25 deaths on a ship of 376 men. With the support of the Japanese Navy, he conducted an experiment in which another ship was deployed on the same route, except that its crew was fed a diet of meat, fish, barley, rice, and beans. At the end of the voyage, this crew had only 14 cases of beriberi and no deaths. This convinced Takaki and the Japanese Navy that diet was the cause.[59] In 1884, Takaki observed that beriberi was common among low-ranking crew who were often provided free rice, thus ate little else, but not among crews of Western navies, nor among Japanese officers who consumed a more varied diet.

In 1897, Christiaan Eijkman, a Dutch physician and pathologist, demonstrated that beriberi is caused by poor diet, and discovered that feeding unpolished rice (instead of the polished variety) to chickens helped to prevent beriberi. The following year, Sir Frederick Hopkins postulated that some foods contained "accessory factors"—in addition to proteins, carbohydrates, fats, and salt—that were necessary for the functions of the human body.[60][61] In 1901, Gerrit Grijns, a Dutch physician and assistant to Christiaan Eijkman in the Netherlands, correctly interpreted beriberi as a deficiency syndrome,[62] and between 1910 and 1913, Edward Bright Vedder established that an extract of rice bran is a treatment for beriberi.[citation needed] In 1929, Eijkman and Hopkins were awarded the Nobel Prize for Physiology or Medicine for their discoveries.

Etymology Edit

Although according to the Oxford English Dictionary, the term "beriberi" comes from a Sinhalese phrase meaning "weak, weak" or "I cannot, I cannot", the word being duplicated for emphasis,[63] the origin of the phrase is questionable. It has also been suggested to come from Hindi, Arabic, and a few other languages, with many meanings like "weakness", "sailor", and even "sheep". Such suggested origins were listed by Heinrich Botho Scheube, among others. Edward Vedder wrote in his book Beriberi (1913) that "it is impossible to definitely trace the origin of the word beriberi". Word berbere was used in writing at least as early as 1568 by Diogo do Couto, when he described the deficiency in India.[64]

Kakke (脚気), which is a Japanese synonym for thiamine deficiency, comes from the way "jiao qi" is pronounced in Japanese.[65] "Jiao qi" is an old word used in Chinese medicine to describe beriberi.[54] "Kakke" is supposed to have entered into the Japanese language sometime between the sixth and eighth centuries.[65]

Other animals Edit

Poultry Edit

As most feedstuffs used in poultry diets contain enough quantities of vitamins to meet the requirements in this species, deficiencies in this vitamin do not occur with commercial diets. This was, at least, the opinion in the 1960s.[66]

Mature chickens show signs three weeks after being fed a deficient diet. In young chicks, it can appear before two weeks of age. Onset is sudden in young chicks, with anorexia and an unsteady gait. Later on, locomotor signs begin, with an apparent paralysis of the flexor of the toes. The characteristic position is called "stargazing", with the affected animal sitting on its hocks with its head thrown back in a posture called opisthotonos. Response to administration of the vitamin is rather quick, occurring a few hours later.[67][68]

Ruminants Edit

Polioencephalomalacia (PEM) is the most common thiamine deficiency disorder in young ruminant and nonruminant animals. Symptoms of PEM include a profuse, but transient, diarrhea, listlessness, circling movements, stargazing or opisthotonus (head drawn back over neck), and muscle tremors.[69] The most common cause is high-carbohydrate feeds, leading to the overgrowth of thiaminase-producing bacteria, but dietary ingestion of thiaminase (e.g., in bracken fern), or inhibition of thiamine absorption by high sulfur intake are also possible.[70] Another cause of PEM is Clostridium sporogenes or Bacillus aneurinolyticus infection. These bacteria produce thiaminases that can cause an acute thiamine deficiency in the affected animal.[71]

Snakes Edit

Snakes that consume a diet largely composed of goldfish and feeder minnows are susceptible to developing thiamine deficiency. This is often a problem observed in captivity when keeping garter and ribbon snakes that are fed a goldfish-exclusive diet, as these fish contain thiaminase, an enzyme that breaks down thiamine.[72]

Wild birds and fish Edit

Thiamine deficiency has been identified as the cause of a paralytic disease affecting wild birds in the Baltic Sea area dating back to 1982.[73] In this condition, there is difficulty in keeping the wings folded along the side of the body when resting, loss of the ability to fly and voice, with eventual paralysis of the wings and legs and death. It affects primarily 0.5–1 kg-sized birds such as the European herring gull (Larus argentatus), common starling (Sturnus vulgaris), and common eider (Somateria mollissima). Researchers noted, "Because the investigated species occupy a wide range of ecological niches and positions in the food web, we are open to the possibility that other animal classes may develop thiamine deficiency, as well."[73]p. 12006

In the counties of Blekinge and Skåne, mass deaths of several bird species, especially the European herring gull, have been observed since the early 2000s. More recently, species of other classes seems to be affected. High mortality of salmon (Salmo salar) in the river Mörrumsån is reported, and mammals such as the Eurasian elk (Alces alces) have died in unusually high numbers. Lack of thiamine is the common denominator where analysis is done. In April 2012, the County Administrative Board of Blekinge found the situation so alarming that they asked the Swedish government to set up a closer investigation.[74]

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Further reading Edit

  • Arnold, D (2010). "British India and the beri-beri problem". Medical History. 54 (3): 295–314. doi:10.1017/S0025727300004622. PMC 2889456. PMID 20592882.
  • Chisholm, Hugh, ed. (1911). "Beri-Beri" . Encyclopædia Britannica. Vol. 03 (11th ed.). Cambridge University Press. pp. 774–775.
  • Smith, HA (2017). Forgotten Disease: Illnesses Transformed in Chinese Medicine. doi:10.1093/jhmas/jry029. ISBN 9781503603509. OCLC 993877848.

External links Edit

  •   Media related to Beriberi at Wikimedia Commons

October 28, 2023
thiamine, deficiency, beri, beri, redirects, here, african, ethnic, group, kanuri, people, medical, condition, levels, thiamine, vitamin, severe, chronic, form, known, beriberi, main, types, adults, beriberi, beriberi, beriberi, affects, cardiovascular, system. Beri beri redirects here For the African ethnic group see Kanuri people Thiamine deficiency is a medical condition of low levels of thiamine Vitamin B1 1 A severe and chronic form is known as beriberi 1 5 The two main types in adults are wet beriberi and dry beriberi 1 Wet beriberi affects the cardiovascular system resulting in a fast heart rate shortness of breath and leg swelling 1 Dry beriberi affects the nervous system resulting in numbness of the hands and feet confusion trouble moving the legs and pain 1 A form with loss of appetite and constipation may also occur 3 Another type acute beriberi found mostly in babies presents with loss of appetite vomiting lactic acidosis changes in heart rate and enlargement of the heart 6 Thiamine deficiency 1 Other namesBeriberi vitamin B1 deficiency thiamine deficiency syndrome 1 2 A beriberi patient during the early twentieth century in Southeast Asia displaying characteristic difficulty with walkingSpecialtyNeurology cardiology pediatricsSymptomsWet Fast heart rate shortness of breath leg swelling 1 Dry Numbness confusion trouble moving the legs pain 1 TypesWet dry gastrointestinal 3 CausesNot enough thiamine 1 Risk factorsDiet of mostly white rice alcoholism dialysis chronic diarrhea diuretics 1 4 PreventionFood fortification Food diversification 1 TreatmentThiamine supplementation 1 FrequencyUncommon USA 1 Risk factors include a diet of mostly white rice alcoholism dialysis chronic diarrhea and taking high doses of diuretics 1 4 In rare cases it may be due to a genetic condition that results in difficulties absorbing thiamine found in food 1 Wernicke encephalopathy and Korsakoff syndrome are forms of dry beriberi 4 Diagnosis is based on symptoms low levels of thiamine in the urine high blood lactate and improvement with thiamine supplementation 7 Treatment is by thiamine supplementation either by mouth or by injection 1 With treatment symptoms generally resolve in a few weeks 7 The disease may be prevented at the population level through the fortification of food 1 Thiamine deficiency is rare in the United States 8 It remains relatively common in sub Saharan Africa 2 Outbreaks have been seen in refugee camps 4 Thiamine deficiency has been described for thousands of years in Asia and became more common in the late 1800s with the increased processing of rice 9 Contents 1 Signs and symptoms 1 1 Dry beriberi 1 2 Brain disease 1 3 Wet beriberi 1 4 Gastrointestinal beriberi 1 5 Infants 2 Cause 2 1 Genetics 3 Pathophysiology 4 Diagnosis 5 Treatment 6 Epidemiology 7 History 7 1 Etymology 8 Other animals 8 1 Poultry 8 2 Ruminants 8 3 Snakes 8 4 Wild birds and fish 9 References 10 Further reading 11 External linksSigns and symptoms EditSymptoms of beriberi include weight loss emotional disturbances impaired sensory perception weakness and pain in the limbs and periods of irregular heart rate Edema swelling of bodily tissues is common It may increase the amount of lactic acid and pyruvic acid within the blood In advanced cases the disease may cause high output cardiac failure and death Symptoms may occur concurrently with those of Wernicke s encephalopathy a primarily neurological thiamine deficiency related condition Beriberi is divided into four categories The first three are historical and the fourth gastrointestinal beriberi was recognized in 2004 Dry beriberi especially affects the peripheral nervous system Wet beriberi especially affects the cardiovascular system and other bodily systems Infantile beriberi affects the babies of malnourished mothers Gastrointestinal beriberi affects the digestive system and other bodily systems Dry beriberi Edit Dry beriberi causes wasting and partial paralysis resulting from damaged peripheral nerves It is also referred to as endemic neuritis It is characterized by Difficulty with walking Tingling or loss of sensation numbness in hands and feet Loss of tendon reflexes 10 Loss of muscle function or paralysis of the lower legs Mental confusion speech difficulties Pain Involuntary eye movements nystagmus VomitingA selective impairment of the large proprioceptive sensory fibers without motor impairment can occur and present as a prominent sensory ataxia which is a loss of balance and coordination due to loss of the proprioceptive inputs from the periphery and loss of position sense 11 Brain disease Edit Wernicke s encephalopathy WE Korsakoff syndrome also called alcohol amnestic disorder and Wernicke Korsakoff syndrome are forms of dry beriberi 4 Wernicke s encephalopathy is the most frequently encountered manifestation of thiamine deficiency in Western society 12 13 though it may also occur in patients with impaired nutrition from other causes such as gastrointestinal disease 12 those with HIV AIDS and with the injudicious administration of parenteral glucose or hyperalimentation without adequate B vitamin supplementation 14 This is a striking neuro psychiatric disorder characterized by paralysis of eye movements abnormal stance and gait and markedly deranged mental function 15 Korsakoff syndrome in general is considered to occur with deterioration of brain function in patients initially diagnosed with WE 16 This is an amnestic confabulatory syndrome characterized by retrograde and anterograde amnesia impairment of conceptual functions and decreased spontaneity and initiative 17 Alcoholics may have thiamine deficiency because of Inadequate nutritional intake Alcoholics tend to intake less than the recommended amount of thiamine Decreased uptake of thiamine from the GI tract Active transport of thiamine into enterocytes is disturbed during acute alcohol exposure Liver thiamine stores are reduced due to hepatic steatosis or fibrosis 18 Impaired thiamine utilization Magnesium which is required for the binding of thiamine to thiamine using enzymes within the cell is also deficient due to chronic alcohol consumption The inefficient use of any thiamine that does reach the cells will further exacerbate the thiamine deficiency Ethanol per se inhibits thiamine transport in the gastrointestinal system and blocks phosphorylation of thiamine to its cofactor form ThDP 19 Following improved nutrition and the removal of alcohol consumption some impairments linked with thiamine deficiency are reversed in particular poor brain functionality although in more severe cases Wernicke Korsakoff syndrome leaves permanent damage See delirium tremens Wet beriberi Edit Wet beriberi affects the heart and circulatory system It is sometimes fatal as it causes a combination of heart failure and weakening of the capillary walls which causes the peripheral tissues to become edematous Wet beriberi is characterized by Increased heart rate Vasodilation leading to decreased systemic vascular resistance and high output heart failure 20 Elevated jugular venous pressure 21 Dyspnea shortness of breath on exertion Paroxysmal nocturnal dyspnea Peripheral edema 21 swelling of lower legs or generalized edema 22 23 24 25 swelling throughout the body Dilated cardiomyopathyGastrointestinal beriberi Edit Gastrointestinal beriberi causes abdominal pain It is characterized by Abdominal pain Nausea Vomiting Lactic acidosis 26 27 Infants Edit Infantile beriberi usually occurs between two and six months of age in children whose mothers have inadequate thiamine intake It may present as either wet or dry beriberi 2 In the acute form the baby develops dyspnea and cyanosis and soon dies of heart failure These symptoms may be described in infantile beriberi Hoarseness where the child makes moves to moan but emits no sound or just faint moans 28 caused by nerve paralysis 10 Weight loss becoming thinner and then marasmic as the disease progresses 28 Vomiting 28 Diarrhea 28 Pale skin 10 Edema 10 28 Ill temper 10 Alterations of the cardiovascular system especially tachycardia rapid heart rate 10 Convulsions occasionally observed in the terminal stages 28 Cause EditBeriberi is often caused by eating a diet with a very high proportion of calorie rich polished rice common in Asia or cassava root common in sub Saharan Africa without much if any thiamine containing animal products or vegetables 2 It may also be caused by shortcomings other than inadequate intake diseases or operations on the digestive tract alcoholism 21 dialysis or genetic deficiencies All those causes mainly affect the central nervous system and provoke the development of Wernicke s encephalopathy Wernicke s disease is one of the most prevalent neurological or neuropsychiatric diseases 29 In autopsy series features of Wernicke lesions are observed in approximately 2 of general cases 30 Medical record research shows that about 85 had not been diagnosed although only 19 would be asymptomatic In children only 58 were diagnosed In alcohol abusers autopsy series showed neurological damages at rates of 12 5 or more Mortality caused by Wernicke s disease reaches 17 of diseases which means 3 4 1000 or about 25 million contemporaries 31 32 The number of people with Wernicke s disease may be even higher considering that early stages may have dysfunctions prior to the production of observable lesions at necropsy In addition uncounted numbers of people can experience fetal damage and subsequent diseases Genetics Edit Genetic diseases of thiamine transport are rare but serious Thiamine responsive megaloblastic anemia syndrome TRMA with diabetes mellitus and sensorineural deafness 33 is an autosomal recessive disorder caused by mutations in the gene SLC19A2 34 a high affinity thiamine transporter TRMA patients do not show signs of systemic thiamine deficiency suggesting redundancy in the thiamine transport system This has led to the discovery of a second high affinity thiamine transporter SLC19A3 35 36 Leigh disease subacute necrotising encephalomyelopathy is an inherited disorder that affects mostly infants in the first years of life and is invariably fatal Pathological similarities between Leigh disease and WE led to the hypothesis that the cause was a defect in thiamine metabolism One of the most consistent findings has been an abnormality of the activation of the pyruvate dehydrogenase complex 37 Mutations in the SLC19A3gene have been linked to biotin thiamine responsive basal ganglia disease 38 which is treated with pharmacological doses of thiamine and biotin another B vitamin Other disorders in which a putative role for thiamine has been implicated include subacute necrotising encephalomyelopathy opsoclonus myoclonus syndrome a paraneoplastic syndrome and Nigerian seasonal ataxia or African seasonal ataxia In addition several inherited disorders of ThDP dependent enzymes have been reported 39 which may respond to thiamine treatment 17 Pathophysiology EditThiamine in the human body has a half life of 18 days and is quickly exhausted particularly when metabolic demands exceed intake A derivative of thiamine thiamine pyrophosphate TPP is a cofactor involved in the citric acid cycle as well as connecting the breakdown of sugars with the citric acid cycle The citric acid cycle is a central metabolic pathway involved in the regulation of carbohydrate lipid and amino acid metabolism and its disruption due to thiamine deficiency inhibits the production of many molecules including the neurotransmitters glutamic acid and GABA 40 Additionally thiamine may also be directly involved in neuromodulation 41 Diagnosis Edit nbsp Oxidation of thiamine derivatives to fluorescent thiochromes by potassium ferricyanide under alkaline conditionsA positive diagnosis test for thiamine deficiency involves measuring the activity of the enzyme transketolase in erythrocytes Erythrocyte transketolase activation assay Alternatively thiamine and its phosphorylated derivatives can directly be detected in whole blood tissues foods animal feed and pharmaceutical preparations following the conversion of thiamine to fluorescent thiochrome derivatives thiochrome assay and separation by high performance liquid chromatography HPLC 42 43 44 Capillary electrophoresis CE techniques and in capillary enzyme reaction methods have emerged as alternative techniques in quantifying and monitoring thiamine levels in samples 45 The normal thiamine concentration in EDTA blood is about 20 100 µg L Treatment EditMany people with beriberi can be treated with thiamine alone 46 Given thiamine intravenously and later orally rapid and dramatic 21 recovery occurs generally within 24 hours 47 Improvements of peripheral neuropathy may require several months of thiamine treatment 48 Epidemiology EditBeriberi is a recurrent nutritional disease in detention houses even in this century In 1999 an outbreak of beriberi occurred in a detention center in Taiwan 49 High rates of illness and death from beriberi in overcrowded Haitian jails in 2007 were traced to the traditional practice of washing rice before cooking this removed a nutritious coating which had been applied to the rice after processing 50 In the Ivory Coast among a group of prisoners with heavy punishment 64 were affected by beriberi Before beginning treatment prisoners exhibited symptoms of dry or wet beriberi with neurological signs tingling 41 cardiovascular signs dyspnoea 42 thoracic pain 35 and edemas of the lower limbs 51 With treatment the rate of healing was about 97 51 Populations under extreme stress may be at higher risk for beriberi Displaced populations such as refugees from war are susceptible to micronutritional deficiency including beriberi 52 The severe nutritional deprivation caused by famine also can cause beriberis although symptoms may be overlooked in clinical assessment or masked by other famine related problems 53 An extreme weight loss diet can rarely induce a famine like state and the accompanying beriberi 21 History EditEarliest written descriptions of thiamine deficiency are from ancient China in the context of Chinese medicine One of the earliest is by Ge Hong in his book Zhou hou bei ji fang Emergency Formulas to Keep up Your Sleeve written sometime during the third century Hong called the illness by the name jiao qi which can be interpreted as foot qi He described the symptoms to include swelling weakness and numbness of the feet He also acknowledged that the illness could be deadly and claimed that it could be cured by eating certain foods such as fermented soybeans in wine Better known examples of early descriptions of foot qi are by Chao Yuanfang who lived during 550 630 in his book Zhu bing yuan hou lun Sources and Symptoms of All Diseases 54 55 and by Sun Simiao 581 682 in his book Bei ji qian jin yao fang Essential Emergency Formulas Worth a Thousand in Gold 56 55 57 58 In the late 19th century beriberi was studied by Takaki Kanehiro a British trained Japanese medical doctor of the Imperial Japanese Navy 59 Beriberi was a serious problem in the Japanese navy sailors fell ill an average of four times a year in the period 1878 to 1881 and 35 were cases of beriberi 59 In 1883 Takaki learned of a very high incidence of beriberi among cadets on a training mission from Japan to Hawaii via New Zealand and South America The voyage lasted more than nine months and resulted in 169 cases of sickness and 25 deaths on a ship of 376 men With the support of the Japanese Navy he conducted an experiment in which another ship was deployed on the same route except that its crew was fed a diet of meat fish barley rice and beans At the end of the voyage this crew had only 14 cases of beriberi and no deaths This convinced Takaki and the Japanese Navy that diet was the cause 59 In 1884 Takaki observed that beriberi was common among low ranking crew who were often provided free rice thus ate little else but not among crews of Western navies nor among Japanese officers who consumed a more varied diet In 1897 Christiaan Eijkman a Dutch physician and pathologist demonstrated that beriberi is caused by poor diet and discovered that feeding unpolished rice instead of the polished variety to chickens helped to prevent beriberi The following year Sir Frederick Hopkins postulated that some foods contained accessory factors in addition to proteins carbohydrates fats and salt that were necessary for the functions of the human body 60 61 In 1901 Gerrit Grijns a Dutch physician and assistant to Christiaan Eijkman in the Netherlands correctly interpreted beriberi as a deficiency syndrome 62 and between 1910 and 1913 Edward Bright Vedder established that an extract of rice bran is a treatment for beriberi citation needed In 1929 Eijkman and Hopkins were awarded the Nobel Prize for Physiology or Medicine for their discoveries Etymology Edit Although according to the Oxford English Dictionary the term beriberi comes from a Sinhalese phrase meaning weak weak or I cannot I cannot the word being duplicated for emphasis 63 the origin of the phrase is questionable It has also been suggested to come from Hindi Arabic and a few other languages with many meanings like weakness sailor and even sheep Such suggested origins were listed by Heinrich Botho Scheube among others Edward Vedder wrote in his book Beriberi 1913 that it is impossible to definitely trace the origin of the word beriberi Word berbere was used in writing at least as early as 1568 by Diogo do Couto when he described the deficiency in India 64 Kakke 脚気 which is a Japanese synonym for thiamine deficiency comes from the way jiao qi is pronounced in Japanese 65 Jiao qi is an old word used in Chinese medicine to describe beriberi 54 Kakke is supposed to have entered into the Japanese language sometime between the sixth and eighth centuries 65 Other animals EditPoultry Edit As most feedstuffs used in poultry diets contain enough quantities of vitamins to meet the requirements in this species deficiencies in this vitamin do not occur with commercial diets This was at least the opinion in the 1960s 66 Mature chickens show signs three weeks after being fed a deficient diet In young chicks it can appear before two weeks of age Onset is sudden in young chicks with anorexia and an unsteady gait Later on locomotor signs begin with an apparent paralysis of the flexor of the toes The characteristic position is called stargazing with the affected animal sitting on its hocks with its head thrown back in a posture called opisthotonos Response to administration of the vitamin is rather quick occurring a few hours later 67 68 Ruminants Edit Polioencephalomalacia PEM is the most common thiamine deficiency disorder in young ruminant and nonruminant animals Symptoms of PEM include a profuse but transient diarrhea listlessness circling movements stargazing or opisthotonus head drawn back over neck and muscle tremors 69 The most common cause is high carbohydrate feeds leading to the overgrowth of thiaminase producing bacteria but dietary ingestion of thiaminase e g in bracken fern or inhibition of thiamine absorption by high sulfur intake are also possible 70 Another cause of PEM is Clostridium sporogenes or Bacillus aneurinolyticus infection These bacteria produce thiaminases that can cause an acute thiamine deficiency in the affected animal 71 Snakes Edit Snakes that consume a diet largely composed of goldfish and feeder minnows are susceptible to developing thiamine deficiency This is often a problem observed in captivity when keeping garter and ribbon snakes that are fed a goldfish exclusive diet as these fish contain thiaminase an enzyme that breaks down thiamine 72 Wild birds and fish Edit Thiamine deficiency has been identified as the cause of a paralytic disease affecting wild birds in the Baltic Sea area dating back to 1982 73 In this condition there is difficulty in keeping the wings folded along the side of the body when resting loss of the ability to fly and voice with eventual paralysis of the wings and legs and death It affects primarily 0 5 1 kg sized birds such as the European herring gull Larus argentatus common starling Sturnus vulgaris and common eider Somateria mollissima Researchers noted Because the investigated species occupy a wide range of ecological niches and positions in the food web we are open to the possibility that other animal classes may develop thiamine deficiency as well 73 p 12006In the counties of Blekinge and Skane mass deaths of several bird species especially the European herring gull have been observed since the early 2000s More recently species of other classes seems to be affected High mortality of salmon Salmo salar in the river Morrumsan is reported and mammals such as the Eurasian elk Alces alces have died in unusually high numbers Lack of thiamine is the common denominator where analysis is done In April 2012 the County Administrative Board of Blekinge found the situation so alarming that they asked the Swedish government to set up a closer investigation 74 References Edit a b c d e f g h i j k l m n o p q r Beriberi Genetic and Rare Diseases Information Center GARD an NCATS Program 2015 Archived from the original on 11 November 2017 Retrieved 11 November 2017 a b c d Adamolekun B Hiffler L 24 October 2017 A diagnosis and treatment gap for thiamine deficiency disorders in sub Saharan Africa Annals of the New York Academy of Sciences 1408 1 15 19 Bibcode 2017NYASA1408 15A doi 10 1111 nyas 13509 PMID 29064578 a b Ferri Fred F 2017 Ferri s Clinical Advisor 2018 E Book 5 Books in 1 Elsevier Health Sciences p 1368 ISBN 9780323529570 Archived from the original on 2017 11 11 a b c d e Nutrition and Growth Guidelines Domestic Guidelines Immigrant and Refugee Health CDC March 2012 Archived from the original on 11 November 2017 Retrieved 11 November 2017 Hermann Wolfgang Obeid Rima 2011 Vitamins in the prevention of human diseases Berlin Walter de Gruyter p 58 ISBN 9783110214482 Gropper Sareen S Smith Jack L 2013 Advanced Nutrition and Human Metabolism 6 ed Wadsworth Cengage Learning p 324 ISBN 978 1133104056 a b Swaiman Kenneth F Ashwal Stephen Ferriero Donna M Schor Nina F Finkel Richard S Gropman Andrea L Pearl Phillip L Shevell Michael 2017 Swaiman s Pediatric Neurology E Book Principles and Practice Elsevier Health Sciences p e929 ISBN 9780323374811 Archived from the original on 2017 11 11 Thiamin Fact Sheet for Consumers Office of Dietary Supplements ODS USA gov Archived from the original on October 29 2017 Retrieved April 10 2018 Lanska DJ 2010 Chapter 30 historical aspects of the major neurological vitamin deficiency disorders the water soluble B vitamins Handbook of Clinical Neurology Vol 95 pp 445 76 doi 10 1016 S0072 9752 08 02130 1 ISBN 9780444520098 PMID 19892133 a b c d e f Katsura E Oiso T 1976 Beaton G H Bengoa J M eds Chapter 9 Beriberi PDF World Health Organization Monograph Series No 62 Nutrition in Preventive Medicine Geneva World Health Organization Archived from the original PDF on 2011 07 08 Spinazzi Marco Angelini Corrado Patrini Cesare 2010 Subacute sensory ataxia and optic neuropathy with thiamine deficiency Nature Reviews Neurology 6 5 288 93 doi 10 1038 nrneurol 2010 16 PMID 20308997 S2CID 12333200 a b Kril JJ 1996 Neuropathology of thiamine deficiency disorders Metab Brain Dis 11 1 9 17 doi 10 1007 BF02080928 PMID 8815394 S2CID 20889916 For an interesting discussion on thiamine fortification of foods specifically targetting beer see Wernicke s encephalopathy and thiamine fortification of food time for a new direction Medical Journal of Australia Archived from the original on 2011 08 31 Butterworth RF Gaudreau C Vincelette J et al 1991 Thiamine deficiency and Wernicke s encephalopathy in AIDS Metab Brain Dis 6 4 207 12 doi 10 1007 BF00996920 PMID 1812394 S2CID 8833558 Harper C 1979 Wernicke s encephalopathy a more common disease than realised a neuropathological study of 51 cases J Neurol Neurosurg Psychiatry 42 3 226 231 doi 10 1136 jnnp 42 3 226 PMC 490724 PMID 438830 McCollum EV A History of Nutrition Cambridge MA Riverside Press Houghton Mifflin 1957 a b Butterworth RF Thiamin In Shils ME Shike M Ross AC Caballero B Cousins RJ editors Modern Nutrition in Health and Disease 10th ed Baltimore Lippincott Williams amp Wilkins 2006 Butterworth RF 1993 Pathophysiologic mechanisms responsible for the reversible thiamine responsive and irreversible thiamine non responsive neurological symptoms of Wernicke s encephalopathy Drug Alcohol Rev 12 3 315 22 doi 10 1080 09595239300185371 PMID 16840290 Rindi G Imarisio L Patrini C 1986 Effects of acute and chronic ethanol administration on regional thiamin pyrophosphokinase activity of the rat brain Biochem Pharmacol 35 22 3903 8 doi 10 1016 0006 2952 86 90002 X PMID 3022743 Anand I S Florea V G 2001 High Output Cardiac Failure Current Treatment Options in Cardiovascular Medicine 3 2 151 159 doi 10 1007 s11936 001 0070 1 PMID 11242561 S2CID 44475541 a b c d e McIntyre Neil Stanley Nigel N 1971 Cardiac Beriberi Two Modes of Presentation BMJ 3 5774 567 9 doi 10 1136 bmj 3 5774 567 PMC 1798841 PMID 5571454 Lee Hee Sun Lee Seung Ah Shin Hyo Sun 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119 a b HA Smith p 149 Merck Veterinary Manual ed 1967 pp 1440 1441 R E Austic and M L Scott Nutritional deficiency diseases in Diseases of poultry ed by M S Hofstad Ames Iowa Iowa State University Press ISBN 0 8138 0430 2 p 50 Thiamine Deficiency Merck Veterinary Manual 2008 Retrieved 2023 02 16 National Research Council 1996 Nutrient Requirements of Beef Cattle Seventh Revised Ed Washington D C National Academy Press Michel Levy ed March 2015 Overview of Polioencephalomalacia Merck Veterinary Manual Archived from the original on 2016 03 03 Retrieved 2023 02 16 Polioencephalomacia Introduction Archived 2010 05 28 at the Wayback Machine ACES Publications Update on Common Nutritional Disorders of Captive Reptiles Archived from the original on 2017 09 13 Retrieved 2017 09 13 a b Balk L Hagerroth PA Akerman G Hanson M Tjarnlund U Hansson T Hallgrimsson GT Zebuhr Y Broman D Morner T Sundberg H et al 2009 Wild birds of declining European species are dying from a thiamine deficiency syndrome Proc Natl Acad Sci U S A 106 29 12001 12006 Bibcode 2009PNAS 10612001B doi 10 1073 pnas 0902903106 PMC 2715476 PMID 19597145 Blekinge lan Lansstyrelsen 2013 2012 04 15 500 1380 13 Forhojd dodlighet hos fagel lax og alg PDF Archived PDF from the original on 2013 12 02 Further reading EditArnold D 2010 British India and the beri beri problem Medical History 54 3 295 314 doi 10 1017 S0025727300004622 PMC 2889456 PMID 20592882 Chisholm Hugh ed 1911 Beri Beri Encyclopaedia Britannica Vol 03 11th ed Cambridge University Press pp 774 775 Smith HA 2017 Forgotten Disease Illnesses Transformed in Chinese Medicine doi 10 1093 jhmas jry029 ISBN 9781503603509 OCLC 993877848 External links Edit nbsp Media related to Beriberi at Wikimedia Commons Retrieved from https en wikipedia org w index php title Thiamine deficiency amp oldid 1180888306, wikipedia, wiki, book, books, library,

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