“Aflatoxin B1”的意思、由来-开放百科全书

Aflatoxin B₁ is mostly found in contaminated food and humans are exposed to aflatoxin B₁ almost entirely through their diet.^[11] Occupational exposure to aflatoxin B₁ has also been reported in swine^[12] and poultry production.^[13] While aflatoxin B₁ contamination is common in many staple foods, its production is maximized in foods stored in hot, humid climates.^[14] Exposure is therefore most common in Southeast Asia, South America, and Sub-Saharan Africa.^[14]

Pathology

Aflatoxin B₁ can permeate through the skin. Dermal exposure to this aflatoxin in particular environmental conditions can lead to major health risks.^[15] The liver is the most susceptible organ to aflatoxin B₁ toxicity. In animal studies, pathological lesions associated with aflatoxin B₁ intoxication include reduction in weight of liver,^[16] vacuolation of hepatocytes,^[17] and hepatic carcinoma.^[18] Other liver lesions include enlargement of hepatic cells, fatty infiltration, necrosis, hemorrhage, fibrosis, regeneration of nodules, and bile duct proliferation/hyperplasia.^[19]

Aspergillus flavus

Biosynthetic pathway

Aflatoxin B₁ is derived from both a dedicated fatty acid synthase (FAS) and a polyketide synthase (PKS), together known as norsolorinic acid synthase. The biosynthesis begins with the synthesis of hexanoate by the FAS, which then becomes the starter unit for the iterative type I PKS.^[23]^[24]^[25] The PKS adds seven malonyl-CoA extenders to the hexanoate to form the C20 polyketide compound. The PKS folds the polyketide in a particular way to induce cyclization to form the anthraquinone norsolorinic acid. A reductase then catalyzes the reduction of the ketone on the norsolorinic acid side-chain to yield averantin.^[23]^[24]^[25] Averantin is converted to averufin via a two different enzymes, a hydroxylase and an alcohol dehydrogenase. This will oxygenate and cyclize averantin's side chain to form the ketal in averufin.

From this point on the biosynthetic pathway of aflatoxin B₁ becomes much more complicated, with several major skeletal changes. Most of the enzymes have not been characterized and there may be several more intermediates that are still unknown.^[23] However, what is known is that averufin is oxidized by a P450-oxidase, AvfA, in a Baeyer-Villiger oxidation. This opens the ether rings and upon rearrangement versiconal acetate is formed. Now an esterase, EstA, catalyzes the hydrolysis of the acetyl, forming the primary alcohol in versiconal.^[23]^[25] The acetal in versicolorin A is formed from the cyclization of the side-chain in versiconal, which is catalyzed by VERB synthase, and then VerB, a desaturase, reduces versicolorin B to form the dihydrobisfuran.^[23]^[25]

There are two more enzymes that catalyze the conversion of versicolorin A to demethylsterigmatocystin: AflN, an oxidase and AflM, a reductase. These enzymes use both molecular oxygen and two NADPH's to dehydrate one of the hydroxyl groups on the anthraquinone and open the quinine with the molecular oxygen.^[23]^[25] Upon forming the aldehyde in the ring opening step, it is oxidized to form the carboxylic acid and subsequently a decarboxylation event occurs to close the ring, forming the six-member ether ring system seen in demethylsterigmatocystin. The next two steps in the biosynthetic pathway is the methylation by S-adenosyl methionine (SAM) of the two hydroxyl groups on the xanthone part of demethysterigmatocystin by two different methyltransferases, OmtB and OmtA.^[23]^[25] This yields O-methylsterigmatocystin. In the final steps there is an oxidative cleavage of the aromatic ring and loss of one carbon in O-methylsterigmatocystin, which is catalyzed by OrdA, an oxidoreductase.^[23]^[25] Then a final recyclization occurs to form aflatoxin B₁.

Mechanism of carcinogenicity

Aflatoxin B₁ is a potent genotoxic hepatocarcinogen with its exposure strongly linked to the development of hepatocellular carcinoma, liver tumors, especially given co-infection with hepatitis B virus.^[14] These effects seem to be largely mediated by mutations at guanine in codon 249 of the p53 gene, a tumor suppressing gene,^[26] and at several guanine residues in the 12th and 13th codons of the ras gene, a gene whose product controls cellular proliferation signals.^[27]^[28] Aflatoxin B₁ must first be metabolitzed into its reactive electriphilic form,aflatoxin B₁-8,9-exo-epoxide by cytochrome p450.^[14] This active form then intercalates between DNA base residues and forms adducts with guanine residues, most commonly aflatoxin B₁-N7-Gua. These adducts may then rearrange or become removed from the backbone all-together, forming an apurinic site. These adducts and alterations represent lesions which, upon DNA replication cause the insertion of a mis-matched base in the opposing strand. Up to 44% of hepatocellular carcinomas in regions with high aflatoxin exposure bear a GC → TA transversion at codon 249 of p53, a characteristic mutation seen with this toxin.^[28]

Prevalence of hepatocellular carcinoma in individuals exposed to aflatoxin, increases with co-infection of hepatitis B virus. One study estimated that while individuals with urinary aflatoxin bio-markers were at a threefold greater risk than the normal population for hepatocellular carcinoma; those infected with hepatitis B virus were at a fourfold risk; and those with the bio-markers and infected with hepatitis B virus were at a 60 times greater risk for hepatocellular carcinoma than the normal population.^[29]^[28]

Toxicity

Several aflatoxin B₁ toxicity studies have been conducted on various animal species.^[30]

Risk management and regulations

Aflatoxin B₁ exposure is best managed by measures aimed at preventing contamination of crops in the field, post-harvest handling, and storage, or via measures aimed at detecting and decontaminating contaminated commodities or materials used in animal feed. For instance, biological decontamination involving the use of a single bacterial species, Flavobacterium aurantiacum has been used to remove aflatoxin B₁ from peanuts and corn.^[42]

Several countries around the world have rules and regulations governing aflatoxin B₁ in foods and these include the maximum permitted, or recommended levels of aflatoxin B₁ for certain foods.^[43]

Notable exposures

The discovery of aflatoxin B₁ came on the heels of the widespread death of turkeys in England in the summer of 1960 to some unknown disease, at the time labeled "Disease X." Over the course of 500 outbreaks, the disease claimed over 100,000 turkeys which appeared to be healthy. The widespread death was later found to be caused by Aspergillus flavus contamination of peanut meal.^[49]^[50]

Twelve patients died of acute aflatoxin poisoning in several hospitals in the Machakos district of Kenya in 1981 following the consumption of contaminated maize. All patients also suffered from hepatitis.^[51]

Following outbreaks of aflatoxin contamination in maize reaching 4,400 ppb in the spring of 2004, 125 individuals in Kenya died of acute hepatic failure while some 317 cases in total were reported. To date this was the largest known outbreak of aflatoxosis in terms of fatalities documented.^[33]

References

1. ^{{Cite web|url=https://toxnet.nlm.nih.gov/cpdb/pdfs/ChemicalTable.pdf|title=Summary Table by Chemical of Carcinogenicity Results in CPDB on 1547 Chemicals|last=|first=|date=|website=Toxnet|access-date=}}
2. ^{{Cite journal|last=McLean|first=M|date=February 1995|title=Cellular interactions and metabolism of aflatoxin: an update|pmid=7540767|journal=Pharmacology & Therapeutics|volume=65|issue=2|pages=163–192|doi=10.1016/0163-7258(94)00054-7}}
3. ^Galvano F., Ritieni A., Piva G., Pietri A. Mycotoxins in the human food chain. In: Diaz D.E., editor. The Mycotoxin Blue Book. Nottingham University Press; Nottingham, UK: 2005. pp. 187–224.
4. ^{{cite journal |author=Azab Rania M. |author2=Tawakkol Wael M. |author3=Abdel-Rahman M. Hamad |author4=Abou-Elmagd Mohamed K. |author5=El-Agrab Hassan M. |author6=Refai Mohamed K. | year = 2005 | title = Detection and estimation of aflatoxin B1 in feeds and its biodegradation by bacteria and fungi | url = | journal = Egyptian Journal of Natural Toxins | volume = 2 | issue = | pages = 39–56 }}
5. ^{{cite journal|last1=Kucukcakan|first1=B|last2=Hayrulai-Musliu|first2=Z|title=Challenging Role of Dietary Aflatoxin B1 Exposure and Hepatitis B Infection on Risk of Hepatocellular Carcinoma.|journal=Open Access Macedonian Journal of Medical Sciences|date=15 June 2015|volume=3|issue=2|pages=363–9|doi=10.3889/oamjms.2015.032|pmid=27275251|pmc=4877883}}
6. ^{{Cite journal | doi = 10.1002/em.20518| pmid = 19642212| title = Differential mutagenicity of aflatoxin B1in the liver of neonatal and adult mice| journal = Environmental and Molecular Mutagenesis| pages = NA| year = 2009| last1 = Chen| first1 = Tao| last2 = Heflich| first2 = Robert H| last3 = Moore| first3 = Martha M| last4 = Mei| first4 = Nan}}
7. ^{{Cite journal | doi = 10.1002/tera.1420370203| pmid = 3127910| title = Developmental toxicity of aflatoxin B1 in the rodent embryo in vitro: Contribution of exogenous biotransformation systems to toxicity| journal = Teratology| volume = 37| issue = 2| pages = 101–11| year = 1988| last1 = Geissler| first1 = Francis| last2 = Faustman| first2 = Elaine M}}
8. ^{{cite journal |vauthors=Meissonnier GM, Pinton P, Laffitte J, Cossalter AM, Gong YY, Wild CP, Bertin G, Galtier P, Oswald IP | year = 2008 | title = Immunotoxicity of aflatoxin B1: Impairment of the cell-mediated response to vaccine antigen and modulation of cytokine expression | url = | journal = Toxicology and Applied Pharmacology | volume = 231 | issue = 2| pages = 142–9 | doi=10.1016/j.taap.2008.04.004| pmid = 18501398 }}
9. ^{{cite journal | doi = 10.1155/2014/706291 | volume=2014 | title=Methods for Detection of Aflatoxins in Agricultural Food Crops | year=2014 | journal=Journal of Applied Chemistry | pages=1–15 |author=Wacoo Alex P. |author2=Wendiro Deborah |author3=Vuzi Peter C. |author4=Hawumba Joseph F.}}
10. ^http://www.fao.org/docrep/007/y5499e/y5499e07.htm#bm07.4.1
11. ^{{cite journal | author = Coulombe R. A. | year = 1993 | title = Biological action of mycotoxins | url = | journal = J Dairy Sci | volume = 76 | issue = 3| pages = 880–891 | doi=10.3168/jds.s0022-0302(93)77414-7}}
12. ^{{Cite journal | doi = 10.1080/15287394.2013.826569| title = Occupational Exposure to Aflatoxin B1in Swine Production and Possible Contamination Sources| journal = Journal of Toxicology and Environmental Health, Part A| volume = 76| issue = 15| pages = 944–951| year = 2013| last1 = Viegas| first1 = Susana| last2 = Veiga| first2 = Luísa| last3 = Figueredo| first3 = Paula| last4 = Almeida| first4 = Ana| last5 = Carolino| first5 = Elisabete| last6 = Sabino| first6 = Raquel| last7 = Veríssimo| first7 = Cristina| last8 = Viegas| first8 = Carla}}
13. ^{{Cite journal | doi = 10.1080/15287394.2012.721164| title = Occupational Exposure to Aflatoxin (AFB1) in Poultry Production| journal = Journal of Toxicology and Environmental Health, Part A| volume = 75| issue = 22–23| pages = 1330–1340| year = 2012| last1 = Viegas| first1 = Susana| last2 = Veiga| first2 = Luisa| last3 = Malta-Vacas| first3 = Joana| last4 = Sabino| first4 = Raquel| last5 = Figueredo| first5 = Paula| last6 = Almeida| first6 = Ana| last7 = Viegas| first7 = Carla| last8 = Carolino| first8 = Elisabete}}
14. ^¹²³{{Cite journal|last=Kew|first=MC|date=September 2013|title=Aflatoxins as a cause of hepatocellular carcinoma|pmid=24078988|journal=Journal of Gastrointestinal and Liver Diseases|volume=22|issue=3|pages=305–310}}
15. ^{{Cite journal | pmid = 22749975 | title = Human skin penetration of selected model mycotoxins | year = 2012 | last1 = Boonen| first1 = Jente| last2 = Malysheva| first2 = Svetlana V.| last3 = Taevernier| first3 = Lien| last4 = Diana Di Mavungu| first4 = José| last5 = De Saeger | first5 = Sarah| last6 = De Spiegeleer | first6 = Bart| journal = Toxicology| volume = 301 | issue = 1–3 | pages = 21–32 | doi=10.1016/j.tox.2012.06.012}}
16. ^Fernández A, Ramos JJ, Sanz M, Saez T, Fernández de Luco D (1996). Alterations in the performance, haematology and clinical biochemistry of growing lambs fed with aflatoxin in the diet. J Appl Toxicol. 16(1): 85-91.
17. ^Espada Y, Domingo M, Gomez J, Calvo MA (1992). Pathological lesions following an experimental intoxication with aflatoxin B₁ in broiler chickens. Res Vet Sci. 53(3): 275-9.
18. ^{{cite journal |vauthors=Larsson P, Busk L, Tjälve H | year = 1994 | title = Hepatic and extrahepatic bioactivation and GSH conjugation of aflatoxin B1 in sheep | url = | journal = Carcinogenesis | volume = 15 | issue = 5| pages = 947–55 | doi=10.1093/carcin/15.5.947| pmid = 8200100 }}
19. ^Patterson D.S.P. Aflatoxin and related compounds: Introduction. In: Wyllie T.D., Morehouse L.G., editors. Mycotoxic Fungi, Mycotoxins, Mycotoxicoses, an Encyclopaedic Handbook. 1st. Vol. 1. Marcel Dekker Inc.; New York, NY, USA: 1977. pp. 131–135.
20. ^¹²{{Cite journal|last=Hedayati|first=M. T.|last2=Pasqualotto|first2=A. C.|last3=Warn|first3=P. A.|last4=Bowyer|first4=P.|last5=Denning|first5=D. W.|date=2007-01-01|title=Aspergillus flavus: human pathogen, allergen and mycotoxin producer|journal=Microbiology|volume=153|issue=6|pages=1677–1692|doi=10.1099/mic.0.2007/007641-0|pmid=17526826}}
21. ^{{Cite web|url=http://www.cifr.ncsu.edu/aflavus/|title=Aspergillus flavus :: Center for Integrated Fungal Research|website=www.cifr.ncsu.edu|access-date=2017-05-08}}
22. ^{{Cite web|url=https://www.cdc.gov/fungal/diseases/aspergillosis/definition.html|title=Definition of Aspergillosis {{!}} Aspergillosis {{!}} Types of Fungal Diseases {{!}} Fungal Diseases {{!}} CDC|website=www.cdc.gov|language=en-us|access-date=2017-05-08}}
23. ^¹²³⁴⁵⁶⁷{{cite book |author =Dewick, P.M. |title=Medicinal Natural Products: A Biosynthetic Approach |publisher=Wiley |location= |year=2009 |isbn=978-0470742792 |pages=122–4 |url=https://books.google.com/books?id=SeKMT1u3dugC&pg=SA3-PA96 |edition=3rd}}
24. ^¹{{cite journal |vauthors=Singh R, Hsieh DP |title=Aflatoxin biosynthetic pathway: elucidation by using blocked mutants of Aspergillus parasiticus |journal=Arch. Biochem. Biophys. |volume=178 |issue=1 |pages=285–92 |date=January 1977 |pmid=836036 |doi=10.1016/0003-9861(77)90193-x}}
25. ^¹²³⁴⁵⁶{{cite journal |vauthors=Yu J, Chang PK, Ehrlich KC |title=Clustered pathway genes in aflatoxin biosynthesis |journal=Appl. Environ. Microbiol. |volume=70 |issue=3 |pages=1253–62 |date=March 2004 |pmid=15006741 |pmc=368384 |url=http://aem.asm.org/cgi/pmidlookup?view=long&pmid=15006741|display-authors=etal|doi=10.1128/AEM.70.3.1253-1262.2004 }}
26. ^{{Cite book|url=https://www.ncbi.nlm.nih.gov/books/NBK22268/|title=The p53 tumor suppressor protein|last=(us)|first=National Center for Biotechnology Information|date=1998-01-01|publisher=National Center for Biotechnology Information (US)}}
27. ^{{Cite journal|last=Fernández-Medarde|first=Alberto|last2=Santos|first2=Eugenio|date=2017-05-08|title=Ras in Cancer and Developmental Diseases|journal=Genes & Cancer|volume=2|issue=3|pages=344–358|doi=10.1177/1947601911411084|issn=1947-6019|pmc=3128640|pmid=21779504}}
28. ^¹²{{Cite journal|last=Semela|first=Maryann|date=2001|title=The chemistry and biology of aflatoxin B1: from mutational spectrometry to carcinogenesis|url=https://oup.silverchair-cdn.com/oup/backfile/Content_public/Journal/carcin/22/4/10.1093_carcin_22.4.535/1/220535.pdf?Expires=1494259529&Signature=e7izXWvJIoeZRUXuHsOtiSydzP7wsNwf11qMZOjvuYq2lZlNcGiZIUPCpM2WbhYf0TsnLttTSGerCk5qHKIy9VtR0JNT2Z62quROcwgm6mX9TMuUqGHF7CGSvI1Qhg-AtPTGeO2luYVj2NznWhgrHKCgm1rWVSY6p8OsKryOg~OJ27Ige2xDi4sKtLN1yGKz87Mm9y4WdIH7-KieSRQhEkk~UxOMmSVfUEgh5QtWQMKUOC7r~xR06Dxl5mn2gtxNNh0L4cGAnCThiPLsCv5Tq94ocWIVnJA5jjcNU1OTjL8fI5a9Gavw8Vz6fbp6g2jAyHUYQ6zwleUItgA1OllphQ__&Key-Pair-Id=APKAIUCZBIA4LVPAVW3Q|journal=Carcinogenesis|volume=22|issue=4|pages=535–545|doi=10.1093/carcin/22.4.535}}
29. ^{{Cite journal|last=Ross|first=R. K.|last2=Yuan|first2=J. M.|last3=Yu|first3=M. C.|last4=Wogan|first4=G. N.|last5=Qian|first5=G. S.|last6=Tu|first6=J. T.|last7=Groopman|first7=J. D.|last8=Gao|first8=Y. T.|last9=Henderson|first9=B. E.|date=1992-04-18|title=Urinary aflatoxin biomarkers and risk of hepatocellular carcinoma|journal=Lancet|volume=339|issue=8799|pages=943–946|issn=0140-6736|pmid=1348796|doi=10.1016/0140-6736(92)91528-g}}
30. ^{{cite journal | author = Wogan Gerald N | year = 1966 | title = Chemical Nature and Biological Effects of the Aflatoxins | url = | journal = Bacteriol. Rev. | volume = 30 | issue = 2| pages = 460–470 }}
31. ^{{cite journal | author = Agag B.I. | year = 2004 | title = Mycotoxins in foods and feeds 1-Aflatoxins | url = | journal = Ass Univ. Bull. Environ. Res. | volume = 7 | issue = 1| pages = 173–205 }}
32. ^{{cite journal | author = Butler W. H. | year = 1964 | title = Acute Toxicity of Aflatoxin B1 in Rats | url = | journal = Br J Cancer | volume = 18 | issue = 4| pages = 756–762 | doi=10.1038/bjc.1964.87| pmid = 14264941 | pmc = 2071183}}
33. ^¹{{Cite journal|last=Azziz-Baumgartner|first=Eduardo|last2=Lindblade|first2=Kimberly|last3=Gieseker|first3=Karen|last4=Rogers|first4=Helen Schurz|last5=Kieszak|first5=Stephanie|last6=Njapau|first6=Henry|last7=Schleicher|first7=Rosemary|last8=McCoy|first8=Leslie F.|last9=Misore|first9=Ambrose|date=2005-01-01|title=Case-Control Study of an Acute Aflatoxicosis Outbreak, Kenya, 2004|jstor=3436751|journal=Environmental Health Perspectives|volume=113|issue=12|pages=1779–1783|doi=10.1289/ehp.8384|pmid=16330363}}
34. ^{{cite journal |author=Tulpule P. G. |author2=Madhavan T. V. |author3=Gopalan C. | year = 1964 | title = Effect of feeding aflatoxin in young monkeys | url = | journal = Lancet | volume = 1 | issue = 7340| page = 962 | doi = 10.1016/s0140-6736(64)91748-9 }}
35. ^{{Cite journal | doi = 10.3382/ps.0630485| pmid = 6425817| title = Experimental Induction of Chronic Aflatoxicosis in Chickens by Purified Aflatoxin B1 and Its Reversal by Activated Charcoal, Phenobarbital, and Reduced Glutathione| journal = Poultry Science| volume = 63| issue = 3| pages = 485–91| year = 1984| last1 = Dalvi| first1 = R. R| last2 = McGowan| first2 = C}}
36. ^Sahoo PK, Mukherjee SC, Nayak SK, Dey S (2001). Acute and subchronic toxicity of aflatoxin B1 to rohu, Labeo rohita (Hamilton). Indian J Exp Biol. 39(5): 453-8.
37. ^{{Cite journal | doi = 10.1111/j.1478-3231.2011.02474.x| pmid = 21382167| title = Aflatoxin genotoxicity is associated with a defective DNA damage response bypassing p53 activation| journal = Liver International| volume = 31| issue = 4| pages = 561–71| year = 2011| last1 = Gursoy-Yuzugullu| first1 = Ozge| last2 = Yuzugullu| first2 = Haluk| last3 = Yilmaz| first3 = Mustafa| last4 = Ozturk| first4 = Mehmet}}
38. ^{{cite journal | author = Newberne Paul M., Wogan Gerald N. | year = 1968 | title = Sequential Morphologic Changes in Aflatoxin B1 Carcinogenesis in the Rat | url = | journal = Cancer Res | volume = 28 | issue = | pages = 770–781 }}
39. ^{{Cite journal | doi = 10.1080/00071660310001618352| pmid = 14584846| title = Effects of aflatoxin B1on the development of the bursa of Fabricius and blood lymphocyte acid phosphatase of the chicken| journal = British Poultry Science| volume = 44| issue = 4| pages = 558–66| year = 2003| last1 = Sur| first1 = E| last2 = Celik| first2 = İ}}
40. ^{{Cite journal | doi = 10.1016/j.fct.2005.01.004 | pmid = 15721209 | title = Effects of aflatoxin B1 on embryo fetal development in rabbits | journal = Food and Chemical Toxicology | volume = 43 | issue = 4 | pages = 607–15 | year = 2005 | last1 = Wangikar | first1 = P.B | last2 = Dwivedi | first2 = P | last3 = Sinha | first3 = N | last4 = Sharma | first4 = A.K | last5 = Telang | first5 = A.G }}
41. ^Sahoo PK, Mukherjee SC (2001). Immunosuppressive effects of aflatoxin B1 in Indian major carp (Labeo rohita). Comp Immunol Microbiol Infect Dis. 24(3):143-9.
42. ^¹{{Cite web |url=http://www.foodsafetywatch.org/factsheets/aflatoxins/ |title=Aflatoxins |access-date=2015-12-07 |archive-url=https://web.archive.org/web/20170706211122/http://www.foodsafetywatch.org/factsheets/aflatoxins/ |archive-date=2017-07-06 |dead-url=yes}}
43. ^{{Cite journal | doi = 10.1016/S0308-8146(96)00096-9 | title = Aflatoxin in food and feed: Occurrence, legislation and inactivation by physical methods | journal = Food Chemistry | volume = 59 | pages = 57–67 | year = 1997 | last1 = Rustom | first1 = Ismail Y.S }}
44. ^Park, D. L. & Njapau, H. (1989). Contamination issues and padding. J. Am. Oil Chem. Sot. 66: 1402-1405.
45. ^Park, D. L. & Liang, B. (1993). Perspectives on aflatoxin control for human food and animal feed.Trends Food Sci. Technol. 4: 334-342.
46. ^EEC (1991). EEC Council Directive 91/126/EEC. Amending the annexes to Council Directive 74/63/EEC on undesirable substances and products in animal nutrition. Off. J. Eur. Commun., No. L 60.
47. ^FAO/WHO (1990). FAO/WHO Standards Programme. Codex Alimentarius Commission, Alinorm 91/29.
48. ^FAO/WHO (1992). FAO/WHO Standards Programme. Codex Alimentarius Commission, Alinorm 93/12.
49. ^{{Cite journal|last=Wannop|first=C. C.|date=1961-01-01|title=The Histopathology of Turkey "X" Disease in Great Britain|jstor=1587768|journal=Avian Diseases|volume=5|issue=4|pages=371–381|doi=10.2307/1587768}}
50. ^{{Cite journal|last=Richard|first=John L.|date=2008-01-01|title=Discovery of Aflatoxins and Significant Historical Features|journal=Toxin Reviews|volume=27|issue=3–4|pages=171–201|doi=10.1080/15569540802462040|issn=1556-9543}}
51. ^{{Cite journal|title=OUTBREAK OF ACUTE HEPATITIS CAUSED BY AFLATOXIN POISONING IN KENYA |language=en|doi=10.1016/S0140-6736(82)92411-4|volume=319|issue=8285 |journal=The Lancet|pages=1346–1348|author=Ngindu Augustine|year=1982 }}

Sources of exposure