[en] The Belgian PCB incident occurred at the end of January 1999 when a mixture of polychlorinated biphenyls (PCBs) contaminated with dioxins was accidentally added to a stock of recycled fat used in the production of animal feeds. Although signs of poultry poisoning were noticed by February, 1999, the source and the extent of the contamination were discovered only in May 1999, when it appeared that more than 2500 farms could have been supplied with contaminated feeds. This resulted in a major food crisis, which rapidly extended to the whole country and could be resolved only by the implementation of a large PCB/dioxin food monitoring program. Screening for PCB contamination was based on the determination of the seven PCB markers. When PCB concentrations exceeded the tolerance levels of 0.1 (milk), 0.2 (poultry, bovine, and pig meat), or 1 (animal feed) microg/g fat, dioxins (17 PCDD/Fs congeners) were also determined. At the end of December 1999, the database contained the results of more than 55,000 PCB and 500 dioxin analyses. The study of PCB levels and profiles in contaminated feeds delivered to poultry or pig farms confirmed that the Belgian PCB incident was due to a single source of PCB oil introduced into the food chain at the end of January 1999. This PCB oil had a congeners pattern closely matched to a mixture of Aroclor 1260/1254 in the proportion 75/25. The total amount of PCBs added to recycled fats was estimated at 50 kg (sum of the seven markers) or approximately 150 kg total PCBs, which corresponds to about 100 liters of PCB oil. This PCB mixture contained about 1g TEQ dioxins (more than 90- contributed by PCDFs) and about 2g TEQ dioxin-like PCBs. The proportions of PCB 52 and 101 congeners were fairly constant in animal feeds, excluding the possibility of secondary contamination due to fat recycling from contaminated animals. The highest concentrations of PCBs and dioxins were found in poultry and especially in the reproduction animals (hens and chicks), which showed the classical manifestations of chick edema disease. The pigs were also affected but to a lesser extent and no sign of intoxication was observed. The study of PCB/dioxin patterns and of the PCB:dioxin ratios revealed major differences in the metabolism of these compounds by farm animals. Whereas the PCBs:dioxins ratio was fairly constant in all poultry products with a mean value similar to that found in contaminated feeds (50,000), in pigs this ratio was both much higher and more variable (values up to 10,000,000), reflecting a faster elimination of dioxins than PCBs in these animals. These metabolic differences also emerged from the PCB and dioxin patterns which were altered much more in pigs than in poultry. Although the most contaminated food products (chicken meat) had PCB and dioxin levels more than 100 times above maximal recommended values, it is unlikely that this incident could have caused adverse effects in the general population of Belgium. A doubling of the PCB and dioxin burden of the young adult population would require the consumption of, respectively, 10 and 20 highly contaminated meals. In view of the very limited proportion of the poultry chain effectively contaminated during the incident (around 2%), such an extreme scenario was quite improbable for the general population except perhaps for farmers consuming their own products. But even in that case, it would have meant going back to the levels in the 1980s or attaining the body burden of subjects regularly eating contaminated seafood.
Disciplines :
Veterinary medicine & animal health
Author, co-author :
Bernard, Alfred
Broeckaert, Fabrice
De Poorter, Geert
De Cock, Ann
Hermans, Cedric
Saegerman, Claude ; Université de Liège - ULiège > Département des maladies infectieuses et parasitaires > Epidémiologie et analyse des risques appl. aux sc. vétér.
Houins, Gilbert
Language :
English
Title :
The Belgian PCB/dioxin incident: analysis of the food chain contamination and health risk evaluation.
Publication date :
2002
Journal title :
Environmental Research
ISSN :
0013-9351
eISSN :
1096-0953
Publisher :
Academic Press, New York, United States - New York
Toxicological Profile for Polychlorobiphenyls, U.S. Department of Health and Services; 1997.
Beernaert A., De Poorter G. Intercomparison Study of PCBs in Feedstuffs, Animal Fat and Foodstuffs, Federal Ministery of Public Health and Federal Ministery of Agriculture, Belgium; 1999.
Becher H., Steindorf K., Flesch-Janys D. (1998) Quantitative cancer risk assessment for dioxins using an occupational cohort. Enviorn. Health Perspect. 106(SUPPL. 2):663-670.
Bernard A., Hermans C., Broeckaert F., De Poorter G., De Cock A., Houins G. (1999) Food contamination by PCBs and dioxins. Nature 401:231-232.
Boyer I.J., Kokoski C.J., Bolger P.M. (1991) Role of FDA in establishing tolerance levels for dioxin and PCBs in aquatic organisms. J. Toxicol. Environ. Health 33:93-101.
Connor K., Safe S., Jefcoate C.R., Larsen M. (1995) Structure-dependent induction of CYP2B by polychlorinated biphenyl congeners in female Sprague-Dawley rats. Biochem. Pharmacol. 50:1913-1920.
Section de l'alimentation et de la nutrition1999. http://www.sante.gouv.fr/htm/dossiers/dioxins/accueil.htm
Compilation of EU Dioxin Exposure and Health Data, Summary Report1999. http://europa.eu.int/comm/environment/dioxin/
Fries G.F., Lillie R.J., Cecil H.C., Bitman J. (1997) Retention and excretion of polychlorobiphenylated biphenyl residues by laying hens. Poultry Sci. 56:1275-1280.
Gilbertson M., Kubiak T.J., Ludwig J.P., Fox G. (1991) Great lakes embryo mortality, edema, the deformities syndrome (GLEMEDS) in colonial fish-eating birds: Similarity to chick edema disease. J. Toxicol. Environ. Health 33:455-520.
Gray L.E., Ostby J.S., Kelee R.J. (1997) A dose-response analysis of the reproductive effects of a single gestational exposure dose of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) in make Long Evans hooded rat offspring. Toxicol. Appl. Pharmacol. 141:11-20.
Hayward D.G., Nortrup D., Gardner A., Clower M. (1999) Elevated TCDD in chickens, eggs, and farm-raised catfish fed a diet with ball clay from a Southern United States mine. Environ. Res. 81:248-256.
International Programme on Chemical Safety, Environmental Health Criteria 140: Polychlorinated Biphenyls and Terphenyls, World Health Organization, Geneva; 1993.
Kiviranta H., Vartiainen T., Verta M., Tuomisto J.T., Tuomisto J. (2000) High fish-specific dioxin concentrations in Finland. Lancet 355:1883-1885.
Liem A., Theelen R. Dioxins: Chemical Analysis, Exposure and Risk Assessment, Thesis, National Institute of Public Health and the Environment, Bilthoven, The Netherlands; 1997.
Olling M., Derks H., Berende P., Liem A., De Jong A. (1991) Toxicokinetics of eight 13C-labelled polychlorinated dibenzo-p-dioxins and furans in lactating cows. Chemosphere 23:1377-1385.
Papke O. (1998) PCDD/PCDF: Human background data for Germany, a 10-year experiment. Environ. Health Perspect. 106:723-731.
Pauwels A., Covaci A., Weyler J., Delbeke L., Dhont M., De Sutter P., D'Hooghe T., Schepens P.J. (2000) Comparison of persistent organic pollutant residues in serum and adipose tissue in a female population in Belgium, 1996-1998. Arch. Environ. Contam. Toxicol. 39:265-270.
Report on the Belgian Parliament on the Organization and production of Meat, Dairy and Eggs in Belgium and on the Political Responsibilities in the Dioxin Crisis, Parliament of Belgium, Authors: P. Vanhoutte and L. Pâque. Doc 50 0018/007. [in Dutch/French]; 2000.
Ryan J.J., Dewailly E., Gilman A., Laliberté C., Ayotte P., Rodrigue J. (1997) Dioxin-like compounds in fishing people from the lower north shore of the St. Lawrence River, Quebec, Canada. Arch. Environ. Health 52:309-316.
Schantz S., Bowman R.E. (1989) Learning in monkeys exposed perinatally to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). Neurotoxicol. Teratol. 11:13-19.
Svensson B.G., Mikoczy Z., Strömberg U., Hagmar L. (1995) Mortality and cancer incidence among Swedish fishermen with a high dietary intake of persistent organochlorine compounds. Scan. J. Work Environ. Health 21:106-115.
Schecter A., Olson J.R. (1997) Cancer risk assessment using blood dioxin levels and daily dietary TEQ intake in general populations of industrial and non-industrial countries. Chemosphere 34:1569-1577.
Tuomisto J., Vartiainen T., Tuomisto J.T. Synopsis on Dioxins and PCBs, Publication of the National Public Health Institute, Kuopio, Finland; 1999. http://www.ktl.fi/dioxin/
Van den Berg M., Birnbaum L., Bosveld A.T.C., Brunstrom B., Cook P., Feeley M., Giesy J.P., Hanberg A., Hasegawa R., Kennedy S.W., Kubiak T., Larsen J.C., Van Leeuwen F.X., Liem A.K., Nolt C., Peterson R.E., Poellinger L., Safe S., Schrenk D., Tillitt D., Tysklind M., Younes M., Waern F., Zacharewski T. (1998) Toxic equivalency factors (TEFs) for PCBs, PCDDs, PCDFs for humans and wildlife. Environ. Health Perspect. 106:775-792.
Van den Berg M., Peterson R.E., Schrenk D. (2000) Human risk assessment and TEFs. Food Additives Contaminants 17:347-358.
Van Cleuvenbergen R., Wevers M., Schoeters J., De Frè R. (1994) Dioxins (PCDDs and PCDFs) in human milk from Flanders, Belgium: Concentration levels and congener profiles. Organohalogen Compounds 20:215-220.
Van Cleuvenbergen R., Schoeters J., Bormans R., Wevers M., De Fré R., Rymen T. (1994) Isomer specific determination of PCDDs and PCDFs in Flemish cow's milk, Belgium. Organohalogen Compounds 20:27-30.
Van Leeuwen F.X.R. (2000) Risk assessment of dioxins and PCBs. Proceedings of the workshop on possible health implications of the dioxin crisis. Verhandelingen van de Koninklijke Academie voor Geneeskunde van Belgie 2:81-102.
Van Leeuwen F.X., Younes M. (1998) WHO revises the tolerable daily intake (TDI) for dioxins. Organohalogen Compounds 38:295-298.
Van Oyen H. (1999) Dioxin in feed and food: Is public health running behind?. J. Epidemiol. Community Health 53:744-745.
Walker R. (1999) The significance of excursions above the ADI: Duration in relation in pivotal studies. Regul. Toxicol. Pharmacol. 30.
(1996) Levels of PCBs, PCDDs and PCDFs in human milk. Environmental Health in Europe , Bilthoven, WHO European Centre for Environment and health; 3.
Contamination with Dioxin of Some Belgian Food Products1999. http://www.who.dk/envhlth/dioxin/dioxin.htm
Wittsiepe J., Schrey P., Ewers U., Wilhelm M., Selenka F. (2000) Decrease of PCDD/F levels in human blood-Trend analysis for the German population, 1991-1996. Environ. Res. 83:46-53.
Zook R., Rappe C. (1994) Environmental sources, distribution and fate of polychlorinated dibenzodioxins, dibenzofurans, and related organochlorines. Dioxins and Health , A. Schecter, Ed. Plenum New York; 79-113.
