Polybrominated biphenyl

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Polybrominated biphenyls (PBBs), also called brominated biphenyls or polybromobiphenyls, are a group of manufactured chemicals that consist of polyhalogenated derivatives of a biphenyl core. Their chlorine analogs are the PCBs. While once widely used commercially, PBBs are now controlled substances under the Restriction of Hazardous Substances Directive, which limits their use in electrical and electronic products sold in the EU.

Structure of polybrominated biphenyls

Characteristics

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PBBs usually exist as colorless to off-white solids. PBBs soften at 72 degrees Celsius and decompose above 300 degrees Celsius. They have low vapor pressure, are very soluble in benzene and toluene, and insoluble in water. They are degraded by UV light.

Application

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PBBs are used as flame retardants of the brominated flame retardant group. They are added to plastics used in products such as home electrical appliances, textiles, plastic foams, laptop cabinets, etc. to make them difficult to burn.

A number of substituted PBBs found application in medicine, namely bromophene and bromofenofos.

Health hazards

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Exposure to the coplanar stereoisomer 3,3',4,4',5,5'-hexabromobiphenyl (but not the non-coplanar stereoisomer) in genetically susceptible mice is known to cause immunotoxicity and disorders related to the central nervous system, and even at doses as low as 2.5 mg/kg, excess neonatal fatalities are observed (LD50 is from 5–10 mg/kg).[1] The mechanism of toxicity is cellular oxidative stress by aryl hydrocarbon receptor activation.[1]

There is evidence that pre- and post-natal exposure to PBB in girls leads to menarche at an earlier age.[2]

Early studies on the effects of PBBs on human beings concerned the people in Michigan, United States who consumed PBB-contaminated animal products (see history of PBBs below).[3] A study of 327 girls aged 5–24 years in Michigan found those who were exposed in utero to PBBs at or above a level of 7 ppb found had an earlier age at menarche compared to a case-control group.[4] Michigan dairy farmers exposed to PBBs had significant immune system abnormalities including reduced numbers of circulating blood lymphocytes, increases in lymphocytes with no detectable surface markers, and reduced functional response to specific test antigens.[5] Some residents complained of nausea, abdominal pain, loss of appetite, joint pain and lethargy, though it could not be clearly established that PBBs were the cause of these health problems. Workers who were exposed to PBB during PBB production suffered hypothyroidism,[6] although no deterioration in memory performance was found in PBB-exposed workers in tests conducted several years after final PBB exposure, and there was also no correlation of performance with PBB concentration.[7]

There is stronger evidence that PBBs may have caused skin problems, such as acne, in consumers of the contaminated food. Some workers exposed to PBBs by breathing and skin contact for days to months also developed acne.

Studies in animals exposed to large amounts of PBBs for a short period or to smaller amounts over a longer period show that PBBs can cause weight loss, skin disorders, nervous and immune systems effects, as well as effects on the liver, kidneys, and thyroid gland.

Possibility of carcinogenicity

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It is not known for certain if PBBs could cause cancer in human beings, but it has been observed that they can lead to cancer in lab mice exposed to very high concentrations of PBBs. Based on such animal tests, the United States Department of Health and Human Services has determined that PBBs may reasonably be anticipated to be carcinogens. The International Agency for Research on Cancer also suggests that PBBs are possibly carcinogenic to humans.

Michigan PBB contamination incident

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Structure of 2,2′,4,4′,5,5′-hexabromobiphenyl

Before the 1970s, PBBs were widely used commercially as a flame retardant. Michigan Chemical Corporation (MCC) in St. Louis, Michigan, which was then owned by Velsicol Chemical Corporation, was a major producer of the FireMaster range of PBB-based flame retardants. FireMaster BP-6 (a yellow-brown powder) is a mixture of many different PBB congeners with 2,2',4,4',5,5'-hexabromobiphenyl and 2,2',3,4,4',5,5'-heptabromobiphenyl being significant constituents by mass (60-80% and 12-25%, respectively).[8][9] FireMaster FF-1 (a white powder) is FireMaster BP-6 with the addition of 2% calcium silicate as an anti-caking agent.[9] Mixed bromochlorobiphenyls and polybrominated naphthalenes, as well as lower brominated compounds formed by incomplete bromination, have also been found as minor constituents of FireMaster products.[10]

In summer 1973, several thousand pounds of FireMaster BP-6 were accidentally mixed with livestock feed that was distributed to farms in Michigan, United States because the MCC plant also produced a feed precursor ingredient, magnesium oxide, which was sold to the feed manufacturer.[11] Some 1.5 million chickens, 30,000 cattle, 5,900 pigs, and 1,470 sheep then consumed this feed, became contaminated with PBBs and the carcasses were disposed of in landfill sites throughout the state.[12] In 1976, the Michigan Department of Community Health established a PBB registry to gather and analyze data on exposed residents. It now resides at the Rollins School of Public Health at Emory University,[13][14] and is maintained by epidemiologist Michele Marcus.[15]

Michigan Farmer magazine staff members Richard Lehnert and Bonnie Pollard broke the news of the contamination. The magazine continued coverage of the issue until the eventual bankruptcy proceedings of the farm cooperative responsible for the accidental contamination and subsequent distribution of the feed.[16] These events were also portrayed in the 1981 documentary Cattlegate by Jeff Jackson, the true-fiction film Bitter Harvest starring Ron Howard, and in the book The Poisoning of Michigan by Joyce Egginton. A 1978 episode of Lou Grant ("Slaughter") portrays a similar, but fictionalized account. One year elapsed before the animals were culled.[11]

This incident is cited amongst a handful of other noxious substances as the driver for Gerald Ford's half-hearted approval in 1976 of the Toxic Substances Control Act, which "remains one of the most controversial regulatory bills ever passed".[17][better source needed]

Landrigan study

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A study was undertaken on 4,545 people to determine the effects of PBBs on human beings. These include three exposure groups – all people who lived on the quarantined farms, people who received food from these farms and workers (and their families) engaged in PBB manufacture – as well as 725 people with low-level PBB exposure.[18]

All were queried concerning 17 symptoms and conditions possibly related to PBBs. Venous blood was drawn and analyzed for PBB by gas chromatography. Mean serum PBB levels were found to be 26.9 ppb by weight (26.9 μg/kg) in farm residents, 17.1 in recipients, 43.0 ppb in workers, and 3.4 ppb in the low exposure group. No associations could be established between serum PBB levels and symptom prevalence rates.[18]

To evaluate peripheral lymphocyte function, T and B cell quantitation and in vitro responses to three nonspecific mitogens were studied in 34 persons with highest PBB levels (mean: 787 ppb), and in 56 with low levels (mean: 2.8 ppb). No statistically significant differences in lymphocyte function were noted.[18]

However, as of 2015 these studies are still ongoing, and 40 years later adverse reproductive-system effects (as measured by the Apgar score of the newborns) continue to be found in the grandchildren of those who consumed tainted farm products.[19][20]

Bans and restrictions

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Noting the possible hazards on the environment, however, PBBs were listed as one of six controlled substances under the Restriction of Hazardous Substances Directive (RoHS), which was enacted into European Law in February 2003. RoHS legislation lists PBBs as a "restricted substance" group. Other countries followed suit, resulting most recently in restriction dates instituted in China on March 1, 2007, and South Korea on July 1, 2007.

References

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  1. ^ a b Curran CP, Miller KA, Dalton TP, Vorhees CV, Miller ML, Shertzer HG, Nebert DW (2006). "Genetic Differences in Lethality of Newborn Mice Treated In Utero with Coplanar versus Non-Coplanar Hexabromobiphenyl". Toxicological Sciences. 89 (2): 454–464. doi:10.1093/toxsci/kfj048. PMID 16291824.
  2. ^ "Our Stolen Future: PBB exposure affects age of puberty in girls". Archived from the original on 2001-01-26.
  3. ^ Reich M R (1983). "Environmental politics and science: the case of PBB contamination in Michigan". Am. J. Public Health. 73 (3): 302–313. doi:10.2105/AJPH.73.3.302. PMC 1650578. PMID 6297323.
  4. ^ Blanck HM, Marcus M, Tolbert PE, Rubin C, Henderson AK, Hertzberg VS, Zhang RH, Cameron L (November 2000). "Age at menarche and tanner stage in girls exposed in utero and postnatally to polybrominated biphenyl". Epidemiology. 11 (6): 641–647. doi:10.1097/00001648-200011000-00005. PMID 11055623. S2CID 31607825.
  5. ^ Bekesi JG, Holland JF, Anderson HA, Fischbein AS, Rom W, Wolff MS, Selikoff IJ (1978). "Lymphocyte function of Michigan dairy farmers exposed to polybrominated biphenyls". Science. 199 (4334): 1207–1209. Bibcode:1978Sci...199.1207B. doi:10.1126/science.204005. PMID 204005.
  6. ^ Bahn AK, Mills JL, Snyder PJ, Gann PH, Houten L, Bialik O, Hollmann L, Utiger RD (1980-01-03). "Hypothyroidism in workers exposed to polybrominated biphenyls". N. Engl. J. Med. 302 (1): 31–33. doi:10.1056/NEJM198001033020105. PMID 6243165.
  7. ^ GG Brown; RC Preisman; MD Anderson; RK Nixon; JL Isbister & HA Price (1981). "Memory performance of chemical workers exposed to polybrominated biphenyls". Science. 212 (4501): 1413–1415. Bibcode:1981Sci...212.1413B. doi:10.1126/science.6262920. PMID 6262920.
  8. ^ Safe S, Kohli J, Crawford A (April 1978). "FireMaster BP-6: Fractionation, Metabolic and Enzyme Induction Studies". Environmental Health Perspectives. 23: 147–152. doi:10.2307/3428754. JSTOR 3428754. PMC 1637472. PMID 209968.
  9. ^ a b US ATSDR (2004)
  10. ^ "Environmental Health Criteria 152: Polybrominated biphenyls: IPCS International Programme on Chemical Safety". United Nations Environment Programme. International Labour Organisation. World Health Organization: Geneva. 1994. Retrieved 2008-02-08.
  11. ^ a b Carter, Luther J (1976-04-16). "Michigan's PBB incident: Chemical Mix-Up Leads to Disaster". Science. 192 (4236): 240–243. Bibcode:1976Sci...192..240C. doi:10.1126/science.192.4236.240. PMID 17831151.
  12. ^ Susan Dykstra (2010). "PBB Contamination of Cattle Feed in Michigan, 1973" (PDF). Department of Earth Resources and Science, University of Michigan-Flint. Archived from the original (PDF) on 2021-06-08. Retrieved 2021-06-08.
  13. ^ Lorenz, Edward C. (1 April 2012). Civic Empowerment in an Age of Corporate Greed. MSU Press. ISBN 978-1-60917-322-7.
  14. ^ "Other Resources". Michigan PBB Registry. Rollins School of Public Health. Retrieved 8 March 2023.
  15. ^ "Uncertain Inheritance: Epigenetics and the Poisoning of Michigan". Undark. Retrieved 12 June 2018.
  16. ^ David Weinstock, Michigan Farmer managing editor, 1988-1991
  17. ^ Hanson, David J. (15 January 2007). "Those Were The Days". Chemical & Engineering News. 85 (3). American Chemical Society. doi:10.1021/cen-v085n003.p044.
  18. ^ a b c Landrigan, Philip J.; Wilcox, Kenneth R.; Silva, Joseph; Humphrey, Harold E. B.; Kauffman, Carol; Heath, Clark W. (1979). "Cohort Study of Michigan Residents Exposed to Polybrominated Biphenyls: Epidemiologic and Immunologic Findings". Annals of the New York Academy of Sciences. 320 (1): 284–294. Bibcode:1979NYASA.320..284L. doi:10.1111/j.1749-6632.1979.tb56611.x. hdl:2027.42/74208. PMID 222186. S2CID 24596749.
  19. ^ Rebecca Williams (2014). "40 years after toxic mix-up, researchers continue to study Michiganders poisoned by PBB". Michigan Public Media, The Regents of the University of Michigan. Retrieved 2014-11-13.
  20. ^ Metrecia L. Terrella; Kathleen P. Hartnetta; Hyeyeun Limb; Julie Wirthc & Michele Marcu (January 2015). "Maternal exposure to brominated flame retardants and infant Apgar scores". Chemosphere. 118: 178–186. Bibcode:2015Chmsp.118..178T. doi:10.1016/j.chemosphere.2014.08.007. PMC 4249940. PMID 25203650.
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