A perspective on the potential health risks of PBDEs.

The polybrominated diphenylethers (PBDEs) are a class of chemicals widely used as flame retardants. Concentrations of PBDEs in some human and marine mammal populations are increasing. The toxicological endpoints of concern for environmental levels of PBDEs are likely to be thyroid hormone disruption, neurodevelopmental deficits and cancer. Unfortunately, the available toxicological evidence for these endpoints is surprisingly limited, given their widespread use, bioaccumulative potential, and structural similarity to thyroid hormones and polychlorinated biphenyls (PCBs). Available evidence suggests that the PBDE congeners likely to bioaccumulate (i.e., those observed in human tissues and other biota) have the propensity to disrupt thyroid hormones, cause neurobehavioral deficits and possibly cause cancer in laboratory animals. It is unclear whether current concentrations of PBDEs in human tissues would be expected to adversely impact human health. Since nearly all individuals are exposed to low levels of PBDEs, the potential health impacts also should include assessment at the population level. This paper summarizes the available toxicological evidence for PBDE-induced thyroid hormone disruption, neurodevelopmental deficits, and, for some congeners, cancer, and provides a perspective on the potential risks of the PBDEs for human health.

[1]  Eva Jakobsson,et al.  Flame retardant exposure: polybrominated diphenyl ethers in blood from Swedish workers. , 1999 .

[2]  B. Strandberg,et al.  Concentrations and spatial variations of polybrominated diphenyl ethers and other organohalogen compounds in Great Lakes air. , 2001, Environmental science & technology.

[3]  P. Caron,et al.  Urinary iodine excretion during normal pregnancy in healthy women living in the southwest of France: correlation with maternal thyroid parameters. , 1997, Thyroid : official journal of the American Thyroid Association.

[4]  M. Obregon,et al.  Is neuropsychological development related to maternal hypothyroidism or to maternal hypothyroxinemia? , 2000, The Journal of clinical endocrinology and metabolism.

[5]  J. J. Ryan,et al.  Determination of brominated diphenyl ethers (BDEs) and levels in Canadian human milks , 2000 .

[6]  P. Smyth,et al.  Maternal iodine status and thyroid volume during pregnancy: correlation with neonatal iodine intake. , 1997, The Journal of clinical endocrinology and metabolism.

[7]  H. Kay Environmental Health Criteria , 1980 .

[8]  J. McLachlan,et al.  Potential mechanisms of thyroid disruption in humans: interaction of organochlorine compounds with thyroid receptor, transthyretin, and thyroid-binding globulin. , 1999, Environmental health perspectives.

[9]  G. Schussler,et al.  Thyroxine-binding proteins. , 2000, Thyroid : official journal of the American Thyroid Association.

[10]  S. P. Porterfield,et al.  The role of thyroid hormones in prenatal and neonatal neurological development--current perspectives. , 1993, Endocrine reviews.

[11]  Eva Jakobsson,et al.  PBDE, 2,2',4,4'5-pentabromodiphenyl ether causes permanent neurotoxic effects during a defined period of neonatal brain development , 1999 .

[12]  D. Glinoer,et al.  The regulation of thyroid function in pregnancy: pathways of endocrine adaptation from physiology to pathology. , 1997, Endocrine reviews.

[13]  R. Jackson,et al.  Iodine nutrition in the United States. Trends and public health implications: iodine excretion data from National Health and Nutrition Examination Surveys I and III (1971-1974 and 1988-1994) , 1998, The Journal of clinical endocrinology and metabolism.

[14]  K M Crofton,et al.  Effects of short-term in vivo exposure to polybrominated diphenyl ethers on thyroid hormones and hepatic enzyme activities in weanling rats. , 2001, Toxicological sciences : an official journal of the Society of Toxicology.

[15]  I. Meerts,et al.  Potent competitive interactions of some brominated flame retardants and related compounds with human transthyretin in vitro. , 2000, Toxicological sciences : an official journal of the Society of Toxicology.

[16]  P. Eriksson Developmental neurotoxicity of environmental agents in the neonate. , 1997, Neurotoxicology.

[17]  I. Meerts,et al.  In vitro estrogenicity of polybrominated diphenyl ethers, hydroxylated PDBEs, and polybrominated bisphenol A compounds. , 2001, Environmental health perspectives.

[18]  T. Vartiainen,et al.  Polybrominated diphenyl ethers (PBDEs) in placenta and human milk , 2000 .

[19]  T. Helleday,et al.  Brominated flame retardants induce intragenic recombination in mammalian cells. , 1999, Mutation research.

[20]  W. Wiersinga,et al.  Low maternal free thyroxine concentrations during early pregnancy are associated with impaired psychomotor development in infancy , 1999, Clinical endocrinology.

[21]  M. Mitchell,et al.  Prevalence of thyroid deficiency in pregnant women , 1991, Clinical endocrinology.

[22]  L. Hardell,et al.  Concentrations of the flame retardant 2,2',4,4'-tetrabrominated diphenyl ether in human adipose tissue in Swedish persons and the risk for non-Hodgkin's lymphoma. , 1998, Oncology research.

[23]  I. Meerts,et al.  Polybrommated diphenyl ethers (PCDs) as Ah-receptor agonists and antagonists. , 1998 .

[24]  J. Dwyer,et al.  Too much versus too little: the implications of current iodine intake in the United States. , 2009, Nutrition reviews.

[25]  A Schmoldt,et al.  Induction of rat liver microsomal cytochrome P-450 by the pentabromo diphenyl ether Bromkal 70 and half-lives of its components in the adipose tissue. , 1990, Toxicology.

[26]  U. Orn,et al.  Metabolism of 2,2',4,4'-tetrabromodiphenyl ether in rat and mouse. , 1998, Xenobiotica; the fate of foreign compounds in biological systems.

[27]  M Schuhmacher,et al.  Polybrominated diphenyl ethers detected in human adipose tissue from Spain. , 1999, Chemosphere.

[28]  S. P. Porterfield Thyroidal dysfunction and environmental chemicals--potential impact on brain development. , 2000, Environmental health perspectives.

[29]  N. Kerkvliet,et al.  Immunologic and endocrine effects of the flame-retardant pentabromodiphenyl ether (DE-71) in C57BL/6J mice. , 1994, Toxicology.

[30]  A. Grimaldi,et al.  The effects of iodoprophylaxis on thyroid size during pregnancy. , 1991, American journal of obstetrics and gynecology.

[31]  I. Pessah,et al.  Symposium overview: toxicity of non-coplanar PCBs. , 1998, Toxicological sciences : an official journal of the Society of Toxicology.

[32]  H. Tilson,et al.  Increased [3H]phorbol ester binding in rat cerebellar granule cells and inhibition of 45Ca2+ sequestration in rat cerebellum by polychlorinated diphenyl ether congeners and analogs: structure-activity relationships. , 1996, Toxicology and Applied Pharmacology.

[33]  S. Waisbren,et al.  "Maternal Thyroid Deficiency During Pregnancy and Subsequent Neuropsychological Development of the Child" (1999), by James E. Haddow et al. , 2014 .

[34]  A. Bergman,et al.  Flame retardants in indoor air at an electronics recycling plant and at other work environments. , 2001, Environmental science & technology.

[35]  T. Visser,et al.  Interactions of Persistent Environmental Organohalogens With the Thyroid Hormone System: Mechanisms and Possible Consequences for Animal and Human Health , 1998, Toxicology and industrial health.

[36]  D. Rice,et al.  Critical periods of vulnerability for the developing nervous system: evidence from humans and animal models. , 2000, Environmental health perspectives.

[37]  R. Tatsukawa,et al.  Formation of brominated dibenzofurans from the photolysis of flame retardant decabromobiphenyl ether in hexane solution by UV and sun light , 1987, Bulletin of environmental contamination and toxicology.

[38]  Eva Jakobsson,et al.  Developmental neurotoxic effects of 2,2',4,4',5-pentabromodiphenyl ether (PBDE 99) in the neonatal mouse , 2000 .

[39]  Richard N. Hill,et al.  ASSESSMENT OF THYROID FOLLICULAR CELL TUMORS , 1998 .

[40]  Jianwen She,et al.  PBDEs in the San Francisco Bay Area: measurements in harbor seal blubber and human breast adipose tissue. , 2002, Chemosphere.

[41]  K. Norén,et al.  Certain organochlorine and organobromine contaminants in Swedish human milk in perspective of past 20-30 years. , 2000, Chemosphere.

[42]  C. A. Wit,et al.  Polybrominated diphenyl ethers (PBDE) in biological samples from the Swedish environment , 1993 .

[43]  D. Glinoer,et al.  Regulation of maternal thyroid during pregnancy. , 1990, The Journal of clinical endocrinology and metabolism.

[44]  D. Helm,et al.  The german environmental specimen bank : Application in trend monitoring of polybrominated diphenyl ethers in human blood , 2000 .

[45]  Lillemor Asplund,et al.  Organohalogen substances in muscle, egg and blood from healthy Baltic salmon (Salmo salar) and Baltic salmon that produced offspring with the M74 syndrome , 1999 .

[46]  K. Hooper,et al.  The PBDEs: an emerging environmental challenge and another reason for breast-milk monitoring programs. , 1999, Environmental health perspectives.

[47]  K. Crofton,et al.  PCBs, thyroid hormones, and ototoxicity in rats: cross-fostering experiments demonstrate the impact of postnatal lactation exposure. , 2000, Toxicological sciences : an official journal of the Society of Toxicology.

[48]  P. B. Larsen,et al.  Polybrominated diphenyl ethers: occurrence, dietary exposure, and toxicology. , 2001, Environmental health perspectives.

[49]  M. Ikonomou,et al.  TEMPORAL TRENDS OF POLYBROMINATED DIPHENYL ETHERS IN SE BAFFIN BELUGA: INCREASING EVIDENCE OF LONG RANGE ATMOSPHERIC TRANSPORT , 2000 .

[50]  G. Carlson,et al.  Induction of xenobiotic metabolism in rats by short-term administration of brominated diphenyl ethers. , 1980, Toxicology letters.

[51]  P. Laurberg,et al.  Amelioration of some pregnancy-associated variations in thyroid function by iodine supplementation. , 1993, The Journal of clinical endocrinology and metabolism.

[52]  C. F. Wilkinson,et al.  Thyroid follicular cell carcinogenesis. , 1989, Fundamental and applied toxicology : official journal of the Society of Toxicology.

[53]  G. Carlson,et al.  Induction of xenobiotic metabolism in rats by brominated diphenyl ethers administered for 90 days. , 1980, Toxicology letters.

[54]  Eva Jakobsson,et al.  Developmental neurotoxicity of brominated flame-retardants, polybrominated diphenyl ethers and tetrabromo-bis-phenol A , 1998 .

[55]  R. Peterson,et al.  Effects of gestational and lactational exposure to coplanar polychlorinated biphenyl (PCB) congeners or 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on thyroid hormone concentrations in weanling rats. , 1995, Toxicology letters.