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MALATHION 133 3. HEALTH EFFECTS treatment with malathion and there were no histopathologic changes in the thyroid in the treated animals (Ozmen and Akay 1993). The adrenal congestion reported in rats treated with malathion may be a nonspecific effect since hyperemia and petechial hemorrhages in some organs is not an uncommon finding following organophosphate intoxication. No such congestion was seen in the chronic studies with much larger doses (see below). Chronic-duration studies in rats have not observed treatment-related gross or microscopic lesions in endocrine glands or reproductive organs (NCI 1978, 1979a), although increased relative and absolute thyroid and parathyroid weights were seen in female rats administered 415 mg/kg/day of malathion (97.1% pure) in the diet for 2 years (Daly 1996a); the NOAEL was 35 mg/kg/day. Similar lack of gross or microscopic alterations in endocrine organs were reported in a chronic study in mice, but an increased incidence of cystic endometrial hyperplasia was seen in mice administered 1,490 mg/kg/day malathion (95% pure) for 80 weeks (NCI 1978). Studies in male rats have demonstrated that acute exposure to malathion (40 mg/kg/day) can produce transient testicular alterations such as a reduction in the number of Sertoli and Leydig cells (Krause 1977; Krause et al. 1976). A higher dose of 163 mg/kg/day of malathion (unspecified purity) damaged the seminiferous tubules and produced an abnormal pattern of Sertoli cells (Ojha et al. 1992). A considerably higher gavage dose of 1,950 mg/kg of malathion (95% pure) given once to 8-week-old male Wistar rats reduced the number of germinal layers and produced degeneration and necrosis of gonocytes in the seminiferous tubules during the first 3 days after dosing and it also caused systemic toxicity (Piramanayagam et al. 1996). Testicular effects were also reported in a 12-week study (Balasubramnian et al. 1987b). In general, these studies suffer from incomplete reporting of the results such that no firm conclusions can be drawn. Some studies have observed reduced number of implants in female rats at doses (500 mg/kg/day on Gd 6, 10, and 14) that also caused maternal toxicity (Prabhakaran et al. 1993), but no such effects were observed at even higher doses in another study in rats (800 mg/kg/day on Gd 6– 15) (Lochry 1989). No effects on implantation were reported in rabbits treated with up to 100 mg/kg/day (Gd 6–18), but 50 mg/kg/day increased the mean number and percent resorptions (Siglin 1985). Exposure of rats to 50 mg/kg/day malathion for periods that included mating and gestation had no significant effects on reproductive parameters (Lechner and Abdel-Rahman 1984), and no significant effects on reproductive performance or fertility indices were seen in a 2-generation study in rats (Schroeder 1990). Dermal exposure of rabbits to up to 1,000 mg/kg/day of malathion for 21 days did not induce significant changes in weight or gross or microscopical alterations in the ovaries, testes, or epididymis (Moreno 1989).
MALATHION 134 3. HEALTH EFFECTS Overall, the available studies do not suggest that malathion is an endocrine disruptor in humans or in animals. 3.7 CHILDREN’S SUSCEPTIBILITY This section discusses potential health effects from exposures during the period from conception to maturity at 18 years of age in humans, when all biological systems will have fully developed. Potential effects on offspring resulting from exposures of parental germ cells are considered, as well as any indirect effects on the fetus and neonate resulting from maternal exposure during gestation and lactation. Relevant animal and in vitro models are also discussed. Children are not small adults. They differ from adults in their exposures and may differ in their susceptibility to hazardous chemicals. Children’s unique physiology and behavior can influence the extent of their exposure. Exposures of children are discussed in Section 6.6 Exposures of Children. Children sometimes differ from adults in their susceptibility to hazardous chemicals, but whether there is a difference depends on the chemical (Guzelian et al. 1992; NRC 1993). Children may be more or less susceptible than adults to health effects, and the relationship may change with developmental age (Guzelian et al. 1992; NRC 1993). Vulnerability often depends on developmental stage. There are critical periods of structural and functional development during both prenatal and postnatal life and a particular structure or function will be most sensitive to disruption during its critical period(s). Damage may not be evident until a later stage of development. There are often differences in pharmacokinetics and metabolism between children and adults. For example, absorption may be different in neonates because of the immaturity of their gastrointestinal tract and their larger skin surface area in proportion to body weight (Morselli et al. 1980; NRC 1993); the gastrointestinal absorption of lead is greatest in infants and young children (Ziegler et al. 1978). Distribution of xenobiotics may be different; for example, infants have a larger proportion of their bodies as extracellular water and their brains and livers are proportionately larger (Altman and Dittmer 1974; Fomon 1966; Fomon et al. 1982; Owen and Brozek 1966; Widdowson and Dickerson 1964). The infant also has an immature blood-brain barrier (Adinolfi 1985; Johanson 1980) and probably an immature blood-testis barrier (Setchell and Waites 1975). Many xenobiotic metabolizing enzymes have distinctive developmental patterns. At various stages of growth and development, levels of particular enzymes may be higher or lower than those of adults, and sometimes unique enzymes may exist at particular developmental stages (Komori et al. 1990; Leeder and
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TOXICOLOGICAL PROFILE FOR MALATHION
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MALATHION iii UPDATE STATEMENT A To
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MALATHION viii Managing Hazardous M
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MALATHION xi PEER REVIEW A peer rev
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MALATHION xiv 3.2.3.2 Systemic Effe
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MALATHION xvii LIST OF FIGURES 3-1.
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MALATHION 1 1. PUBLIC HEALTH STATEM
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MALATHION 11 1. PUBLIC HEALTH STATE
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MALATHION 24 3. HEALTH EFFECTS oral
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a Key to figure 1 2 3 4 5 6 Species
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a Key to figure 67 68 69 70 Species
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a Key to figure 91 Species (Strain)
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a Key to figure 93 94 Species (Stra
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MALATHION 64 3.2.2.2 Systemic Effec
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MALATHION 66 3. HEALTH EFFECTS 1965
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MALATHION 187 6.3.2.1 Air 6. POTENT
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MALATHION 216 7. ANALYTICAL METHODS
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MALATHION 224 7.3.1 Identification
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MALATHION 226 8. REGULATIONS AND AD
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MALATHION 238 9. REFERENCES *Agency
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MALATHION 280 10. GLOSSARY Ceiling
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MALATHION 282 10. GLOSSARY Mutagen
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MALATHION 284 10. GLOSSARY Risk—T
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MALATHION A-2 APPENDIX A are not ex
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MALATHION A-4 APPENDIX A Was a conv
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MALATHION A-8 APPENDIX A If an inha
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MALATHION A-10 Uncertainty Factors
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MALATHION B-2 Interpretation of Min
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MALATHION B-4 APPENDIX B (8) NOAEL
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1 2 3 4 12 → → → → → Key
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MALATHION C-1 APPENDIX C. ACRONYMS,
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MALATHION C-3 APPENDIX C MFO mixed
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MALATHION C-5 > greater than $ grea
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