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EXTOXNET PIP-DDT Page 2 of 6 <br /> with increased absorption in the presence of fats (73). One-time administration of DDT to rats at doses of 50 <br /> mg/kg led to decreased thyroid function and a single dose of 150 mg/kg led to increased blood levels of liver- <br /> produced enzymes and changes in the cellular chemistry in the central nervous system of monkeys (73). Single <br /> doses of 50-160 mg/kg produced tremors in rats, and single doses of 160 mg/kg produced hind leg paralysis in <br /> guinea pigs (73). Mice suffered convulsions following a one-time oral dose of 200 mg/kg. Single administrations <br /> of low doses to developing 10-day old mice are reported to have caused subtle effects on their neurological <br /> development(73). DDT is slightly to practically non-toxic to test animals via the dermal route, with reported <br /> dermal LD50s of 2,500-3,000 mg/kg in female rats (79, 73), 1000 in guinea pigs(73)and 300 in rabbits (73). It <br /> is not readily absorbed through the skin unless it is in solution(73). It is thought that inhalation exposure to DDT <br /> will not result in significant absorption through the lung alveoli (tiny gas-exchange sacs) but rather that it is <br /> probably trapped in mucous secretions and swallowed by exposed individuals following the tracheo-bronchial <br /> clearance of secretions by the cilia(73). Acute effects likely in humans due to low to moderate exposure may <br /> include nausea, diarrhea, increased liver enzyme activity, irritation(of the eyes,nose or throat), disturbed gait, <br /> malaise and excitability; at higher doses,tremors and convulsions are possible (73, 76). While adults appear to <br /> tolerate moderate to high ingested doses of up to 280 mg/kg, a case of fatal poisoning was seen in a child who <br /> ingested one ounce of a 5% DDT:kerosene solution (73). <br /> • Chronic Toxicity: DDT has caused chronic effects on the nervous system, liver, kidneys,and immune systems in <br /> experimental animals (73, 74). Effects on the nervous system observed in test animals include: tremors in rats at <br /> doses of 16-32 mg/kg/day over 26 weeks; tremors in mice at doses of 6.5-13mg/kg/day over 80.140 weeks; <br /> changes in cellular chemistry in the central nervous system of monkeys at doses of 10 mg/kg/day over 100 days, <br /> and loss of equilibrium in monkeys at doses of 50 mg/kg/day for up to 6 months (73). The main effect on the <br /> liver seen in animal studies was localized liver damage. This effect was seen in rats given 3.75 mg/kg/day over <br /> 36 weeks, rats exposed to 5 mg/kg/day over 2 years and dogs at doses of 80 mg/kg/day over the course of 39 <br /> months (73). In many cases lower doses produced subtle changes in liver cell physiology, and in some cases <br /> higher doses produced more severe effects (73). In mice doses of 8.33 mg/kg/day over 28 days caused increased <br /> liver weight and increased liver enzyme activity (73). Liver enzymes are commonly involved in detoxification of <br /> foreign compounds, so it is unclear whether increased liver enzyme activity in itself would constitute an adverse <br /> effect. In some species (monkeys and hamsters), doses as high as 8-20 mg/kg/day caused no observed adverse <br /> effects over exposure periods as long as 3.5-7 years(73). Kidney effects observed in animal studies include <br /> adrenal gland hemorrhage in dogs at doses of 138.5 mg/kg/day over 10 days and adrenal gland damage at 50 <br /> mg/kg day over 150 days in dogs (73). Kidney damage was also seen in rats at doses of 10 mg/kg/day over 27 <br /> months (73). Immunological effects observed in test animals include: reduced antibody formation in mice <br /> following administration of 13 mg/kg/day for 3-12 weeks and reduced levels of immune cells in rats at doses of 1 <br /> mg/kg/day (73). No immune system effects were observed in mice at doses of 6.5 mg/kg/day for 3-12 weeks <br /> (73). Dose levels at which effects were observed in test animals are very much higher than those which may be <br /> typically encountered by humans (74). The most significant source of exposure to individuals in the United <br /> States is occupational, occurring only to those who work or worked in the production or formulation of DDT <br /> products for export(75). Analysis of U. S. market basket surveys showed approximately a 30-fold decrease in <br /> detected levels of DDT and metabolites in foodstuffs from 1969-1974, and another threefold drop from 1975- <br /> 1981, with a final estimated daily dose of approximately 0.002 mg/person/day (73). Based on a standard 70-kg <br /> person, this results in a daily intake of approximately 0.00003 mg/kg/day. Due to the persistence of DDT and its <br /> metabolites in the environment,very low levels may continue to be detected in foodstuffs grown in some areas of <br /> prior use (73). It has been suggested that, depending on patterns of international DDT use and trade, it is possible <br /> that dietary exposure levels may actually increase over time (73). Persons eating fish contaminated with DDT or <br /> metabolites may also be exposed via bioaccumulation of the compound in fish(73). Even though current dietary <br /> levels are quite low, past and current exposures may result in measurable body burdens due to its persistence in <br /> the body (73). More information on the metabolism and storage of DDT and its metabolites in mammalian <br /> systems is provided below(Fate in Humans and Animals). Adverse effects on the liver, kidney and immune <br /> system due to DDT exposure have not been demonstrated in humans in any of the studies which have been <br /> conducted to date (73). <br /> • Reproductive Effects: There is evidence that DDT causes reproductive effects in test animals.No reproductive <br /> effects were observed in rats at doses of 38 mg/kg/day administered at days 15-19 of gestation(73). In another <br /> study in rats, oral doses of 7.5 mg/kg/day for 36 weeks resulted in sterility (73). In rabbits, doses of 1 mg/kg/day <br />