Abstract
The transport of mercury into rat milk, and uptake in the suckling offspring was studied after peroral administration of inorganic mercury to lactating control rats, and to rats fed selenite in the diet. On day 8, 9, 10, or 11 of lactation, dams were administered a single oral dose of 0.1, 0.4, 0.7, 1.3, or 5.8 mg Hg/kg bw labeled with203mercuric acetate. There was a linear relationship between mercury concentrations in dam's plasma and milk. The level of mercury in milk was approximately 25% of the level in plasma. After 3 d, milk levels were reduced to half the levels at 24 h. In the suckling off-spring, exposed to mercury via milk during 3 d, the mercury level in blood was approximately 1% of the level in maternal blood. Mercury concentration in milk was linearly correlated to the levels in kidney, liver, and brain in the suckling offspring after 3 d exposure to mercury via milk. Selenite treatment of rats, 1.3 μg Se/g diet for 5 mo, resulted in increased transport of mercury to milk, probably because of increased plasma levels of mercury. However, selenite treatment of the dams did not cause any increased tissue levels of mercury in the suckling offspring.
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References
T. W. Clarkson, G. F. Nordberg, and P. R. Sager,Scand. J. Environ. Health. 11, 145–154 (1985).
WHO, World Health Organization: Environmental Health Criteria 1,Mercury, Geneva, 1976.
L. Amin-Zaki, S. Elhassani, M. A. Majeed, T. W. Clarkson, R. A. Doherty, M. R. Greenwood, and T. Giovanoli-Jakubczak,Am. J. Dis. Child 130, 1070–1076 (1976).
S. Skerfving,Bull. Environ. Contam. Toxicol. 41, 475–482 (1988).
K. Kostial, inReproductive and Developmental Toxicity of Metals, T. W. Clarkson, G. F. Nordberg, and P. R. Sager, eds., Plenum Press, New York and London, 1983, pp. 727–744.
D. J. Thomas and J. C. Smith,Toxicol. Appl. Pharmacol. 48, 43–47 (1979).
L. Magos and M. Webb,CRC Crit. Rev. Toxicol. 8, 1–42 (1980).
J. Parizek, I. Benes, I. Ostadalova, A. Babicky, J. Benes, and J. Pitha, inMIneral Metabolism in Paediatrics, D. Barltrop and W. L. Burland, eds., 1969, pp. 117–134.
A. Oskarsson,Toxicol. Lett. 36, 73–79 (1987).
S. Jugo,Health Phys. 30, 240, 241 (1976).
I. R. Rowland, R. D. Robinson, R. A. Doherty, and T. D. Landry, inReproductive and Developmental Toxicity of Metals, T. W. Clarkson, G. F. Nordberg, and P. R. Sager, eds., Plenum Press, New York and London, 1983, pp. 745–758.
P. Eriksson and P. O. Darnerud,Toxicology 37, 189–203 (1985).
A. N. Davison and J. Dobbing, inApplied Neurochemistry, A. N. Davison and J. Dobbing, eds., Blackwell Scientific Publications, Oxford and Edinburgh, 1968, pp. 253–282.
M. M. Mansour, N. C. Dyer, L. H. Hoffman, A. R. Schulert, and A. B. Brill,Environ. Res. 6, 479–484 (1973).
M. Berlin and S. Ullberg,Arch. Environ. Health. 6, 589–601 (1963).
S. M. Howe, J. McGee, and F. W. Lengemann,Nature 237, 516–518 (1972).
M. Cikrt and V. Bencko,Toxicol. Lett. 48, 159–164 (1989).
J. C. Hansen, Med. Hypotheses25, 45–53 (1988).
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Sundberg, J., Oskarsson, A. & Bergman, K. Milk transfer of inorganic mercury to suckling rats. Biol Trace Elem Res 28, 27–38 (1991). https://doi.org/10.1007/BF02990460
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DOI: https://doi.org/10.1007/BF02990460