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Smith IE, Coles CD. Multilevel intervention for prevention of fetal alcohol syndrome and effects of prenatal alcohol exposure. Recent Developments in Alcoholism, Vol. 9. Galanter M., (ed.) New York: Plenum, 1991:165-180. Streissguth AP, Clarren SK, Jones KL. Natural history of the fetal alcohol syndrome. A 10-year follow-up of eleven patients. Lancet 1985; 2:85-92. Streissguth AP, Dehaene P. Fetal alcohol syndrome in twins of alcoholic mothers: Concordance of diagnosis and IQ. American Journal of Medical Genetics 1993; 47:857-861. Stuckey E, Berry CL. The effects of high dose sporadic (binge) alcohol intake in mice. Journal of Pathology 1984; 142:175-180. Sulik KK, Johnston MC, Webb MA. Fetal alcohol syndrome: Embryogenesis in a mouse model. Science 1981; 214:936-938. Sulik KK, Lauder JM, Dehart DB. Brain malformations in prenatal mice following acute maternal ethanoladinistration. International Journal of Developmental Neuroscience 1984; 2:203-214. Tilson HA, Jacobson JL, Rogan WJ. Polychlorinated biphenyls and the developing nervous system: Cross-species comparisons. Neurotoxicology and Teratology 1990; 12:239-248. U.S. Department of Health and Human Services. Alcohol and Health [Eighth Special Report to the U.S. Congress]. Washington, DC: U.S. Department of Health and Human Services, 1993. Vorhees CV. Principles of behavioral teratology. Handbook of Behavioral Teratology. E. P. Riley and C. V. Vorhees, (eds.). New York: Plenum Press, 1986. Wainwright PE, Huang YS, Simmons V, Ward RP, Ward GR, Winfield D et al. Effects of prenatal ethanol and long-chain n-e fatty acid supplementation on development in mice. 2. Fatty acid composition of brain membrane phospholipids. Alcoholism: Clinical and Experimental Research 1990a; 14:413-420. Wainwright PE, Ward GR, Winfield D, Huang YS, Mills DE, Ward RP et al. Effects of prenatal ethanol and long-chain n-3 fatty acid supplementation on development in mice. 1. Body and brain growth, sensorimotor development, and water T-Maze reversal learning. Alcoholism: Clinical and Experimental Research 1990b; 14:405-412. Webster WS, Germain MA, Lipson A, Walsh D. Alcohol and congenital heart defects: An experimental study in mice. Cardiovascular Research 1984; 18:335-338. Webster WS, Walsh DA, McEwen SE, Lipson AH. Some teratogenic properties of ethanol and acetaldehyde in implications for the study of the fetal alcohol syndrome teratology. Teratology 1983; 27:231-243. Webster WS, Walsh DA, Lipson AH, McEwen SE. Teratogenesis after acute alcohol exposure in inbred and outbred mice. Neurobehavioral Toxicology 1980; 2:227-234. Weinberg J, Kim CK, Yu W. Early handling can attenuate adverse effects of fetal ethanol exposure. Alcohol 1995, in press. West JR. Fetal alcohol-induced brain damage and the problem of determining temporal vulnerability: A review. Alcohol and Drug Research 1987; 7:423-441. West JR, Hamre KM. Effects of alcohol exposure during different periods of development: Changes in hippocampal mossy fibers. Developments in Brain Research 1985; 17:280-284. West JR, Goodlett CR, Bonthius DJ, Hamre KM, Marcussen BL. Cell population depletion associated with fetal alcohol brain damage: Mechanisms of BAC-dependent cell loss. Alcoholism: Clinical and Experimental Research 1990; 14:813-818. Wilson JG. Environment and Birth Defects. New York: Academic Press, 1973.
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