Cognitive deficit in 7-year-old children with prenatal exposure to methylmercury.
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Roberta F. White | P Grandjean | K Murata | P. Grandjean | P. Grandjean | K. Murata | S. Araki | K. Yokoyama | P. Weihe | R. White | F. Debes | K. Murata | N. Sørensen | R. Dahl | P. Jørgensen | Poul J. Jørgensen | N Sørensen | P Weihe | R F White | K Yokoyama | S Araki | P J Jørgensen | F Debes | R Dahl | Nicolina Sørensen | Rasmus Dahl
[1] K. Murata,et al. Subclinical vestibulo-cerebellar, anterior cerebellar lobe and spinocerebellar effects in lead workers in relation to concurrent and past exposure. , 1997, Neurotoxicology.
[2] R. Letz,et al. Feasibility and validity of three computer-assisted neurobehavioral tests in 7-year-old children. , 1996, Neurotoxicology and teratology.
[3] E. Storr-hansen. Analysis of chlorinated biphenyl congeners in human umbilical cord : Some approaches in the development and performance evaluation of an analytical method , 1996 .
[4] P. Grandjean,et al. Relation of a seafood diet to mercury, selenium, arsenic, and polychlorinated biphenyl and other organochlorine concentrations in human milk. , 1995, Environmental research.
[5] C Cox,et al. Longitudinal neurodevelopmental study of Seychellois children following in utero exposure to methylmercury from maternal fish ingestion: outcomes at 19 and 29 months. , 1995, Neurotoxicology.
[6] Roberta F. White,et al. Milestone development in infants exposed to methylmercury from human milk. , 1995, Neurotoxicology.
[7] A. Choi,et al. Neurodevelopmental outcomes of Seychellois children sixty-six months after in utero exposure to methylmercury from a maternal fish diet: pilot study. , 1995, Neurotoxicology.
[8] K. Murata,et al. Application of neurophysiological methods in occupational medicine in relation to psychological performance. , 1994, Annals of the Academy of Medicine, Singapore.
[9] K. Haaland,et al. Methylmercury poisoning: Long‐term clinical, radiological, toxicological, and pathological studies of an affected family , 1994, Annals of neurology.
[10] C. Dalgård,et al. Mercury in the Umbilical Cord: Implications for Risk Assessment for Minamata Disease. , 1994, Environmental health perspectives.
[11] P. Grandjean,et al. Frequency of seafood intake in pregnancy as a determinant of birth weight: evidence for a dose dependent relationship. , 1993, Journal of epidemiology and community health.
[12] A. Igata. Epidemiological and clinical features of Minamata disease , 1993 .
[13] K. Murata,et al. Determination of evoked potentials in occupational and environmental medicine: a review. , 1993, Environmental research.
[14] Roberta F. White,et al. Residual cognitive deficits 50 years after lead poisoning during childhood. , 1993, British journal of industrial medicine.
[15] A. Stern. Re-evaluation of the reference dose for methylmercury and assessment of current exposure levels. , 1993, Risk analysis : an official publication of the Society for Risk Analysis.
[16] P. Grandjean,et al. Neurobehavioral effects of intrauterine mercury exposure: potential sources of bias. , 1993, Environmental research.
[17] E. Birch,et al. Breast-feeding and optimal visual development. , 1993, Journal of pediatric ophthalmology and strabismus.
[18] P. Grandjean,et al. Reference intervals for trace elements in blood: significance of risk factors. , 1992, Scandinavian journal of clinical and laboratory investigation.
[19] P Grandjean,et al. Impact of maternal seafood diet on fetal exposure to mercury, selenium, and lead. , 1992, Archives of environmental health.
[20] Y. Takizawa,et al. A fetal type of Minamata disease. An autopsy case report with special reference to the nervous system. , 1992, Molecular and chemical neuropathology.
[21] B. Gladen,et al. Effects of perinatal polychlorinated biphenyls and dichlorodiphenyl dichloroethene on later development. , 1991, The Journal of pediatrics.
[22] R. Keith,et al. Lead effects on postural balance of children. , 1990, Environmental health perspectives.
[23] J. Jacobson,et al. Effects of in utero exposure to polychlorinated biphenyls and related contaminants on cognitive functioning in young children. , 1990, The Journal of pediatrics.
[24] L. Needham,et al. Use of reference pools to compare the qualitative and quantitative determination of polychlorinated biphenyls by packed and capillary gas chromatography with electron capture detection. Part 1. Serum. , 1990, The Analyst.
[25] B. H. Choi. The effects of methylmercury on the developing brain , 1989, Progress in Neurobiology.
[26] T W Clarkson,et al. Dose-response analysis of infants prenatally exposed to methyl mercury: an application of a single compartment model to single-strand hair analysis. , 1989, Environmental research.
[27] G. Pascal,et al. Polyunsaturated Fatty Acids of the n-3 Serie and Nervous System Development , 1989 .
[28] P. Grandjean,et al. Neurological deficits in children: medical risk factors and lead exposure. , 1988, Neurotoxicology and teratology.
[29] Tsuguyoshi Suzuki. Hair and Nails: Advantages and Pitfalls when used in Biological Monitoring , 1988 .
[30] G. Nordberg,et al. Biological Monitoring of Toxic Metals , 1988, Rochester Series on Environmental Toxicity.
[31] T. Kjellstrom,et al. Physical and mental development of children with prenatal exposure to mercury from fish , 1986 .
[32] A P Ginsburg,et al. A New Contrast Sensitivity Vision Test Chart , 1984, American journal of optometry and physiological optics.
[33] Mm. Liabre. Standard Progressive Matrices , 1984 .
[34] E. Kaplan,et al. The Boston naming test , 2001 .
[35] J. Ruedy,et al. Methyl mercury exposure in northern Quebec. II. Neurologic findings in children. , 1983, American journal of epidemiology.
[36] H. Tokuomi,et al. Minamata disease (organic mercury poisoning) , 1982, Neurology.
[37] H. Olsson,et al. Sex ratio in offspring of patients with non-Hodgkin lymphoma. , 1982, The New England journal of medicine.
[38] W. G. Cochran,et al. Controlling Bias in Observational Studies: A Review. , 1974 .
[39] T Takeuchi,et al. FETAL MINAMATA DISEASE: A NEUROPATHOLOGICAL STUDY OF TWO CASES OF INTRAUTERINE INTOXICATION BY A METHYL MERCURY COMPOUND , 1965, Journal of neuropathology and experimental neurology.
[40] L. Kurland,et al. Minamata disease. The outbreak of a neurologic disorder in Minamata, Japan, and its relationship to the ingestion of seafood contaminated by mercuric compounds. , 1960, World neurology.
[41] W. C. Halstead. Brain and intelligence , 1947 .