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Autism: Xenobiotic Influences

Environmental and Preventive Health Center of Atlanta Atlanta, Georgia

David S. Cantor

Psychological Sciences Institute, PC Atlanta, Georgia

The advances in medical technology during the last four decades has provided evidence for an underlying neurological basis for autism. The etiology for the variations of neurofunctional anomalies found in the autistic spectrum behaviors appears inconclusive as of this date but growing evidence supports the proposal that chronic exposure to toxic agents, i.e., xenobiotic agents, to a developing central nervous system may be the best model for defining the physiological and behavioral data found in these populations. A total of 20 subjects (15 males and 5 females) who received a formal diagnosis of autism by a developmental pediatrician, pediatric neurologist, or licensed psychologist were included.. The mean age for the sample was 635 yrs (range = 3-12 years). This study employed several measures that collectively would provide evidence of burden levels of xenobiotic agents and abnormal liver detoxication processes. These included: (1) Glucaric Acid Analysis, (2) blood analyses for identification of specific xenobiotic agents, and (3) Comprehensive Liver Detoxification Evaluation. Kolmogorov-Smirnov testing for a chi-square and Normal distribution for the Glucaric Acid findings indicates that each of these distributions is significantly different from expected distributions (p <.01). It is most noteworthy that of the 20 cases examined for this study, 100% of the cases showed liver detoxication profiles outside of normal. An examination of 18 autistic children in blood analyses that were available showed that 16 of these children showed evidence of levels of toxic chemicals exceeding adult maximum tolerance. In the two cases where toxic chemical levels were not found, there was abnormal D-glucaric acid findings suggesting abnormal xenobiotic influences on liver detoxication processes. A proposed mechanism for the interaction of xenobiotic toxins with immune system dysfunction and continuous and/or progressive endogenous toxicity is presented as it relates to the development of behaviors found in the autistic spectrum.

Key Words: 2. Key words: autism • brain dysfunction • detoxication • neurotoxicity • xenobiotic.

Toxicology and Industrial Health, Vol. 14, No. 4, 553-563 (1998)
DOI: 10.1177/074823379801400406


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