Autism and the environment.Speculation that the environment plays a role in the development of autism autism (ô`tĭzəm), developmental disability resulting from a neurological disorder that affects the normal functioning of the brain. It is characterized by the abnormal development of communication skills, social skills, and reasoning. primarily comes from two observations: a) although concordance concordance /con·cor·dance/ (-kord´ins) in genetics, the occurrence of a given trait in both members of a twin pair.concor´dant con·cor·dance n. among monozygotic twins monozygotic twins Identical twins Twins resulting from the division of a single fertilized egg, which usually share a common chorion and placenta; usually each has a separate amnion. Cf Fraternal twins. is high, it is not perfect, and a specific "autism gene" or set of genes has not yet been identified; and b) the prevalence of autism is higher than previously thought--if it is rising, the rise might be associated with a shift in the environment. Autism is a complex neurodevelopmental disorder defined by impaired social interaction, communication deficits, restricted interests, and repetitive behavioral patterns. These traits can range from mild to very severe, and may be accompanied by cognitive impairment and other comorbidities. The autism spectrum disorder (ASD ASD abbr. atrial septal defect ASD Atrial septal defect, see there ) classification includes three disorders: autistic disorder Autistic disorder A severe neuropsychiatric disorder of early childhood onset, historically regarded as a psychosis of childhood but now classified as a pervasive developmental disorder. , Asperger disorder Asperger disorder Pediatric psychiatry A neurobiological condition characterized by autistic-like behaviors with severe defects in social and communication skills, which may be coupled with high intelligence and hyperfocusing on one particular area of interest , and pervasive developmental disorder per·va·sive developmental disorder n. Any of several disorders, such as autism and Asperger's syndrome, characterized by severe deficits in many areas of development, including social interaction and communication, or by the presence of repetitive, not-otherwise-specified; however, there is no evidence that these diagnostic labels represent etiologically homogeneous groups. The high concordance rates among monozygotic twins and recurrence in families support a strong genetic contribution to ASDs (Bailey et al. 1995; Folstein et al. 1977; Ritvo et al. 1985; Steffenburg et al. 1989). There is also a growing acceptance that subtle autism-like traits, such as atypical communication and aloof personality style, more commonly cluster in the nonautistic family members of individuals with autism than in the general population (Murphy 2000). The segregation of the milder traits in family members may indicate the presence of some, but not all, of the factors (genetic or environmental) necessary to develop an ASD. To date, no specific genes or combination of genes have been consistently associated with autism. Discrepancies in gene-discovery studies might be, in part, because ASDs result from a variety of gene-gene and gene-environment combinations. Despite the lack of a specific genetic mechanism, most researchers agree that the etiology of autism is heterogeneous and polygenetic pol·y·gen·et·ic adj. 1. Of or relating to polygenesis; polyphyletic. 2. Having more than one source or origin. , and for some susceptible individuals, might involve environmental triggers. Much of the concern surrounding environmental factors and autism comes from the perception that the prevalence of autism is increasing. There has clearly been a rise in the number of individuals who are actually diagnosed with an ASD; however, there are few systematically collected data in the same population over time that can be used to evaluate true prevalence rate trends (Fombonne 2003; Rutter 2005). Many factors could contribute to increases in prevalence estimates over time, including changes in diagnostic criteria, increasing availability of specialized diagnostic tools, improved case ascertainment, and true changes in the prevalence. Real shifts in prevalence could result from environmental changes. Systematically monitoring temporal ASD prevalence trends in the same population over time is a necessary step to identifying true changes in prevalence. However, ecologic associations between environmental changes and rising autism rates are not sufficient to infer causation for such a complex disorder. It is unlikely that one or even a few specific environmental agents are responsible for the majority of ASDs. It is more likely that some individuals have enhanced susceptibility to insults from the environment that may, in combination with their genetic predisposition genetic predisposition Molecular medicine The tendency to suffer from certain genetic diseases–eg, Huntington's disease, or inherit certain skills–eg, musical talent , lead to autism. It is rarely possible to distinguish these complex relationships by simply evaluating trends in the general population. The much publicized concern over vaccines and autism has primarily been based on such ecologic trends. More rigorous studies evaluating vaccine-related hypotheses are needed to incorporate individual-level exposure data, account for alternate exposures to metals, and evaluate susceptible subgroups of the population. However, attention should also be given to other environmental hypotheses. Other environmental exposures found to be associated with autism include thalidomide thalidomide (thəlĭd`əmĭd'), sleep-inducing drug found to produce skeletal defects in developing fetuses. The drug was marketed in Europe, especially in West Germany and Britain, from 1957 to 1961, and was thought to be so safe that , valproic acid valproic acid /val·pro·ic ac·id/ (-ik) an anticonvulsant used particularly for the control of absence seizures. val·pro·ic acid n. An anticonvulsive drug used to treat seizure disorders. , and infections such as rubella rubella or German measles, acute infectious disease of children and young adults. It is caused by a filterable virus that is spread by droplet spray from the respiratory tract of an infected individual. (Arndt et al. 2005; Chess 1971). These relatively rare exposures have been evaluated in small studies that have reported subtle effects. Yet, such findings support the plausibility that exposure to an environmental agent during a critical window of development can be associated with development of an ASD. The characteristic traits of autism are rarely distinguished before 2-3 years of age, but the cascade of events that leads to autism probably occurs much earlier, most likely during early gestation. Research focused on environmental exposures during critical periods of neurodevelopment should be prioritized. Little is currently known about the etiology of autism, except that it is complex and multifactorial multifactorial /mul·ti·fac·to·ri·al/ (mul?te-fak-tor´e-al) 1. of or pertaining to, or arising through the action of many factors. 2. . The interaction between genetic and nongenetic factors during critical periods of neurodevelopment warrants further investigation. Until specific susceptibility genes are discovered, the identification of environmental risk factors that primarily affect susceptible subgroups may require us to refine ASD subgroup classifications using specific phenotypic patterns or the clustering of ASDs in families. Given the complexity of autism, we will not find a magic bullet (jargon) magic bullet - (Or "silver bullet" from vampire legends) A term widely used in software engineering for a supposed quick, simple cure for some problem. E.g. "There's no silver bullet for this problem". (genetic or environmental) to blame for most cases. There are probably many combinations of genes and environmental factors that contribute to the constellation of autistic autistic /au·tis·tic/ (aw-tis´tik) characterized by or pertaining to autism. traits. Future investigations of hypotheses involving environmental exposures need to carefully characterize cases, improve exposure assessment, focus on critical windows of neurodevelopment, and ensure sufficient power to conduct subgroup analyses and assess interactions. These considerations have been accommodated in a few well-planned epidemiologic studies that are, or soon will be, in progress. As we await advances in genetic and behavioral research, these studies offer hope for advancing our understanding of the potential role environmental factors play in the development of autism. The author declares she has no competing financial interests. Julie L. Daniels University of North Carolina School of Public Health Chapel Hill, North Carolina Chapel Hill is a town in North Carolina and the home of the University of North Carolina at Chapel Hill (UNC-CH), the oldest state-supported university in the United States. As of the 2000 census, it had a population of 48,715. As of 2004 its estimated population was 52,440. E-mail: juliedaniels@unc.edu Julie L. Daniels is an assistant professor of epidemiology and maternal and child health at the University of North Carolina School of Public Health. She directs the North Carolina Center for Autism and Developmental Disabilities Research and Epidemiology, funded by the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. . Her research focuses on perinatal environmental exposures that affect infant/child health and development. REFERENCES Arndt TL, Stodgell CJ, Rodier PM. 2005. The teratology teratology /ter·a·tol·o·gy/ (ter?ah-tol´ah-je) that division of embryology and pathology dealing with abnormal development and the production of congenital anomalies.teratolog´ic ter·a·tol·o·gy n. of autism. Int J Dev Neurosci 23:189-99. Bailey A, Le Couteur A, Gottesman I, Bolton P, Simonoff E, Yuzda E, et al. 1995. Autism as a strongly genetic disorder: evidence from a British twin study. Psychol Med 25:63-77. Chess S. 1971. Autism in children with congenital rubella. J Autism Child Schizophr 1:33-47. Folstein S, Rutter M. 1977. Infantile autism: a genetic study of 21 twin pairs. J Child Psychol Psychiatry 18:297-321. Murphy M, Bolton PF, Pickles A, Fombonne E, Piven J, Rutter M. 2000. Personality traits of the relatives of autistic probands Proband is a term used most often in medical genetics and other medical fields to denote a particular subject (person or animal) being studied or reported on. On pedigrees, the proband is noted with an arrow and the box (male) or circle (female) shaded accordingly. . Psychol Med 30(6):1411-24. Ritvo ER, Freeman BJ, Mason-Brothers A, Mo A, Ritvo AM. 1985. Concordance for the syndrome of autism in 40 pairs of afflicted twins. Am J Psychiatry 142:74-77. Rutter M. 2005. Incidence of autism spectrum disorders: changes over time and their meaning. Acta Paediatr 94(1):2-15. Steffenburg S, Gillberg C, Hellgren L, Andersson L, Gillberg IC, Jakobsson G, et al. 1989. A twin study of autism in Denmark, Finland, Iceland, Norway and Sweden. J Child Psychol Psychiatry 30:405-416. |
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