It has been said that people with autism suffer from a lack of "central coherence," the cognitive ability to bind together a jumble of separate features into a single, coherent object or concept (Frith, 1989). Ironically, the same can be said of the field of autism research, which all too often seems a fragmented tapestry stitched from differing analytical threads and theoretical patterns. Defined and diagnosed by purely behavioral criteria, autism was first described and investigated using the tools of behavioral psychology. More recent years have added brain anatomy and physiology, genetics, and biochemistry, but results from these new domains have not been fully integrated with what is known about autistic behavior. The unification of these many levels of analysis will not only provide therapeutic targets for prevention and remediation of autism but can also provide a test case for theories of normal brain and cognitive development. Autism research therefore has much to learn from and much to offer to the broader neuroscience community.
Clinical featuresClinically, autism is defined by a "triad" of deficits comprising impaired social interaction, impaired communication, restricted interests, and repetitive behaviors. Although in some cases speech never develops fully or never develops at all, in other cases, speech may be present but so inflexible and unresponsive to context that it is unusable in normally paced conversation; often, speech is limited to echolalia or confined to narrow topics of expertise in which discourse can proceed without conversational interplay. The communicative impairment extends also to nonverbal signals such as gaze, facial expression, and gesture. Social behaviors, too, are beset by a lack of flexibility and rapid coordination: children with autism do not coordinate attention between objects of mutual interest and the other people who may be interested in them, often engage in "parallel play" at the edge of a group rather than joining in cooperative play, and do not engage in pretend play. Intense and narrowly focused interests tend to concentrate on systems (Baron-Cohen, 2002) that operate deterministically and repeatably according to tractable sets of rules, whether these are abstract and complex systems such as computers or roleplaying games or very concrete and simple systems such as toilets or washing machines. Critical to identifying the causal factors of autism, and key to its relevance to normal development, is the recognition that autism is actually the extreme of a spectrum of abnormalities. Milder phenotypes on this spectrum include Asperger syndrome (Wing, 1981) in which language is relatively unimpaired, and the "Broader Autism Phenotype" in which characteristic cognitive traits are present subclinically . The combination of this broad variation of phenotypes and a 60 -90% concordance rate in identical twins suggests a large number of genetic and environmental biasing factors (Muhle et al., 2004).
A basis in neural connectivity?In addition to the central coherence par...
