(PSYCHIATRIC TIMES) - In recent years, a number of researchers have suggested schizophrenia be viewed as a disorder of brain connectivity (e.g., Andreasen, 2000; Crow, 1998; Friston and Frith, 1995; Selemon and Goldman-Rakic, 1999). This view is intuitively appealing, as schizophrenia was conceptualized by Bleuler (1950) as a "splitting of the psychic functions" in which aspects of thought and personality were disintegrated.
In this article, we will review recent research on neural circuit function in schizophrenia using γ-band (30 Hz to 100 Hz) oscillations in the electroencephalogram as a probe. It should be appreciated that the neural circuits discussed here are not the "macro" circuits or major fiber tracts, but rather they are the elementary neural circuits of a neuron projecting to other regions and its interaction with inhibitory neurons.
Neural Synchrony in the Gamma Band
The nature of neural coding has been the subject of intense research in neuroscience since the publication of Gray et al.'s (1989) classic paper. These researchers suggested that synchronous neuronal firing might serve as a mechanism whereby individual stimulus features could be bound together into coherent representations of complex objects. An important corollary finding was that neural synchrony was often accompanied by high-frequency oscillations in the γ band, often near 40 Hz (Eckhorn et al., 1988; Gray and Singer, 1989).
Since these initial reports, evidence for neural synchrony in the γ band has been found not just in perception but in diverse processes such as working memory (Pesaran et al., 2002), selective attention (Fries et al., 2001) and motor control (Schoffelen et al., 2005). Current views propose that neural synchrony is a general mechanism for dynamically linking together cells coding related pieces of information into assemblies (Singer, 1999).
Neural synchrony cannot be directly studied noninvasively, so it is inferred from particular patterns of neural activity measured in the scalp-recorded EEG. A growing number of studies have provided evidence of neural synchrony in humans (Tallon-Baudry and Bertrand, 1999; Varela et al., 2001). Evidence for γ-band neural synchrony has been reported in perception, attention and working memory tasks, among others.
Neural Circuitry Abnormalities in Schizophrenia
Research into the neural mechanisms of synchrony has demonstrated that inhibitory interneurons are critical elements in the synchronization of networks of neurons (Whittington and Traub, 2003). Pyramidal cells drive oscillations among inhibitory interneurons, which in turn modulate the firing rates of pyramidal cells, leading to a synchronized γ-band oscillation in the whole network.
A possible link between neural synchrony and schizophrenia has been suggested by postmortem studies of the brains of people with schizophrenia. These studies have found abnormalities in the morphology and distribution of certain types of neurons in schizophrenia, particularly inhibitory interneurons (Benes and Berretta, 2001; Lewis et al., 2005).
A number of neural circuitry models have postulated a deficit in recurrent inhibition, either from a loss of interneurons, a blockade of the excitatory input onto interneurons or an abnormality of modulation of interneurons. All of these models may produce abnormalities in γ oscillations.
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