Disrupted third visual pathway function in schizophrenia: Evidence from real and implied motion processing.

Impaired motion perception in schizophrenia has been associated with deficits in social-cognitive processes and with reduced activation of visual sensory regions, including the middle temporal area (MT+) and posterior superior temporal sulcus (pSTS). These findings are consistent with the recent proposal of the existence of a specific 'third visual pathway' specialized for social perception in which motion is a fundamental component. The third visual pathway transmits visual information from early sensory visual processing areas to the STS, with MT+ acting as a critical intermediary. We used functional magnetic resonance imaging to investigate functioning of this pathway during processing of naturalistic videos with explicit (real) motion and static images with implied motion cues. These measures were related to face emotion recognition and motion-perception, as measured behaviorally. Participants were 28 individuals with schizophrenia (Sz) and 20 neurotypical controls. Compared to controls, individuals with Sz showed reduced activation of third visual pathway regions (MT+, pSTS) in response to both real- and implied-motion stimuli. Dysfunction of early visual cortex and pulvinar were also associated with aberrant real-motion processing. Implied-motion stimuli additionally engaged a wide network of brain areas including parietal, motor and frontal nodes of the human mirror neuron system. The findings support concepts of MT+ as a mediator between visual sensory areas and higher-order brain and argue for greater focus on MT+ contributions to social-cognitive processing, in addition to its well-documented role in visual motion processing.

Bottom-up and top-down contributions to impaired motion processing in schizophrenia.

Background and Hypothesis: Motion processing deficits in schizophrenia have been linked to impairments in higher-order social-cognitive processes. The neural underpinnings are not fully understood but it has been hypothesized that middle temporal area (MT+) may serve as a bridge between purely sensory and more cognitive proceseses. We investigated the interrelationship between MT+ sensory processing deficits and impairments in higher-order processing using naturalistic videos with explicit motion and static images with implied-motion cues. Study Design: Functional magnetic resonance imaging was used to evaluate cortical and subcortical brain regions associated with real- and implied-motion processing in 28 individuals with schizophrenia and 20 neurotypical controls. These measures were related to face emotion recognition and motion-perception deficits, as measured behaviorally. Study Results: Activation of MT+ was abnormal in schizophrenia during both real- and implied-motion processing. Dysfunction of early visual cortex and pulvinar were also associated with impaired real-motion processing. During implied-motion-perception, MT+ participated in a wider network involving sensorimotor and prefrontal nodes of the human mirror neuron system, known to play a role in social-cognitive processes. Perception of both real- and implied-motion engaged the posterior superior temporal sulcus, a key node of the social brain network. Conclusions: The findings support concepts of MT+ as a bridge between visual sensory areas and higher-order brain regions especially in relationship to face emotion recognition and social cognition. Our data argue for greater focus on MT+ contributions to social-cognitive processing, in addition to its well-documented role in visual motion processing.

Disease-Specific Contribution of Pulvinar Dysfunction to Impaired Emotion Recognition in Schizophrenia.

One important aspect for managing social interactions is the ability to perceive and respond to facial expressions rapidly and accurately. This ability is highly dependent upon intact processing within both cortical and subcortical components of the early visual pathways. Social cognitive deficits, including face emotion recognition (FER) deficits, are characteristic of several neuropsychiatric disorders including schizophrenia (Sz) and autism spectrum disorders (ASD). Here, we investigated potential visual sensory contributions to FER deficits in Sz (n = 28, 8/20 female/male; age 21-54 years) and adult ASD (n = 20, 4/16 female/male; age 19-43 years) participants compared to neurotypical (n = 30, 8/22 female/male; age 19-54 years) controls using task-based fMRI during an implicit static/dynamic FER task. Compared to neurotypical controls, both Sz (d = 1.97) and ASD (d = 1.13) participants had significantly lower FER scores which interrelated with diminished activation of the superior temporal sulcus (STS). In Sz, STS deficits were predicted by reduced activation of early visual regions (d = 0.85, p = 0.002) and of the pulvinar nucleus of the thalamus (d = 0.44, p = 0.042), along with impaired cortico-pulvinar interaction. By contrast, ASD participants showed patterns of increased early visual cortical (d = 1.03, p = 0.001) and pulvinar (d = 0.71, p = 0.015) activation. Large effect-size structural and histological abnormalities of pulvinar have previously been documented in Sz. Moreover, we have recently demonstrated impaired pulvinar activation to simple visual stimuli in Sz. Here, we provide the first demonstration of a disease-specific contribution of impaired pulvinar activation to social cognitive impairment in Sz.