A neural modeling approach to study mechanisms underlying the heterogeneity of visual spatial frequency sensitivity in schizophrenia.

IF 3 Q2 PSYCHIATRY
Caroline Dugan, Basilis Zikopoulos, Arash Yazdanbakhsh
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Abstract

Patients with schizophrenia exhibit abnormalities in spatial frequency sensitivity, and it is believed that these abnormalities indicate more widespread dysfunction and dysregulation of bottom-up processing. The early visual system, including the first-order Lateral Geniculate Nucleus of the thalamus (LGN) and the primary visual cortex (V1), are key contributors to spatial frequency sensitivity. Medicated and unmedicated patients with schizophrenia exhibit contrasting changes in spatial frequency sensitivity, thus making it a useful probe for examining potential effects of the disorder and antipsychotic medications in neural processing. We constructed a parameterized, rate-based neural model of on-center/off-surround neurons in the early visual system to investigate the impacts of changes to the excitatory and inhibitory receptive field subfields. By incorporating changes in both the excitatory and inhibitory subfields that are associated with pathophysiological findings in schizophrenia, the model successfully replicated perceptual data from behavioral/functional studies involving medicated and unmedicated patients. Among several plausible mechanisms, our results highlight the dampening of excitation and/or increase in the spread and strength of the inhibitory subfield in medicated patients and the contrasting decreased spread and strength of inhibition in unmedicated patients. Given that the model was successful at replicating results from perceptual data under a variety of conditions, these elements of the receptive field may be useful markers for the imbalances seen in patients with schizophrenia.

Abstract Image

研究精神分裂症患者视觉空间频率敏感性异质性机制的神经建模方法。
精神分裂症患者在空间频率敏感性方面表现出异常,人们认为这些异常表明自下而上的处理过程出现了更广泛的功能障碍和失调。早期视觉系统,包括丘脑第一阶外侧膝状核(LGN)和初级视觉皮层(V1),是空间频率敏感性的关键因素。服药和未服药的精神分裂症患者在空间频率敏感性上表现出截然不同的变化,因此空间频率敏感性是研究精神分裂症和抗精神病药物对神经处理的潜在影响的有用探针。我们构建了一个参数化的、基于速率的早期视觉系统中心/非环绕神经元神经模型,以研究兴奋性和抑制性感受野子场变化的影响。通过将与精神分裂症病理生理发现相关的兴奋和抑制子场的变化纳入模型,该模型成功地复制了涉及服药和未服药患者的行为/功能研究中的感知数据。在几种似是而非的机制中,我们的研究结果突出表明,服药患者的兴奋减弱和/或抑制子场的扩散和强度增加,而未服药患者的抑制扩散和强度则相反地减弱。鉴于该模型成功地复制了各种条件下感知数据的结果,这些感受野元素可能是精神分裂症患者失衡的有用标记。
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