非人灵长类动物的行为光遗传学研究心理学视角

Arash Afraz
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摘要

在过去的十年里,光遗传学一直是系统神经科学中一项有前途且不断发展的技术。然而,很难可靠地确定非人类灵长类动物神经活动的光遗传学扰动的潜在行为影响。这对人类光遗传学的未来提出了挑战,因为这些概念和技术需要首先在非人灵长类动物身上开发。在这里,我简要总结了改进非人灵长类动物行为光遗传学的可行方法,然后重点介绍了一种方法:改进行为测量。我带来了视觉行为的例子,并展示了测量方法的选择如何掩盖巨大的行为影响。然后,我将详细讨论“皮层扰动检测”任务,作为一个敏感任务的例子,该任务可以高保真地记录光遗传学皮层刺激的行为影响。最后,在行为光遗传学之前丰富的科学前景的鼓舞下,我邀请技术开发人员改进为非人类灵长类动物同时进行神经记录和光遗传学干预而设计的慢性植入式设备。
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Behavioral optogenetics in nonhuman primates; a psychological perspective

Optogenetics has been a promising and developing technology in systems neuroscience throughout the past decade. It has been difficult though to reliably establish the potential behavioral effects of optogenetic perturbation of the neural activity in nonhuman primates. This poses a challenge on the future of optogenetics in humans as the concepts and technology need to be developed in nonhuman primates first. Here, I briefly summarize the viable approaches taken to improve nonhuman primate behavioral optogenetics, then focus on one approach: improvements in the measurement of behavior. I bring examples from visual behavior and show how the choice of method of measurement might conceal large behavioral effects. I will then discuss the “cortical perturbation detection” task in detail as an example of a sensitive task that can record the behavioral effects of optogenetic cortical stimulation with high fidelity. Finally, encouraged by the rich scientific landscape ahead of behavioral optogenetics, I invite technology developers to improve the chronically implantable devices designed for simultaneous neural recording and optogenetic intervention in nonhuman primates.

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