Connectivity, Computation, and Plasticity of the Early Visual System

神经科学 视皮层 上丘 视觉系统 背景(考古学) 感觉系统 视网膜波 视黄质 人类视觉系统模型 N2pc 视觉感受 凝视偶然范式 发育可塑性 计算机科学 视觉记忆 视觉处理 神经可塑性 视网膜神经节细胞 视网膜 感觉线索 生物 认知 外侧膝状核 心理学 感知 视觉搜索 视野 丘脑 可塑性
作者
Xuefeng Shi,Wei Wei,Zixuan Deng,Chuiwen Li,Lindsey L Glickfeld,Gordon B. Smith,Jason W. Triplett,Yu Gu
出处
期刊:The Journal of Neuroscience [Society for Neuroscience]
卷期号:45 (46): e1317252025-e1317252025
标识
DOI:10.1523/jneurosci.1317-25.2025
摘要

The visual system is a complex hierarchical structure that processes diverse visual information to guide cognition and behavior. Elucidating the principles that govern the development and function of the visual system's circuitry is a central goal in visual neuroscience. This review examines connectivity, computation, and plasticity within the early mammalian visual system, focusing on three key structures: the retina, the superior colliculus (SC), and the primary visual cortex (V1). The retina serves as the initial site for visual information processing, culminating in activation of highly selective retinal ganglion cells (RGCs), which convey all visual information to the brain. The SC is a primary retinorecipient region that integrates visual information to guide appropriate behavioral responses, exhibiting visual processing both similar to and distinct from RGCs. Retinal information is also relayed via the thalamus to V1, which extracts detailed visual features through spatial and temporal integration, forming the basis of conscious visual perception. The development of these structures involves a coarse-to-fine maturation of functional networks driven by intrinsic mechanisms, including molecular cues and spontaneous patterns of activity. In addition, experience-dependent plasticity in the SC and V1 allows the visual system to adapt to changes of sensory inputs during development. Recent work has significantly advanced our understanding of the complex neuronal computations executed in these early visual regions and the molecular and circuit mechanisms underlying development and plasticity. This knowledge has significant implications for both basic neuroscience and clinical applications, particularly in the context of visual system disorders.
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