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听觉向纹外视觉皮层的投射:“单模态”视觉神经元中多感官处理的连接基础。

Auditory projections to extrastriate visual cortex: connectional basis for multisensory processing in 'unimodal' visual neurons.

作者信息

Clemo H Ruth, Sharma Giriraj K, Allman Brian L, Meredith M Alex

机构信息

Department of Anatomy and Neurobiology, Virginia Commonwealth University School of Medicine, Richmond, VA 23298-0709, USA.

出版信息

Exp Brain Res. 2008 Oct;191(1):37-47. doi: 10.1007/s00221-008-1493-7. Epub 2008 Jul 23.

DOI:10.1007/s00221-008-1493-7
PMID:18648784
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2827203/
Abstract

Neurophysiological studies have recently documented multisensory properties in 'unimodal' visual neurons of the cat posterolateral lateral suprasylvian (PLLS) cortex, a retinotopically organized area involved in visual motion processing. In this extrastriate visual area, a region has been identified where both visual and auditory stimuli were independently effective in activating neurons (bimodal zone), as well as a second region where visually-evoked activity was significantly facilitated by concurrent auditory stimulation but was unaffected by auditory stimulation alone (subthreshold multisensory region). Given their different distributions, the possible corticocortical connectivity underlying these distinct forms of crossmodal convergence was examined using biotinylated dextran amine (BDA) tracer methods in 21 adult cats. The auditory cortical areas examined included the anterior auditory field (AAF), primary auditory cortex (AI), dorsal zone (DZ), secondary auditory cortex (AII), field of the rostral suprasylvian sulcus (FRS), field anterior ectosylvian sulcus (FAES) and the posterior auditory field (PAF). Of these regions, the DZ, AI, AII, and FAES were found to project to the both the bimodal zone and the subthreshold region of the PLLS. This convergence of crossmodal inputs to the PLLS suggests not only that complex auditory information has access to this region but also that these connections provide the substrate for the different forms (bimodal versus subthreshold) of multisensory processing which may facilitate its functional role in visual motion processing.

摘要

神经生理学研究最近证实,在猫后外侧上薛氏回(PLLS)皮质的“单峰”视觉神经元中存在多感官特性,该区域是一个涉及视觉运动处理的视网膜拓扑组织区域。在这个纹外视觉区域中,已经确定了一个区域,在该区域视觉和听觉刺激都能独立激活神经元(双峰区),以及另一个区域,在该区域同时的听觉刺激能显著促进视觉诱发活动,但单独的听觉刺激则无影响(阈下多感官区域)。鉴于它们的不同分布,使用生物素化葡聚糖胺(BDA)示踪方法在21只成年猫中研究了这些不同形式的跨模态汇聚背后可能的皮质皮质连接。所检查的听觉皮质区域包括前听觉场(AAF)、初级听觉皮质(AI)、背侧区(DZ)、次级听觉皮质(AII)、上薛氏沟前部区域(FRS)、外侧薛氏沟前部区域(FAES)和后听觉场(PAF)。在这些区域中,发现DZ、AI、AII和FAES都投射到PLLS的双峰区和阈下区域。跨模态输入汇聚到PLLS不仅表明复杂的听觉信息可以进入该区域,而且这些连接为多感官处理的不同形式(双峰与阈下)提供了基础,这可能有助于其在视觉运动处理中的功能作用。

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