Topographic organization across foveal visual areas in macaques

IF 2.1 4区 医学 Q1 ANATOMY & MORPHOLOGY Frontiers in Neuroanatomy Pub Date : 2024-04-08 DOI:10.3389/fnana.2024.1389067
Hangqi Li, Danling Hu, Hisashi Tanigawa, Toru Takahata
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Abstract

IntroductionWhile the fovea on the retina covers only a small region of the visual field, a significant portion of the visual cortex is dedicated to processing information from the fovea being a critical center for object recognition, motion control, and visually guided attention. Despite its importance, prior functional imaging studies in awake monkeys often focused on the parafoveal visual field, potentially leading to inaccuracies in understanding the brain structure underlying function.MethodsIn this study, our aim is to unveil the neuronal connectivity and topography in the foveal visual cortex in comparison to the parafoveal visual cortex. Using four different types of retrograde tracers, we selectively injected them into the striate cortex (V1) or V4, encompassing the regions between the fovea and parafovea.ResultsV1 and V4 exhibited intense mutual connectivity in the foveal visual field, in contrast to the parafoveal visual field, possibly due to the absence of V3 in the foveal visual field. While previous live brain imaging studies failed to reveal retinotopy in the foveal visual fields, our results indicate that the foveal visual fields have continuous topographic connectivity across V1 through V4, as well as the parafoveal visual fields. Although a simple extension of the retinotopic isoeccentricity maps from V1 to V4 has been suggested from previous fMRI studies, our study demonstrated that V3 and V4 possess gradually smaller topographic maps compared to V1 and V2. Feedback projections to foveal V1 primarily originate from the infragranular layers of foveal V2 and V4, while feedforward projections to foveal V4 arise from both supragranular and infragranular layers of foveal V1 and V2, consistent with previous findings in the parafoveal visual fields.DiscussionThis study provides valuable insights into the connectivity of the foveal visual cortex, which was ambiguous in previous imaging studies.
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猕猴眼窝视觉区域的地形组织
引言虽然视网膜上的眼窝只覆盖了视野的一小部分区域,但视觉皮层的很大一部分却专门用于处理来自眼窝的信息,眼窝是物体识别、运动控制和视觉引导注意力的关键中心。尽管其重要性不言而喻,但之前在清醒猴子身上进行的功能成像研究通常都集中在视网膜旁视场,这可能会导致对其功能所依赖的大脑结构理解不准确。我们使用四种不同类型的逆行示踪剂,有选择性地将它们注射到纹状皮层(V1)或V4(包括眼窝和眼底之间的区域)。结果V1和V4在眼窝视野中表现出强烈的相互连通性,与眼底视野形成鲜明对比,这可能是由于眼窝视野中没有V3。虽然以往的活体脑成像研究未能发现眼窝视场的视网膜连通性,但我们的研究结果表明,眼窝视场具有跨越 V1 至 V4 以及眼窝旁视场的连续地形连通性。虽然以前的 fMRI 研究认为视网膜同位同心图可以从 V1 简单扩展到 V4,但我们的研究表明,与 V1 和 V2 相比,V3 和 V4 的地形图逐渐变小。到眼窝 V1 的反馈投射主要来自眼窝 V2 和 V4 的虹膜下层,而到眼窝 V4 的前馈投射则来自眼窝 V1 和 V2 的虹膜上层和虹膜下层,这与之前在眼窝旁视场的研究结果一致。
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来源期刊
Frontiers in Neuroanatomy
Frontiers in Neuroanatomy ANATOMY & MORPHOLOGY-NEUROSCIENCES
CiteScore
4.70
自引率
3.40%
发文量
122
审稿时长
>12 weeks
期刊介绍: Frontiers in Neuroanatomy publishes rigorously peer-reviewed research revealing important aspects of the anatomical organization of all nervous systems across all species. Specialty Chief Editor Javier DeFelipe at the Cajal Institute (CSIC) is supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.
期刊最新文献
Algal polysaccharides: new perspectives for the treatment of basal ganglia neurodegenerative diseases. Editorial: The four streams of the prefrontal cortex. Deep peroneal neuropathy induced by prolonged squatting: a case report. Therapeutic ultrasound: an innovative approach for targeting neurological disorders affecting the basal ganglia. Topographic anatomy of the lateral surface of the parietal lobe and its relationship with white matter tracts.
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