功能磁共振成像揭示的虚幻视觉抖动期间的人类大脑活动。

Human brain activity during illusory visual jitter as revealed by functional magnetic resonance imaging.

作者信息

Sasaki Yuka, Murakami Ikuya, Cavanagh Patrick, Tootell Roger H B

机构信息

Athinoula A. Martinos Center for Biomedical Imaging, Massachusetts General Hospital, Charlestown 02129, USA.

出版信息

Neuron. 2002 Sep 12;35(6):1147-56. doi: 10.1016/s0896-6273(02)00899-1.

DOI:10.1016/s0896-6273(02)00899-1

PMID:12354403

Abstract

One central problem in vision is how to compensate for retinal slip. A novel illusion (visual jitter) suggests the compensation mechanism is based solely on retinal motion. Adaptation to visual noise attenuates the motion signals used by the compensation stage, producing illusory jitter due to the undercompensation of retinal slip. Here, we investigated the neural substrate of retinal slip compensation during this illusion using high-field fMRI and retinotopic mapping in flattened cortical format. When jitter perception occurred, MR signal decreased in lower stages of the visual system but increased prominently in area MT+. In conclusion, visual areas as early as V1 are responsible for the adaptation stage, and MT+ is involved in the compensation stage. The present finding suggests the pathway from V1 to MT+ has an important role in stabilizing the visual world.

摘要

视觉中的一个核心问题是如何补偿视网膜滑动。一种新的错觉（视觉抖动）表明，补偿机制仅基于视网膜运动。对视觉噪声的适应会减弱补偿阶段所使用的运动信号，由于视网膜滑动补偿不足而产生虚幻的抖动。在这里，我们使用高场功能磁共振成像和扁平皮质格式的视网膜定位映射，研究了这种错觉期间视网膜滑动补偿的神经基础。当出现抖动感知时，视觉系统较低阶段的磁共振信号下降，但在MT+区域显著增加。总之，早在V1的视觉区域负责适应阶段，而MT+参与补偿阶段。目前的发现表明，从V1到MT+的通路在稳定视觉世界方面具有重要作用。

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功能磁共振成像揭示的虚幻视觉抖动期间的人类大脑活动。

Human brain activity during illusory visual jitter as revealed by functional magnetic resonance imaging.

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