Bypassing input to V1 in visual awareness: A TMS-EROS investigation

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ramisha S. Knight , Tao Chen , Evan G. Center , Gabriele Gratton , Monica Fabiani , Silvia Savazzi , Chiara Mazzi , Diane M. Beck
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Abstract

Early visual cortex (V1–V3) is believed to be critical for normal visual awareness by providing the necessary feedforward input. However, it remains unclear whether visual awareness can occur without further involvement of early visual cortex, such as re-entrant feedback. It has been challenging to determine the importance of feedback activity to these areas because of the difficulties in dissociating this activity from the initial feedforward activity. Here, we applied single-pulse transcranial magnetic stimulation (TMS) over the left posterior parietal cortex to elicit phosphenes in the absence of direct visual input to early visual cortex. Immediate neural activity after the TMS pulse was assessed using the event-related optical signal (EROS), which can measure activity under the TMS coil without artifacts. Our results show that: 1) The activity in posterior parietal cortex 50 ms after TMS was related to phosphene awareness, and 2) Activity related to awareness was observed in a small portion of V1 140 ms after TMS, but in contrast (3) Activity in V2 was a more robust correlate of awareness. Together, these results are consistent with interactive models proposing that sustained and recurrent loops of activity between cortical areas are necessary for visual awareness to emerge. In addition, we observed phosphene-related activations of the anteromedial cuneus and lateral occipital cortex, suggesting a functional network subserving awareness comprising these regions, the parietal cortex and early visual cortex.

视觉意识中绕过 V1 的输入:TMS-EROS调查
早期视觉皮层(V1-V3)提供必要的前馈输入,被认为是正常视觉感知的关键。然而,如果没有早期视觉皮层的进一步参与(如再入射反馈),视觉意识是否会发生仍不清楚。要确定反馈活动对这些区域的重要性一直是个挑战,因为很难将这种活动与最初的前馈活动区分开来。在此,我们对左侧后顶叶皮层施加单脉冲经颅磁刺激(TMS),在早期视觉皮层没有直接视觉输入的情况下诱发幻视。我们使用事件相关光学信号(EROS)评估了TMS脉冲后的即时神经活动,EROS可以测量TMS线圈下的活动而不会产生伪影。我们的研究结果表明1)TMS 50 毫秒后顶叶皮层的活动与磷光体意识有关;2)TMS 140 毫秒后,在 V1 的一小部分观察到与意识有关的活动,但相比之下(3)V2 的活动与意识的相关性更强。总之,这些结果与互动模型一致,即大脑皮层区域之间的持续和循环活动是产生视觉意识的必要条件。此外,我们还观察到与磷光体相关的前内侧楔叶和外侧枕叶皮层的激活,这表明存在一个由这些区域、顶叶皮层和早期视觉皮层组成的功能网络,为意识提供支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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