模拟自然皮层活动的本体感觉神经界面研究。

IF 0.6 4区 农林科学 Q4 AGRONOMY
Tucker Tomlinson, Lee E Miller
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引用次数: 32

摘要

在过去的十年里,传出神经界面的巨大进步是引人注目的,皮质信号被用来让瘫痪的病人控制假肢甚至自己的手的运动。然而,这一成功让人松了一口气,我们在恢复这些病人身体感觉的能力方面相对缺乏进展。躯体感觉,包括本体感觉,肢体位置和运动的感觉,甚至在像伸手和走路这样的基本运动任务中也起着至关重要的作用。它的损失导致了严重的赤字。几十年甚至几个世纪前的历史研究已经证明,通过用电激活中枢神经系统可以引发特定模式的感觉。最近的工作集中在通过直接刺激体感皮层(S1)来改善这些感觉的挑战上。动物能够察觉到特定的刺激模式,甚至将这些模式与特定的感官线索联系起来。大部分的研究都涉及到调节触觉的体感皮层区域。关于本体感觉的相关研究很少。在这里,我们描述了通过时空精确的皮质内微刺激(ICMS)来发展传入神经接口的努力。我们回顾了本体感觉的皮层表征,并描述了我们实验室最近的工作,首次证明了像自然本体感觉那样的感觉可能被ICMS在S1中唤起。这些初步发现是发展传入皮层界面以恢复本体感觉的重要的第一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Toward a Proprioceptive Neural Interface that Mimics Natural Cortical Activity.

The dramatic advances in efferent neural interfaces over the past decade are remarkable, with cortical signals used to allow paralyzed patients to control the movement of a prosthetic limb or even their own hand. However, this success has thrown into relief, the relative lack of progress in our ability to restore somatosensation to these same patients. Somatosensation, including proprioception, the sense of limb position and movement, plays a crucial role in even basic motor tasks like reaching and walking. Its loss results in crippling deficits. Historical work dating back decades and even centuries has demonstrated that modality-specific sensations can be elicited by activating the central nervous system electrically. Recent work has focused on the challenge of refining these sensations by stimulating the somatosensory cortex (S1) directly. Animals are able to detect particular patterns of stimulation and even associate those patterns with particular sensory cues. Most of this work has involved areas of the somatosensory cortex that mediate the sense of touch. Very little corresponding work has been done for proprioception. Here we describe the effort to develop afferent neural interfaces through spatiotemporally precise intracortical microstimulation (ICMS). We review what is known of the cortical representation of proprioception, and describe recent work in our lab that demonstrates for the first time, that sensations like those of natural proprioception may be evoked by ICMS in S1. These preliminary findings are an important first step to the development of an afferent cortical interface to restore proprioception.

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来源期刊
Bioagro
Bioagro Agricultural and Biological Sciences-General Agricultural and Biological Sciences
CiteScore
1.40
自引率
37.50%
发文量
22
期刊介绍: Bioagro es una revista científica del Decanato de Agronomía de la Universidad Centroccidental “Lisandro Alvarado” (UCLA). Su periodicidad es cuatrimestral y se publica en los meses de enero, mayo y septiembre. Cada trabajo es revisado por al menos dos especialistas en el área, externos a la revista, de cuya opinión depende la aceptación definitiva. Se utiliza sistema de arbitraje doble ciego. La revista va dirigida, fundamental pero no exclusivamente, a profesionales y técnicos del área agrícola. Su objetivo es publicar trabajos científicos originales e inéditos en ciencias agrícolas que enfoquen aspectos de agronomía, botánica y propagación de plantas, entomología y zoología, suelos, fitopatología y protección vegetal, ingeniería agrícola, genética y mejoramiento de plantas, ecología, procesamiento de productos agrícolas, biotecnología y sociales. También pueden ser publicados artículos cortos en los que se presenten descubrimientos científicos, desarrollos tecnológicos y resultados de diagnósticos integrales, en la modalidad de Notas Técnicas. En Venezuela, se encuentra en las bibliotecas de todas las universidades e institutos de educación superior que ofrecen carreras agronómicas, así como de los entes oficiales de investigación agropecuaria. En el exterior, la revista llega a universidades y/o institutos de investigación agrícolas de todos los países de América Latina así como Estados Unidos, Canadá y España.
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