局部场电位可实现肌肉活动的精确解码。
Local field potentials allow accurate decoding of muscle activity.
机构信息
Department of Neurology, Northwestern University, Chicago, IL 60611, USA.
出版信息
J Neurophysiol. 2012 Jul;108(1):18-24. doi: 10.1152/jn.00832.2011. Epub 2012 Apr 11.
Abstract
Local field potentials (LFPs) in primary motor cortex include significant information about reach target location and upper limb movement kinematics. Some evidence suggests that they may be a more robust, longer-lasting signal than action potentials (spikes). Here we assess whether LFPs can also be used to decode upper limb muscle activity, a complex movement-related signal. We record electromyograms from both proximal and distal upper limb muscles from monkeys performing a variety of reach-to-grasp and isometric wrist force tasks. We show that LFPs can be used to decode activity from both proximal and distal muscles with performance rivaling that of spikes. Thus, motor cortical LFPs include information about more aspects of movement than has been previously demonstrated. This provides further evidence suggesting that LFPs could provide a highly informative, long-lasting signal source for neural prostheses.
摘要
初级运动皮层中的局部场电位 (LFPs) 包含有关到达目标位置和上肢运动运动学的重要信息。有证据表明,它们可能是比动作电位 (尖峰) 更稳健、更持久的信号。在这里,我们评估 LFPs 是否也可用于解码上肢肌肉活动,这是一种复杂的与运动相关的信号。我们记录猴子在执行各种伸手抓握和等长腕力任务时近端和远端上肢肌肉的肌电图。我们表明 LFPs 可用于解码来自近端和远端肌肉的活动,其性能与尖峰相当。因此,运动皮层 LFPs 包含比以前证明的更多运动方面的信息。这进一步表明,LFPs 可为神经假体提供高度信息丰富、持久的信号源。
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