Restoration of coherent reach-grasp-pull movement via sequential intraneural peripheral nerve stimulation in rats

Author:

Chen WeihuangORCID,Wang SuhaoORCID,Bao Jieting,Yu Chaonan,Jiang Qianqian,Song JizhouORCID,Zheng YongteORCID,Hao Yaoyao,Xu Kedi

Abstract

Abstract Objective. Peripheral nerve stimulation (PNS) has been demonstrated as an effective way to selectively activate muscles and to produce fine hand movements. However, sequential multi-joint upper limb movements, which are critical for paralysis rehabilitation, has not been tested with PNS. Here, we aimed to restore multiple upper limb joint movements through an intraneural interface with a single electrode, achieving coherent reach-grasp-pull movement tasks through sequential stimulation. Approach. A transverse intrafascicular multichannel electrode was implanted under the axilla of the rat’s upper limb, traversing the musculocutaneous, radial, median, and ulnar nerves. Intramuscular electrodes were implanted into the biceps brachii (BB), triceps brachii (TB), flexor carpi radialis (FCR), and extensor carpi radialis (ECR) muscles to record electromyographic (EMG) activity and video recordings were used to capture the kinematics of elbow, wrist, and digit joints. Charge-balanced biphasic pulses were applied to different channels to recruit distinct upper limb muscles, with concurrent recording of EMG signals and joint kinematics to assess the efficacy of the stimulation. Finally, a sequential stimulation protocol was employed by generating coordinated pulses in different channels. Main results. BB, TB, FCR and ECR muscles were selectively activated and various upper limb movements, including elbow flexion, elbow extension, wrist flexion, wrist extension, digit flexion, and digit extension, were reliably generated. The modulation effects of stimulation parameters, including pulse width, amplitude, and frequency, on induced joint movements were investigated and reach-grasp-pull movement was elicited by sequential stimulation. Significance. Our results demonstrated the feasibility of sequential intraneural stimulation for functional multi-joint movement restoration, providing a new approach for clinical rehabilitation in paralyzed patients.

Funder

STI 2030—Major Projects

Nanhu Brain-Computer Interface Institute

Outstanding Youth Program of Zhejiang Natural Science Foundation

Fundamental Research Funds for the Central Universities

Starry Night Science Fund of Zhejiang University Shanghai Institute for Advanced Study

Cereblink (Hangzhou) Technology Co.,Ltd

Publisher

IOP Publishing

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