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Continuous neural control of a bionic limb restores biomimetic gait after amputation

Engineering and Technology

Continuous neural control of a bionic limb restores biomimetic gait after amputation

H. Song, T. Hsieh, et al.

Discover groundbreaking research conducted by Hyungeun Song and colleagues on bionic legs that utilizes continuous neural control and muscle sensing to enhance adaptability post-amputation. This innovative approach has demonstrated a remarkable increase in walking speed and the potential to restore natural gait patterns, offering new hope for amputees.

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Playback language: English
Abstract
Current bionic legs use predefined robotic control architectures, limiting their versatility. This study hypothesized that continuous neural control of a bionic limb, augmented by residual muscle afferents, could restore biomimetic gait after below-knee amputation. A neuroprosthetic interface with surgically connected agonist-antagonist muscles and muscle-sensing electrodes was used in seven leg amputees. The interface augmented residual muscle afferents by 18% of biologically intact values, increasing maximum neuroprosthetic walking speed by 41% and enabling biomimetic adaptation to various speeds and environments. Results suggest even small afferent augmentation restores biomimetic gait under continuous neuromodulation.
Publisher
Nature Medicine
Published On
Jul 01, 2024
Authors
Hyungeun Song, Tsung-Han Hsieh, Seong Ho Yeon, Tony Shu, Michael Nawrot, Christian F. Landis, Gabriel N. Friedman, Erica A. Israel, Samantha Gutierrez-Arango, Matthew J. Carty, Lisa E. Freed, Hugh M. Herr
Tags
bionic limbs
neural control
amputation
biomimetic gait
neuroprosthetics
residual muscle afferents
gait restoration

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