Journal article
Effect of proprioceptive stimulation using a soft robotic glove on motor activation and brain connectivity in stroke survivors
Journal of Neural Engineering, Vol.18(6), pp.1-13
2021
PMID: 34933283
Abstract
Objective. Soft-robotic-assisted training may improve motor function during post-stroke recovery, but the underlying physiological changes are not clearly understood. We applied a single-session of intensive proprioceptive stimulation to stroke survivors using a soft robotic glove to delineate its short-term influence on brain functional activity and connectivity. Approach. In this study, we utilized task-based and resting-state functional magnetic resonance imaging (fMRI) to characterize the changes in different brain networks following a soft robotic intervention. Nine stroke patients with hemiplegic upper limb engaged in resting-state and motor-task fMRI. The motor tasks comprised two conditions: active movement of fingers (active task) and glove-assisted active movement using a robotic glove (glove-assisted task), both with visual instruction. Each task was performed using bilateral hands simultaneously or the affected hand only. The same set of experiments was repeated following a 30 min treatment of continuous passive motion (CPM) using a robotic glove. Main results. On simultaneous bimanual movement, increased activation of supplementary motor area (SMA) and primary motor area (M1) were observed after CPM treatment compared to the pre-treatment condition, both in active and glove-assisted task. However, when performing the tasks solely using the affected hand, the phenomena of increased activity were not observed either in active or glove-assisted task. The comparison of the resting-state fMRI between before and after CPM showed the connectivity of the supramarginal gyrus and SMA was increased in the somatosensory network and salience network. Significance. This study demonstrates how passive motion exercise activates M1 and SMA in the post-stroke brain. The effective proprioceptive motor integration seen in bimanual exercise in contrast to the unilateral affected hand exercise suggests that the unaffected hemisphere might reconfigure connectivity to supplement damaged neural networks in the affected hemisphere. The somatosensory modulation rendered by the intense proprioceptive stimulation would affect the motor learning process in stroke survivors.
Details
- Title
- Effect of proprioceptive stimulation using a soft robotic glove on motor activation and brain connectivity in stroke survivors
- Authors
- Fatima A Nasrallah (Author) - University of QueenslandAbdalla Z Mohamed (Author) - University of the Sunshine Coast, Queensland, Thompson InstituteHong Kai Yap (Author) - Roceso Technologies SingaporeHwa Sen Lai (Author) - National University of SingaporeChen-Hua Yeow (Author) - National University of SingaporeJeong Hoon Lim (Author) - National University of Singapore
- Publication details
- Journal of Neural Engineering, Vol.18(6), pp.1-13
- Publisher
- Institute of Physics Publishing Ltd.
- DOI
- 10.1088/1741-2552/ac456c
- ISSN
- 1741-2552
- PMID
- 34933283
- Organisation Unit
- Thompson Institute; University of the Sunshine Coast, Queensland
- Language
- English
- Record Identifier
- 99613304402621
- Output Type
- Journal article
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- Engineering, Biomedical
- Neurosciences
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