Cerebellar deep brain stimulation for chronic post-stroke motor rehabilitation: a phase I trial

Upper-extremity impairment after stroke remains a major therapeutic challenge and a target of neuromodulation treatment efforts. In this open-label, non-randomized phase I trial, we applied deep brain stimulation to the cerebellar dentate nucleus combined with renewed physical rehabilitation to prom...

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Veröffentlicht in:	Nature medicine 2023-09, Vol.29 (9), p.2366-2374
Hauptverfasser:	Baker, Kenneth B., Plow, Ela B., Nagel, Sean, Rosenfeldt, Anson B., Gopalakrishnan, Raghavan, Clark, Cynthia, Wyant, Alexandria, Schroedel, Madeleine, Ozinga, John, Davidson, Sara, Hogue, Olivia, Floden, Darlene, Chen, Jacqueline, Ford, Paul J., Sankary, Lauren, Huang, Xuemei, Cunningham, David A., DiFilippo, Frank P., Hu, Bo, Jones, Stephen E., Bethoux, Francois, Wolf, Steven L., Chae, John, Machado, André G.
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Schlagworte:	692/308 692/308/575 692/617/375/534 Biomedical and Life Sciences Biomedicine Brain Cancer Research Cerebellum Clinical trials Deep brain stimulation Dentate nucleus Feasibility Functional plasticity Impairment Infectious Diseases Metabolic Diseases Molecular Medicine Neuromodulation Neuroplasticity Neurosciences Recovery of function Rehabilitation Safety Stimulation Stroke
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creator	Baker, Kenneth B. Plow, Ela B. Nagel, Sean Rosenfeldt, Anson B. Gopalakrishnan, Raghavan Clark, Cynthia Wyant, Alexandria Schroedel, Madeleine Ozinga, John Davidson, Sara Hogue, Olivia Floden, Darlene Chen, Jacqueline Ford, Paul J. Sankary, Lauren Huang, Xuemei Cunningham, David A. DiFilippo, Frank P. Hu, Bo Jones, Stephen E. Bethoux, Francois Wolf, Steven L. Chae, John Machado, André G.
description	Upper-extremity impairment after stroke remains a major therapeutic challenge and a target of neuromodulation treatment efforts. In this open-label, non-randomized phase I trial, we applied deep brain stimulation to the cerebellar dentate nucleus combined with renewed physical rehabilitation to promote functional reorganization of ipsilesional cortex in 12 individuals with persistent (1–3 years), moderate-to-severe upper-extremity impairment. No serious perioperative or stimulation-related adverse events were encountered, with participants demonstrating a seven-point median improvement on the Upper-Extremity Fugl-Meyer Assessment. All individuals who enrolled with partial preservation of distal motor function exceeded minimal clinically important difference regardless of time since stroke, with a median improvement of 15 Upper-Extremity Fugl-Meyer Assessment points. These robust functional gains were directly correlated with cortical reorganization evidenced by increased ipsilesional metabolism. Our findings support the safety and feasibility of deep brain stimulation to the cerebellar dentate nucleus as a promising tool for modulation of late-stage neuroplasticity for functional recovery and the need for larger clinical trials. ClinicalTrials.gov registration: NCT02835443 . A phase I trial of cerebellar deep brain stimulation to enhance chronic post-stroke motor rehabilitation supports the safety and feasibility of the approach while providing encouraging evidence of motor improvements.
doi_str_mv	10.1038/s41591-023-02507-0
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In this open-label, non-randomized phase I trial, we applied deep brain stimulation to the cerebellar dentate nucleus combined with renewed physical rehabilitation to promote functional reorganization of ipsilesional cortex in 12 individuals with persistent (1–3 years), moderate-to-severe upper-extremity impairment. No serious perioperative or stimulation-related adverse events were encountered, with participants demonstrating a seven-point median improvement on the Upper-Extremity Fugl-Meyer Assessment. All individuals who enrolled with partial preservation of distal motor function exceeded minimal clinically important difference regardless of time since stroke, with a median improvement of 15 Upper-Extremity Fugl-Meyer Assessment points. These robust functional gains were directly correlated with cortical reorganization evidenced by increased ipsilesional metabolism. Our findings support the safety and feasibility of deep brain stimulation to the cerebellar dentate nucleus as a promising tool for modulation of late-stage neuroplasticity for functional recovery and the need for larger clinical trials. ClinicalTrials.gov registration: NCT02835443 . 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subjects	692/308 692/308/575 692/617/375/534 Biomedical and Life Sciences Biomedicine Brain Cancer Research Cerebellum Clinical trials Deep brain stimulation Dentate nucleus Feasibility Functional plasticity Impairment Infectious Diseases Metabolic Diseases Molecular Medicine Neuromodulation Neuroplasticity Neurosciences Recovery of function Rehabilitation Safety Stimulation Stroke
title	Cerebellar deep brain stimulation for chronic post-stroke motor rehabilitation: a phase I trial
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