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Dissociating Sensorimotor Recovery and Compensation During Exoskeleton Training Following Stroke.
Nibras, Nadir; Liu, Chang; Mottet, Denis; Wang, Chunji; Reinkensmeyer, David; Remy-Neris, Olivier; Laffont, Isabelle; Schweighofer, Nicolas.
Afiliação
  • Nibras N; Department of Biomedical Engineering, University of Southern California, Los Angeles, CA, United States.
  • Liu C; Department of Biomedical Engineering, University of Southern California, Los Angeles, CA, United States.
  • Mottet D; Euromov Digital Health in Motion, University of Montpellier, IMT Mines Alès, Montpellier, France.
  • Wang C; Neuroscience Graduate Program, University of Southern California, Los Angeles, CA, United States.
  • Reinkensmeyer D; Department of Mechanical and Aerospace Engineering, Anatomy and Neurobiology, University of California, Irvine, Irvine, CA, United States.
  • Remy-Neris O; Université de Brest, Centre Hospitalier Universitaire, LaTIM-INSERM UMR 1101, Brest, France.
  • Laffont I; Euromov Digital Health in Motion, University of Montpellier, IMT Mines Alès, Montpellier, France.
  • Schweighofer N; Montpellier University Hospital, Euromov Digital Health in Motion, Montpellier University, Montpellier, France.
Front Hum Neurosci ; 15: 645021, 2021.
Article em En | MEDLINE | ID: mdl-33994981
The quality of arm movements typically improves in the sub-acute phase of stroke affecting the upper extremity. Here, we used whole arm kinematic analysis during reaching movements to distinguish whether these improvements are due to true recovery or to compensation. Fifty-three participants with post-acute stroke performed ∼80 reaching movement tests during 4 weeks of training with the ArmeoSpring exoskeleton. All participants showed improvements in end-effector performance, as measured by movement smoothness. Four ArmeoSpring angles, shoulder horizontal (SH) rotation, shoulder elevation (SE), elbow rotation, and forearm rotation, were recorded and analyzed. We first characterized healthy joint coordination patterns by performing a sparse principal component analysis on these four joint velocities recorded during reaching tests performed by young control participants. We found that two dominant joint correlations [SH with elbow rotation and SE with forearm rotation] explained over 95% of variance of joint velocity data. We identified two clusters of stroke participants by comparing the evolution of these two correlations in all tests. In the "Recoverer" cluster (N = 19), both joint correlations converged toward the respective correlations for control participants. Thus, Recoverers relearned how to generate smooth end-effector movements while developing joint movement patterns similar to those of control participants. In the "Compensator" cluster (N = 34), at least one of the two joint correlations diverged from the corresponding correlation of control participants. Compensators relearned how to generate smooth end-effector movements by discovering various new compensatory movement patterns dissimilar to those of control participants. New compensatory patterns included atypical decoupling of the SE and forearm joints, and atypical coupling of the SH rotation and elbow joints. There was no difference in clinical impairment level between the two groups either at the onset or at the end of training as assessed with the Upper Extremity Fugl-Meyer scale. However, at the start of training, the Recoverers showed significantly faster improvements in end-effector movement smoothness than the Compensators. Our analysis can be used to inform neurorehabilitation clinicians on how to provide movement feedback during practice and suggest avenues for refining exoskeleton robot therapy to reduce compensatory patterns.
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Texto completo: 1 Bases de dados: MEDLINE Idioma: En Revista: Front Hum Neurosci Ano de publicação: 2021 Tipo de documento: Article País de afiliação: Estados Unidos

Texto completo: 1 Bases de dados: MEDLINE Idioma: En Revista: Front Hum Neurosci Ano de publicação: 2021 Tipo de documento: Article País de afiliação: Estados Unidos