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Neurophysiological and Clinical Effects of Upper Limb Robot-Assisted Rehabilitation on Motor Recovery in Patients with Subacute Stroke: A Multicenter Randomized Controlled Trial Study Protocol

Sanaz Pournajaf, Giovanni Morone, Sofía Straudi, Michela Goffredo, Maria Rosaria Leo, Rocco Salvatore Calabrò, Giorgio Felzani, Stefano Paolucci, Serena Filoni, Andrea Santamato, Marco Franceschini, the Italian PowerUPS-REHAB Study Group

2023Brain Sciences15 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The efficacy of upper limb (UL) robot-assisted therapy (RAT) on functional improvement after stroke remains unclear. However, recently published randomized controlled trials have supported its potential benefits in enhancing the activities of daily living, arm and hand function, and muscle strength. Task-specific and high-intensity exercises are key points in facilitating motor re-learning in neurorehabilitation since RAT can provide an assisted-as-needed approach. This study aims to investigate the clinical effects of an exoskeleton robotic system for UL rehabilitation compared with conventional therapy (CT) in people with subacute stroke. As a secondary aim, we seek to identify patients' characteristics, which can predict better recovery after UL-RAT and detects whether it could elicit greater brain stimulation. METHODS: Power (Hocoma AG, CH, Volketswil, Switzerland) exoskeleton (experimental group, EG). A sample stratification based on distance since onset, DSO (DSO ≤ 30; DSO > 30), and Fugl-Meyer Assessment (FM)-UL (FM-UL ≤ 22; 22 < FM-UL ≤ 44) will be considered for the randomization. The outcomes will be recorded at baseline (T0), after 25 + 3 sessions of intervention (T1), and at 6 months post-stroke (T2). The motor functioning assessed by the FM-UL (0-66) will be considered the primary outcome. The clinical assessments will be set based on the International Classification of Function, Disability and Health (ICF). A patient satisfaction questionnaire will be evaluated in the EG at T1. A subgroup of patients will be evaluated at T0 and T1 via electroencephalography. Their brain electrical activity will be recorded during rest conditions with their eyes closed and open (5 min each). CONCLUSION: The results of this trial will provide an in-depth understanding of the efficacy of early UL-RAT through a whole arm exoskeleton and how it may relate to the neural plasticity process. The trial was registered at ClinicalTrial.gov with the registration identifier NCT04697368.

Topics & Concepts

NeurorehabilitationRehabilitationPhysical medicine and rehabilitationMedicinePowered exoskeletonStroke (engine)Randomized controlled trialExoskeletonPhysical therapyInternational Classification of Functioning, Disability and HealthClinical trialUpper limbSurgeryPathologyMechanical engineeringEngineeringStroke Rehabilitation and RecoveryProsthetics and Rehabilitation RoboticsEEG and Brain-Computer Interfaces