Description Module

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Description Module

The Description Module contains narrative descriptions of the clinical trial, including a brief summary and detailed description. These descriptions provide important information about the study's purpose, methodology, and key details in language accessible to both researchers and the general public.

Description Module path is as follows:

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Description Module

Ignite Creation Date: 2025-12-26 @ 4:03 PM
Ignite Modification Date: 2025-12-26 @ 4:03 PM
NCT ID: NCT06116006
Brief Summary: Background: Following a stroke, as part of neurorehabilitation, the intensity of effort is important to promote neural changes and stimulate motor recovery. There are few studies concerning the cortical activity involved at different levels of intensity during upper limb motor training. Objective: To investigate cortex activation while walking an exoskeleton with 4 levels of guidance force in healthy controls.
Detailed Description: Upper limb paresis is the most common motor deficit following a stroke, and its long-term persistence has an impact on patients' functional recovery and quality of life. Rehabilitation is therefore a major challenge in restoring functional independence. New physical treatments have been developed over the last 20 years to optimize motor relearning by intensifying motor rehabilitation; among them, therapy using robotic devices has shown its effectiveness in reducing motor deficits. This therapy offers various options ranging from assistance to movement resistance, which modulates the intensity of effort required of patients during target-pointing exercises. The brain mechanisms involved in this type of rehabilitation remains imperfectly understood. Functional neuroimaging techniques such as magnetic resonance imaging (fMRI), positron emission tomography (PET) and functional near-infrared spectroscopy (fNIRS) provide important information on brain activation induced by external stimuli. Among these, fNIRS is a non-invasive method for measuring hemodynamic responses associated with activation of the cerebral cortex. It enables the study of cerebral neurovascular coupling, and is based on the fact that an activated cerebral region increases its oxygen consumption and thus local blood volume and flow. A better understanding of the cortical effects resulting from the physical forces applied to the upper limb could help optimize the rehabilitation treatment of patients, thereby promoting cerebral plasticity.The aim of the study is to compare cortical responses measured by fNIRS during 3 types of upper limb pointing movement: * robot-assisted movements * robot-unassisted movements * robot-resisted movements in patients with chronic hemiparesis after stroke and in healthy subjects.
Study: NCT06116006
Study Brief:
Protocol Section: NCT06116006