fNIRS Study of Effort-dependent Brain Activations During Pointing Movements of the Upper Limb in Post-stroke Patients and Healthy Subjects (BIROBONIRS)

Clinique Les Trois Soleils

Status

Enrolling

Conditions

Healthy

Stroke

Treatments

Other: Upper limb pointing movements in 3 experimental conditions

Study type

Interventional

Funder types

Other

Identifiers

NCT06116006

2022-A02827-36

Details and patient eligibility

About

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.

Full 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.

Enrollment

56 estimated patients

Sex

All

Ages

18+ years old

Volunteers

Accepts Healthy Volunteers

Inclusion and exclusion criteria

INCLUSION CRITERIA

For stroke subjects

Age ≥18 years;
Stroke-induced hemiparesis, chronic phase (>6 months post-stroke);
Moderate upper limb paresis defined by an upper limb FMA score 20 pts < FMA score < 47 pts ;
Right-handed patient;
Patient having agreed to sign an informed consent form;
Patient affiliated to the French social security system.

For healthy subjects

Age-matched participant, for each stroke subject included will be associated a control subject of the same age (to the nearest 5 years);
Right-handed participant;
Participant having agreed to sign an informed consent form;
Participant affiliated to the French social security system.

NON-INCLUSION CRITERIA

For stroke subjects

Cognitive impairment making participation in the study impossible;
Phasic disorders preventing comprehension of instructions and effective communication.

For healthy subjects