This study evaluates cognitive-motor interference in stroke patients who is responsible an alteration of spatio-temporal gait parameters. It's proved in the literature but the underlying pathophysiological mechanisms remain poorly understood. fNIRS is a functional imaging technique that evaluates this interference under optimal conditions. The purpose of this study is to evaluate the hemodynamic activity of the CPF in walking post-stroke patients under different DT conditions.
Walking is a motor task that involves cognitive functions. The parameters of walking and brain activity are modified in situations requiring significant attentional and cognitive demand. fNIRS is an interesting functional neuroimaging technique for studying cortical activity when performing a Dual Task (DT). To our knowledge, no studies have examined cerebral oxygenation levels in post-stroke patients based on different cognitive loads during walking. Understanding cognitive contributions in a dual-task walking situation is necessary to providing targeted interventions and preventing falls. Patients included in the study will be evaluated in single cognitive task, with two levels of difficulty, single walking motor task, and dual task with two levels of cognitive difficulty. The fNIRS will record the hemodynamic activity of the prefrontal cortex for the cognitive slope and the GAITRite will record the walking parameters.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
11
The cortical activity of each patient is recorded by NIRS under the following conditions: * Simple task : The patient walks on an electronic walking track (GAITRite system) over 10 meters. The data collected are the spatio-temporal parameters of walking. * Cognitive task alone : two conditions of the n-back test (1-back and 2-back) to study neural activities related to working memory. The duration of realization will be 30 seconds by condition and we retain the number of errors realized. * Double Task : Achievement of the motor task (10-meter walk) is performed at the same time as a "weak" cognitive task (1-back) and a "high" cognitive task (2-back). The spatio-temporal parameters and the number of errors are collected by the observer.
University Hospital
Limoges, France
Cost of the Double Task
the double task (DT) cost measured by the average difference in magnitude of hemodynamic responses in HbO2 at the CPF level obtained by the fNIRS between the DT high and low cognitive load.
Time frame: Day of the Inclusion
Impact of the double task on spatio-temporal parameters of walking and on cognition
Spatio-temporal parameters (walking speed, walking time, cadence, pitch length and pitch variability) of walking, measured on GAITRite as a function of the cognitive load of the Double Task (DT)
Time frame: Day of the Inclusion
Evaluate the asymmetry of cerebral activation in different walking conditions
Measurement of the mean difference of hemodynamic HbO2 activation of the CPF between the lesional side and the contralateral side by fNIRS as a function of the cognitive load in Double Task (DT).
Time frame: Day of the Inclusion
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