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Biomechanical Characterization of the Locomotion in Multiple Sclerosis Patients

Completed
Conditions
Multiple Sclerosis
Interventions
Diagnostic Test: Motion Analysis
Registration Number
NCT03756142
Lead Sponsor
Lille Catholic University
Brief Summary

Multiple sclerosis (MS) is an inflammatory chronic disease of the central nervous system. Patients are suffering from balance and gait impairments at the early stage of the disease.

85 % of the MS patients report gait disorders, which impact their autonomy and their quality of life and increase the risk of fall.

The three-dimensional analysis of the walking by a motion capture system associated with force platforms allows the quantification of the complex walking disorders, to look for the cause, as well as side effects such as compensation strategies.

According to the 2006 report of the French National Authority for Health, the 3D analysis of walking is essential in chronic pathologies to evaluate and quantify gait disorders. This analysis allows the functional follow-up of the patients throughout their rehabilitation. Some studies, on a small and heterogeneous population of MS patients, showed changes during the walking concerning spatiotemporal, kinematic, dynamic parameters and muscular activation of lower limbs at early stages of the disease. Only two studies evaluate the joint power during walking in MS patients. However, these studies have some limits.

The 3D analysis of the walking proposed in this study would allow the biomechanical characterization of the gait impairments of MS patients through tasks such as walking, gait initiation and orthostatic posture. This methodology would contribute to adapt treatments and the rehabilitation care, at an early stage of the disease.

From a functional point of view, the gait initiation is an interesting dynamic task to be evaluated. Indeed, it represents the transition between the upright posture and the stabilized walking. Throughout this complex task, a stereotypical motor program is set up during a first phase of anticipatory postural adjustments, which allows the creation of dynamic conditions essential for the execution of the first step. The gait initiation is little documented for MS patients despite the risk of fall clinically highlighted. The articular power during the gait initiation was never estimated in MS patients. On the other hand, there is no study establishing correlations between the Expanded Disability Status Scale functional features and the impairments of the gait initiation.

Detailed Description

Not available

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
40
Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Arm && Interventions
GroupInterventionDescription
Healthy volunteersMotion AnalysisAnalysis of orthostatic posture, initiation of walking and walking in a group of healthy volunteers
Multiple sclerosis patientsMotion AnalysisAnalysis of orthostatic posture, initiation of walking and walking in MS patients with an EDSS between 0 and 4 (included) by a motion analysis system
Primary Outcome Measures
NameTimeMethod
Kinematics of lower limbs articulationsat inclusion

Kinematics of lower limbs will be performed by a motion analysis system. The analysis will be carried out with 4 infrared cameras, 2 force platforms, an electromyographic recording system, a computer system for signal analysis and data management. The optoelectronic system used is the 3D Vicon® system, which is based on passive stereovision. motive tasks (orthostatic posture, walking initiation, and the walking).

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

Hôpital Saint-Philibert

🇫🇷

Lomme, France

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Posted 1/27/2020
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