Unilateral Cerebral Palsy Clinical Trial
Official title:
Quantified Analysis of the Movements of the Upper Limb of Children With Hemiparesis Participating in the Stress Induced Therapy Program
In France, Cerebral Palsy (CP) affects 1 in 450 births. It results from lesions of the brain, before, during, or shortly after birth. These non-progressive lesions cause muscle impairments, responsible for activity limitations. These muscle impairments include muscle stiffness, and muscle weakness. Children with Unilateral CP (UCP) have these impairments on only one side of the body. To compensate for activity limitations with their impaired arm, these children over-use their non-impaired arm. The objective of constraint-induced therapy (CIT) is to minimize this asymmetry which deteriorates mobility on the impaired side, by forcing the child to only use its impaired arm several hours a day during several weeks of therapy. It is known using clinical tests that this therapy improves the overall motor function of the impaired arm. However, the underlying mechanisms are yet unknown. An understanding of these mechanisms would suggest ways to maximize the effectiveness of this therapy, which requires a significant commitment from the child and its family. The investigaors propose in this project a quantitative and objective evaluation of the effect of CIT on the movements of the impaired arm of children with UCP. The investogators focus their analysis on muscle activation, to assess which aspect of muscle impairments is modified by CIT. To this end, the investigators will use sensors identical to those already used in clinics for the Quantified Gait Analysis of children with CP, recognized since 2006 by the Haute Autorité de Santé as providing key supplementary data in the evaluation of complex gait disorders. Results from this study will provide leads to optimize CIT. Some children could for example benefit from CIT paired with treatments to reduce muscle stiffness or to strengthen muscles
Quantitative and objective evaluation of upper limb movements will take place in a motion
analysis laboratory and will take place as follow:
- A clinical exam of the participant will be performed by the physician to collect maximal
passive joint amplitudes with a goniometer and anatomical measures (length,
circumference) of the upper limb.
- The participant will be equipped with surface electromyographic electrodes to measure
the activation of his superficial muscles, and with retroreflective markers placed on
anatomical landmarks of his thorax, shoulder, and arm, to measure upper limb kinematics
with a 3D motion capture system composed of 8 VICON cameras.
- Maximal forces of elbow pronosupination and flexion-extension will be measured with a
portable dynamometer.
- The participant will be placed on a height adjustable bench, in the center of the
laboratory. He will be asked to perform upper limb movements:
- A few movements not measured, to familiarize with the equipment;
- Recorded movements: a trial is composed of a few consecutive cycles of a movement
such as elbow flexion-extension. A trial usually last about 10seconds. A few
seconds-time of rest is imposed between each trial. The required movements are the
following: elbow flexion-extension, elbow pronosupination, and "hand to mouth".
- Finally, the participant will be asked to lie down on an exam table and to rest relax,
in order to measure the electromyographic signal of his muscles at rest.
Duration of the protocol is about 1h30, with less than 30seconds of effort, and a few minutes
of performing simple upper limb movements.
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