View clinical trials related to Stroke Sequelae.
Filter by:One of the causes of disability in stroke patients is postural disturbances that result in postural asymmetry in the standing position, characterized during an evaluation on a force platform by a greater displacement of the center of pressure towards the lesion side and thus by a greater percentage of weight on the lower limb (Weight -Bearing Asymmetry (WBA)). Today, the mechanisms of balance disorders in standing position are better understood. Indeed, in addition to sensory and motor deficits, spatial cognitive disorders also contribute to these postural disturbances, particularly in right brain damage stroke. This would be the reason why patients with right brain damage have a more precarious and time-consuming balance to re-educate than patients with lesions located in the left hemisphere. Postural disturbances can also result in a disturbance of balance in the sitting position, which is a poor prognosis for the acquisition of transfers, standing and walking. To date, seated postural disturbances are not perfectly described with many differences in the explanatory mechanisms found in the literature. Thus, some people notice a more pronounced asymmetry on the medio-lateral plane while others find a more pronounced imbalance at the antero-posterior plane. Sitting posture disorders benefit from few instrumental measurement tools outside clinical measurement scales. A very wide variety of evaluation methods by instrumental measurements are proposed and not validated. Sensor pad, which are usually used to adjust the bases of pressure ulcer patients, may be useful in quantifying the postural balance. But since the involvement of the head and trunk in the sitting posture is well documented in the literature, the addition of an evaluation of the position of the trunk and head seems essential. To our knowledge, no author has proposed to quantify sitting balance disorders by combining a measure of support asymmetry by taking into account the posture of the trunk with that of the head.
Muscle fatigue is caused by biochemical changes that modify the mechanics of muscle contraction, which result in negative changes in the performance of the contraction. The objective of this study is to evaluate the effects of LLLT on brachial biceps muscle fatigue in healthy individuals and individuals with spastic hemiparesis. The study will consist of three groups (Control Group, Placebo Group and LLLT Group) and all individuals will go through all groups, following the criteria of randomization. The protocol consists of LLLT application in the dominant side brachialis muscle in healthy subjects and on the hemiparetic side of post-stroke individuals, prior to performing the Isometric Maximum Voluntary Contraction (IMVC) for 50 seconds in the isokinetic dynamometer. Will be evaluated pain, myoelectric activity associated with muscular torque, local temperature and blood lactate concentration.
The recovery of a balance and gait is a primary objective for geriatric, neurological or orthopedic rehabilitation. Since the 80s, many walking robots were proposed. Despite encouraging results, the use of robotic equipment for gait training remains limited, even if they meet a strong social demand. The reasons for this situation are economic, but also related to the non consideration of the context of utilization . This project aimed at developping a mobile and interactive robot, dedicated to the rehabilitation of balance and gait at an early stage. It was intended for patients with impaired walking vascular neurological, traumatic or associated with chronic neurological disease. The aim of the study is to study the effectiveness of the prototype (interactive walking mobile robot).
The aim of this study is to assess the motor learning of patients with chronic stroke in virtual environments. Half the patients will undergo conventional therapy and half virtual reality training using virtual game. The study will also include healthy individuals matched for age, sex, schooling and hand laterality.