View clinical trials related to Chronic Stroke.
Filter by:This study will investigate the clinical, functional and neurophysiological effects of automated mechanical peripheral stimulation (AMPS) via the Gondola device administered to patients with chronic stroke, cerebral palsy and Parkinson's Disease. Results will be collected using standardized outcome measures and a transcranial magnetic stimulation assessment protocol including electrical stimulation and electromyographic recording.
The purpose of this study is to assess the effect of rTMS and tDCS coupled with robotic therapy on upper extremity functional recovery
Stroke occurred when blood supply to brain or a part of brain is disturbed due to clot (ischaemic stroke) or due rupture of small vessels (hemorrhagic stroke) in brain and causes bleeding in brain cells. The prevalence of stroke was 1.2 % (1200/100,000) in Pakistan, 3.1% in China and it is 44.29 to 559/100,000 in different parts of the world. Leading cause of stroke is hypertension. The aim of study will be to compare universal exercise unit therapy with sling exercise therapy on lower limb kinematics, disability, balance and quality of life in chronic stroke patients.
The purpose of this study is to determine if treadmill training combined with thera-band resistance to body support and forward propulsion would be more effective than treadmill training alone in improving over-ground walking ability and reducing energy cost in chronic stroke patients. This study will also characterize the neuromuscular and kinematic strategies to adapt to resisted treadmill walking in non-impaired adults and stroke patients.
The aim of this study is to describe the effect of neuromuscular electrical stimulation (NMES) in the form of functional electrical stimulation (FES) applied to different lower limb muscles on reactive balance and gait performance in stroke participants. Methods: Twenty individuals with chronic stroke will be asked to perform an experimental protocol that includes a postural disturbance in the form of a slip- or trip-like perturbation and a standardized walking test in both laboratory and outdoor environments with and without FES applied to different lower limb muscles of the paretic leg. FES will be applied using an advanced software that is able to synchronize muscle activation with the time of perturbation onset and according to the phases of gait. This project design aims to examine whether a specific pattern of lower limb muscle stimulation could improve the kinematic and behavioral responses during reactive balance following slip- and trip-like perturbations. Additionally, the project aims to see if the kinematic and spatio-temporal gait parameters can be modified during a standardized walking test under different sensory and environmental conditions.
The purpose of this study is to examine the reflex excitability of the rectus femoris in individuals with and without post-stroke Stiff-Knee gait. We use electrical stimulation of the peripheral nerve innervating the rectus femoris for a well-controlled reflex stimulus. We are investigating whether reflex excitability of the rectus femoris correlates with gait kinematics.
Stroke is a major health problem and can cause long-term disability. Among these sequelae, there are balance and mobility disorders, but also a higher rate of anxiety or depression disorders. This impairments impact activity of daily living, and social reintegration. That why the investigators need to explore options for long-term sustainable interventions that which takes into account the patient as a whole. In particular, regular physical activity is recommended, but it must be adaptable to the patient's impairments. Teaching yoga may be an interesting option. Indeed, yoga is a mind-body practice which become increasingly widespread in the world. Recent studies highlight positive effect of yoga for this population. However, the levels of evidence are limited, and new studies are needed. Primary objective of the study is to demonstrate the non-inferiority of a therapeutic yoga program, compared to a conventional physical activity program, to improve balance of patients with chronic stroke sequelae. Secondary objectives are to demonstrate the non-inferiority of the therapeutic yoga program in improving muscle strength and functional mobility, as well as its superiority in improving anxiety, depression, social reintegration and adherence to treatment.
Transcranial direct current stimulation (tDCS) has shown the potential to improve symptoms in patients with movement deficits, such as Parkinson's disease and chronic stroke. However, the effects of tDCS have so far not been proven on a wider scale due to lack of knowledge regarding exactly how tDCS works. This has limited the adoption of this potentially useful therapy for patients with Parkinson's disease, chronic stroke and other conditions affecting movement. The investigators hypothesize that by studying the effects of tDCS in subjects performing a motor task, the brain signals mediating improvements in motor control will be identified. The investigators will use both noninvasive and invasive methods to explore this hypothesis. The investigators expect this combined approach to broaden understanding of tDCS application in conditions affecting movement and possibly lead to therapeutic advances in these populations.
Difficulty walking is common after a stroke. Although physical rehabilitation helps a little with the improvement of walking ability, recovery is usually incomplete. The purpose of this study is to explore how two different treadmill training approaches influence walking speed, symmetry, and balance in people with chronic severe stroke-related walking impairment. The two approaches involve either forward or backwards treadmill training. This study will look at changes in walking performance and balance, before and after training. This study may lead to more efficient methods for improving walking performance and balance after stroke.
The INSPIRE study is interventional, European, prospective, open, multicentric, each patient being his/her own control. It is conducted to assess the safety and performance of the Atalante exoskeleton system in patients presenting an hemiplegia due to cerebrovascular accident. The primary endpoint is defined by the reported adverse events. The study will include 40 patients and takes place in six rehabilitation centers (4 in France, 1 in Luxembourg, 1 in Belgium).