View clinical trials related to Stroke.
Filter by:Stroke is the third commonest cause of death and is probably the commonest cause of severe disability. Upper limb recovery after stroke is unacceptably poor with only 50% of stroke survivors likely to regain some functional use. In many disabilities, the rehabilitation process is of long duration and clinicians face the challenge of identifying a variety of meaningful and motivating intervention tasks that may be adapted and graded to facilitate this process.. Motor learning models emphasize that self-generated voluntary actions should be used and repeated in playful and motivational settings and that the difficulties of the task have to be at an appropriate level for successful learning. Motivation to use the hemiplegic upper extremity was considered to be the most important factor in guaranteeing intense practice and was achieved through the patient's individual inner drive and motivation for play. Virtual reality-based therapy is one of the most innovative and developments in rehabilitation technology. Enhanced feedback provided by a virtual reality system has been shown to promote motor learning in normal subjects. Interaction with objects in a virtual environment (VE) through grasping and manipulation is an important feature of future virtual reality simulations. Until now, there has been limited research involving the inclusion of virtual reality gaming systems in neuro-rehabilitation for hemiplegic patients. So the purpose of this study will be evaluation of the efficacy of virtual reality technology on improving the function of the involved upper extremity in Saudi patients having stroke.
The objective of the NEUTROSURGERY study is to describe the local and locoregional immuno-inflammatory activity in patients suffering from malignant sylvian ischaemic cerebral accident and treated with decompressive hemicraniectomy compared to a control population of patients to be operated on in neurosurgery for another neurosurgical pathology.
The Amadeo® Manual Robotic System (Tyromotion GmbH, Graz, Austria) is designed for rehabilitative treatment of the hand and fingers providing robot-assisted exercise for the finger flexors and extensors. This system has a controlled position, active, active-assisted and passive exercise mode, it also allows isometric exercises with visual feedback provided during computerized games that emphasize flexion and extension. Another of the functions that this device presents and that differentiates it from other handheld robotic systems is its vibration function. Through sensors that are placed on the fingertips, providing a vibratory proprioceptive stimulus of different frequencies. Currently, there are no published trials on the efficacy of the vibration of this device and its consequent improvement in the sensitivity and functionality of patients with hemiparesis after stroke. Investigations have been conducted in patients with peripheral lesions and in the healthy population. A preliminary study with monkeys demonstrated that the frequency of the vibration presents better results when the muscle stretch receptors are driven by a high frequency vibration, activating the neurons corresponding to the motor cortex and in the 3rd primary sensory area. More recent studies have shown the efficacy of focal vibratory stimulation applied to the wrist and forearm muscles, specifically the application to the tendon of the stimulated muscle. Regarding the most appropriate form of stimulation, the most important determining factors to highlight are the frequency of application, the duration and intensity and the time of application. The mechanism of action of local muscle vibration is to stimulate various receptors. Meissner corpuscles respond best around 40 Hz, while Vater-Pacini corpuscles around 100 Hz. Together, they are also known as rapidly adapting cutaneous receptors. In contrast, Merkel-Ranvier cells and Ruffini corpuscles are called slow-adapting and classically described as sensitive to sustained pressure. That is why authors of different studies have focused on high frequency vibration of 300 Hz, for 30 minutes. 3 times per week. The duration of vibratory stimulation, different studies show the effects of vibration and changes in the cortex after performing the treatment constantly, for about ten days, intensively three to four days a week, observing long-term changes in terms on cortical excitability.
TELEstroke to CAre for STroke Patients at a Comprehensive Stroke Center (TELECAST-CSC) during the COVID-19 pandemic is a pre-post study evaluating guideline-based acute ischemic stroke care following the implementation of inpatient telestroke at a comprehensive stroke center during the COVID-19 global pandemic. TELECAST-CSC compares two cohorts: the "in-person phase" (December 1, 2019-March 15, 2020), when all inpatient stroke team care was delivered conventionally in-person and the "telestroke phase" (March 16, 2020-June 29, 2020) when all inpatient stroke team care was delivered exclusively via telestroke as part of our healthcare system's pandemic response. We studied the following primarily clinical endpoints: diagnostic stroke evaluation, secondary stroke prevention, health screening and evaluation, stroke education, mortality, and stroke recurrence and readmission rates.
The purpose of this research study is to determine whether blood pressure treatment regimens with spironolactone are better than blood pressure treatment regimens without spironolactone at lowering blood pressure in stroke survivors.
The objective of this study is to develop and evaluate novel robotic training strategies that modulate errors based on the subjects' individual motor and cognitive needs. For this purpose, healthy adults and neurologic patients will participate in robotic motor learning experiments. Patients have a diagnosis of a neurological disease (i.e., stroke, spinal cord injury, multiple sclerosis, Guillain-Barré syndrome) limiting arm motor function.
The main objective of MindFit Project is to develop an evidence-based multimodal investigation of combined non-pharmacological strategies in chronic stroke patients and clarify the neuroplasticity mechanisms underlying the benefits of physical exercise and mindfulness strategies combined with cognitive training on post-stroke recovery. The investigators have adopted a multidisciplinary and multimodal approach to provide a more integrative perspective using cognitive, social-psychological, biochemical, and neuroimaging measurements.
Cerebrovascular accident [CVA] (medical term for stroke) is a high burden worldwide disorder and the second leading cause of disability. As illustrated by the number of survivors that remain disabled after a CVA (2 out of 3 according to the US National Stroke Association), recovery is limited, and novel neurorehabilitation approaches are urgently needed. Hippotherapy is an emerging specialized rehabilitation approach, performed by accredited health professionals on a specially trained horse via its movement. A body of scientific evidence has gradually emerged in recent years, showing robust benefits of hippotherapy in various massive neurological disabling conditions including brain stroke. The aim of the study is to analyze the effect of a hippotherapy program of several cycles delivered during 22 weeks in total, on the functional and global evolution of post-stroke patients (with a score of Rankin ≥ 3 at inclusion) during the outpatient rehabilitation phase. A second purpose is to measure the impact of the intervention on the quality of life of their close caregivers. A prospective clinical trial on the effectiveness of hippotherapy versus conventional outpatient rehabilitation alone will be carried out. The 22-weeks program includes three cycles of hippotherapy as follows: an initial 2-weeks cycle, an intermediate 1-week cycle and a final 1-week cycle. One-hour daily sessions will be conducted during each cycle exclusive additional rehabilitation care. After each cycle, the patients will have a 9-weeks rest period where they will continue their conventional therapy. A battery of clinical tests will measure both functional and psychological outcome. The primary end point will be the functional independence of the patient. The secondary end points will consider the patient's sensorimotor and cognitive function, the severity of stroke and the quality of life, as well as the caregivers' burden and quality of life. Program evaluation is important in neurorehabilitation to ensure that patients are achieving meaningful outcomes from the care. A primary question is how do stroke patients clinically evolve after being discharged from the hospital and how stable is the achieved rehabilitation outcome. Hippotherapy optimizes brain plasticity and has a strong impact on the global rehabilitation process and functional outcome of these patients. A remaining question concerns the improvement of the caregivers' quality of life.
The purpose of this study is to investigate the physical, psychological, social and functional aspects of life in relatively young people suffering from vascular stroke and in people diagnosed with multiple sclerosis of the same age group and to generally assess the subjective perception of these patients about their general health and well-being. In addition, to assess the degree of depression experienced by people in this age group who suffer from these diseases. Additional objectives are to investigate important factors that negatively affect the quality of life in this group of patients, according to the international literature, and to highlight targeted interventions to promote mental and physical health in order to improve the quality of life in these chronic patients.
There is currently no prospective study analyzing the effect of tracheostomy with bedside simultaneous gastrostomy versus tracheostomy with delayed gastrostomy placement (TSG versus TDG) on the outcomes of neurocritically-ill patients. The investigators will study TSG via concomitant PDT and PUG procedures, while TDG will occur per usual care. This study is a prospective randomized open-label blinded endpoint study to assess the effect of tracheostomy with bedside simultaneous gastrostomy (TSG) versus the usual care of tracheostomy with delayed gastrostomy (TDG) placement on outcomes of neurocritically-ill patients.