View clinical trials related to Stroke.
Filter by:A single-site, interventional, single-arm trial to evaluate the safety and efficacy on functional mobility following Samsung GEMS-H (Gait Enhancing and Motivating System - Hip) device training in participants with sub-acute and chronic stroke.
Our study was planned to investigate the reliability validity of the Movement Imagery Questionnaire- RS in acute stroke patients. For our study, the Turkish version of the Movement Imagery Questionnaire-RS will be established first. Then, the reliability and validity of the questionnaire in acute stroke patients will be examined. The study included 70 stroke patients hospitalized in the Stroke Unit of the Neurology Department of Hacettepe University Hospitals and individuals between 50-75 years of age who do not have any disease in Ankara.
Poststroke depression is seen with a frequency of up to 30%. Drug options for depression and accompanying sleep problems are limited; In addition, effective doses cannot be increased depending on the comorbidities of the patients and the side effect profiles and drug interactions of the drugs used. Acupuncture has been used in Chinese traditional medicine for more than 2000 years and there are findings that it has positive effects in post-stroke depression and anxiety disorders. The aim of this study is to examine the effectiveness and reliability of acupuncture treatment in depression and anxiety disorders developing after stroke and to reduce the need for multiple drugs and / or high-dose medication in the treatment of these complications. The hypothesis of the study: Acupuncture is an effective and reliable treatment method for depression and anxiety disorders in stroke patients.
This study will validate a predictive model that uses demographics, functional status, neurophysiology, neuroanatomy, and other potential biomarkers to predict the likelihood of a clinically significant change in impairment at the end of a robot assisted therapy intervention.The study will include magnetic resonance imaging (MRI), transcranial magnetic stimulation (TMS), and an arm exercise program consisting of robot-assisted exercise combined with functional arm exercise called transition to task training (TTT).
Ischemic stroke is an important cause of death and disability in Western countries. Different risk factors have been identified such as hypertension, diabetes, dyslipidemia, smoke, atrial fibrillation, obesity, and sedentary. The aim of this study is to evaluate the feasibility of an approach based on the use of wearable devices for the identification and reduction of risk factors in patients with previous history of ischemic stroke or transient ischemic attack.
The research focuses on top-down intervention approaches and more specifically on the Cognitive Orientation to daily Occupational Performance (CO-OP) method in the rehabilitation of executive function disorders in adult post-stroke subjects in chronic phase. The main objective of this study is therefore to improve performance in significant activities of daily living for people with chronic post-stroke dysexecutive disorders.
CEST in Stroke is an observational magnetic resonance imaging (MRI) study in acute ischaemic stroke patients. Ischaemic stokes are the most common type of stroke and occur when a blood clot blocks the flow of blood and oxygen your brain needs. This can lead to cellular death (infarction) so the quicker a stroke is diagnosed and treated, the better a patient's recovery is likely to be. The purpose of this study is to determine the technical feasibility of a new MRI technique known as Chemical Exchange Saturation Transfer (CEST) imaging for assessing the extent of potentially salvageable brain tissue (penumbra) around an area of infarction. CEST imaging works by looking at the chemicals in the brain cells. The chemicals may change when cells are affected by stroke. Stroke patients are not normally treated with with clotbusting drugs or clot-retrieving devices if they arrive at hospital many hours after the stroke because treatment may not help and in some cases it may cause more harm than good. However, the new MRI technique could detect those stroke patients who arrive at hospital many hours after the stroke but still have salvageable brain - in these cases it would be helpful to treat these patients and therefore stop those cells from dying. However, there are several technical issues that need to be addressed before CEST can be adopted as a routine clinical assessment. CEST in Stroke hopes to address these issues by using an alternate MRI sequence capable of acquiring CEST data over a large portion of the brain in approximately in 10 minutes. The overall aim of study is to determine the feasibility of CEST imaging for assessing the extent of penumbra, in order to determine which patients may benefit from re-perfusion interventions who would otherwise not be eligible. If the study is successful, further research will be implemented to help clinical decision making in stroke patients who present outside of conventional time windows.
This is a multicenter, doble blind, placebo controlled clinical trial to asses de safety and efficacy of intravenous administration of alogenic adipose tissue-derived mesenchymal stem cells in the first four days from acute ischemic stroke.
The investigators will determine the client and non-client variables associated with discharge to an inpatient rehabilitation facility vs. skilled nursing facility in individuals' post-stroke. The investigators will determine how these variables are associated with short-term (discharge from facility) and long-term (6-months post-stroke) function and quality of life.
There are over 7 million stroke survivors in the US alone, with approximately 795,000 new cases annually. Despite the best available physiotherapy, 30-60% of stroke survivors remain affected by difficulty walking, with foot weakness often being the main cause. Given that post-stroke gait impairments remain poorly addressed, new methods that can provide lasting improvements are necessary. Brain-computer interface (BCI) technology may be one such novel approach. BCI technology enables "direct brain control" of external devices such as assistive devices and prostheses by translating brain waves into control signals. When BCI systems are integrated with functional electrical stimulation (FES) systems, they can be used to deliver a novel physical therapy to improve movement after stroke. BCI-FES systems are hypothesized to stimulate recovery after stroke beyond that of conventional physical therapy.