View clinical trials related to Stroke.
Filter by:Dysphagia is a common problem in post-stroke patients and greatly impaired quality of life. Among them, the strength of tongue and lip muscles played a key role in the oral phase of swallowing and many stroke survivors suffered from these muscles weakness. Iowa oral performance instrument (IOPI) is a standardized portable device that can be used to quantify tongue muscle strength, thus allowing the clinician to set the level of resistance necessary to achieve optimal gains in strength, and also providing visual feedback of performance to the patients to guide training. In this study, we use Videofluoroscopic Swallowing Study (VFSS) to screen for the stroke patient suffering from dysphagia and recruited them into the trial. They then participated in a home based resistance-training program using the tongue depressor, 1 time everyday and each time consisted of 30 repetitions, totally 4 weeks. Various tongue strength variables and subjective scale were obtained before and after the intervention. The purpose of the study was to evaluate the effect of the home based swallowing therapy in the post stroke dysphagia patients.
The goal of this interventional study is to assess differences in the metabolic consumption, the cardiorespiratory effort, the cardiac autonomic adaptation, and fatigability during ADL, such as standing from a chair and walking while wearing an electrically powered exoskeleton in different modes of supports in subjects with neurological diseases with moderate to severe walking impairments.
To promote the application of the standardized secondary prevention of stroke in primary hospitals,and further reduce the recurrence rate, disability rate, and socioeconomic burden in China, the investigators aim to popularize the standard secondary stroke prevention strategy through artificial intelligence technology, and thus to establish an information management system for standard treatment of stroke.
The goal of this observational study is to evaluate the role of blood pressure (BPV) variability in patients suffering from acute ischemic stroke. The main questions it aims to answer are: 1. To determine the association of BPV with functional/cognitive outcome after ischemic stroke. 2. To determine a pathophysiologic mechanism of BPV's deleterious effect on functional outcome. 3. To evaluate potential treatment targets to pharmacologically reduce BPV after ischemic stroke.
Goal of research program: To understand person-specific factors, such as imaging markers and activity patterns early after stroke, that may guide precision rehabilitation to optimize function and improve recovery. Objectives: 1. Test the effect of reducing sedentary behaviour early after stroke on functional mobility and global disability outcomes. 2. Determine the impact of neuroimaging biomarkers (e.g. leukoaraiosis) on response to rehabilitation. 3. Explore the predictive value of accelerometry as an adjunct to the subjective modified Rankin Scale (mRS) to assess functional disability after stroke. Experimental approach/Research Plan/Use of Funds: The investigators aim to recruit 50 participants within 1 week of ischemic stroke onset, aged ≥ 18 years, medically stable as deemed by their physicians, able to walk at least 5 meters with/without gait aid and with ongoing walking or balance goals. Demographic and stroke characteristics, including stroke risk factors, infarct location and volume, leukoaraiosis on routine MRI, and acute stroke treatments (e.g., thrombectomy) will be determined and documented. A battery of impairment, psychosocial, and functional measures, including the mRS and Timed-Up and Go test (primary outcomes) will be completed. Subsequently, participants will be set up to wear activPAL accelerometer, validated in stroke, for 1 week. Following randomization, a sedentary behaviour change intervention will span 6 weeks, with final follow-up assessments at 90 days.
Covert stroke occurs in one out of fourteen patients during or shortly after surgery, and may result in long-term disability. Fortunately, stroke that occurs during non-cardiac surgery is most commonly caused by inadequate blood flow to the brain and is, therefore, preventable if it can be detected early. Current clinical tools used to monitor the brain during surgery do not have the accuracy nor the spatial coverage - they only monitor one small region of the brain. In this study, the investigators plan to apply a cutting-edge optical device, tr-fNIRS, to monitor the whole brain during shoulder surgery. The primary aim is to determine any regional differences in cerebral oxygenation (ScO2) and cerebral autoregulation (CA)between brain regions during surgery and especially during various physiological challenges, such as hypotension. The investigators hypothesize that certain brain regions are more likely to develop cerebral desaturation and impaired CA, and are more prone to brain injury than the frontal lobe region which is the traditional monitoring site. The investigators also hypothesize that cerebral desaturation (or hypoxic injury) events correlate with adverse postoperative neurological outcomes such as covert stroke, overt stroke and/or postoperative delirium.
To determine the effect of gait training with auditory stimuli on dynamic balance, gait and functional independence on chronic stroke.
Despite increasingly effective early treatment strategies for ischemic stroke, post-stroke recovery is often incomplete and depend on spontaneous and therapeutic-induced processes related to neuroplasticity, angiogenesis and reperfusion. These processes are regulated by growth factors, neurotrophines, neurotransmitters, hormones and other factors. This study aims to search biomarkers that prognose brain repair ability and consequently estimate an outcome of stroke patients. The prognostic value of proteins VEGF, IGF-1 and MMP-9 and expression of genes VEGF, IGF-1, MMP-9 is evaluated in association with clinical scales including cognitive assessment scales and depression scales. Blood sample collection as well as scales recording are taken at baseline and 3 weeks later after rehabilitation.
The aim of our study is to objectively and clearly determine the differences between the Spasticity and Decreased Functionality in the Upper Extremity Flexor Group Muscles After Stroke, the Vibration, mBZHT and Physiotherapy and Rehabilitation Applications in terms of treatment process and effectiveness, and to increase the use of the hands and upper extremities in the daily life activities of the patient.
This study will explore whether sleep disruption in the sub-acute phase of stroke explains variation in clinical motor outcomes, and whether this relationship is mediated by variation in behavioural measures of overnight consolidation.