View clinical trials related to Stroke, Cardiovascular.
Filter by:OptiCogs Online is a complex multicomponent intervention comprising of cognitive, physical activity and educational components.
Background: Aerobic exercise training has favorable effects on quality of life, motor recovery, and aerobic endurance after stroke. Objectives: In this study, the investigators aimed to explore the effects of anti-gravity treadmill gait training and underwater walking therapy on cardiorespiratory fitness in stroke survivors.
This study will provide knowledge about effectiveness of motor imaginary training in upper limb performance in chronic stroke patients. Very little data is available about the use in Motor Imaginary in post stroke upper limb rehabilitation in Pakistan. Moreover, studies done previously did not specified population of stroke; This study will include MCA stroke patients only, whom upper limb weakness is more prevalent.
This project is designed to use three-dimensional movement analysis and magnetic resonance (fMRI) neuroimaging techniques to examine the brain activity and motor behavior changes associated with constraint-induced (CI) therapy for patients with sub-acute stroke (3-9 months post-stroke).Participants are evaluated at 5 time points-1-mo (pre & post), 6-mo (pre & post), and 12-mo. Each person is randomized to receive CI therapy either between pre- and post-evaluations or after the 6-mo pre-evaluation. We will determine the effects of CI therapy on 1) reaching and grasping actions using behavioral kinematics and 2) the sensorimotor network through fMRI scans with goal-directed aiming and grasping tasks. We will also determine the relationship between lesion size and location using 3-D volumetric MRI scans and behavioral outcomes as a consequence of CI therapy.
Stroke is often associated with secondary complications such as nutritional and metabolic disorders, endocrine dysfunction, mental problems, and cardiopulmonary disorders caused by neurological and musculoskeletal deficits. The absence of the paretic side muscles and the difficulty of movement together with restrictive pulmonary disorders trigger a secondary decrease in cardiopulmonary function and expose insufficient energy associated with gait resulting in a decrease in asymmetric trunk exercise endurance.
This 3-year study will recruit a total of 72 subjects with first-ever stroke after 3 months onset from the department of Physical Medicine and Rehabilitation in 3 teaching hospitals. This study design employs a prospective single-blinded, randomized controlled trial with pretest, posttest, and follow-up assessments. Participants who meet and be willing to join this study will be assigned into one of three groups (noxious cold only, noxious heat only, or alternative TS). All subjects will receive conventional rehabilitation. In addition, three groups will receive an additional TS protocol with a total of 15 sessions for 3 weeks (5 times per week, 30 minutes daily). Primary outcome measures include the LE subscale of Fugl-Meyer assessment, the modified Ashworth scale, the Postural Assessment Scale for Stroke Patients, Timed Up and Go test, and the Barthel index. Moreover, spinal circuit excitability will be assessed by measuring Hoffmann reflex/ M wave ratio, H-reflex recruitment curves, and reciprocal inhibition of the soleus muscle. Muscle properties will be evaluated by measuring the soleus muscle tone, elasticity, and stiffness. All participants will be assessed with the outcome measures at beginning of the intervention, the end of the intervention, 1 month and 3 months after the intervention.
Effects of different exercise strategies on stroke patients remain unclear. Randomized controlled trial with concealed allocation has been performed from August 1, 2016 to June 30, 2018. We traced back 23 stroke patients, recruited during the above period, aged about 55 years with stroke duration > 24 months . Intervention: 13 of them underwent 36 times of moderate-intensity continuous training (MICT) at 60% of peak oxygen consumption (VO2peak) for 30 mins, and 10 had high-intensity interval training (HIIT) at alternative 80% and 40% VO2peak with the same training times and duration. Outcome measures: VO2peak, cardiac output (CO), bilateral frontal cortex blood volume (∆[THb]), oxyhemoglobin (∆[O2Hb]) and deoxyhemoglobin (∆[HHb]), ventilation efficiency, serum brain-derived neurotrophic factor (BDNF) levels, cognitive and life quality questionnaire, percentage of neuroblastic cell bearing neurites (% neurites), and cell fluorescent staining were examined before and after interventions.
The objective of this multicenter, retrospective, cross-sectional, chart review study is to compare outcomes (disability, complications and mortality) of patients with large vessel occlusion stroke presenting at late time window selected by either Non-Contrast CT (NCCT) only, advanced imaging with CTP (Computed Tomography Perfusion), MRI (Magnetic Resonance Imaging), or medical management. Boston Medical Center (BMC) will serve as the main data coordinating site. Fifteen additional sites will seek local IRB approval or ethics approval. The aggregated de-identified data will be analyzed comparing types of interventions and outcomes by type of imaging or medical management.
This study was conducted to investigate the cortical excitability changes per session in response to the application of low frequency repetitive transcranial magnetic stimulation *LF-rTMS* on the contralesional hemisphere and its impact upon the upper limb motor performance post stroke. As well as, the minimum and maximum number of (LF-rTMS) sessions that would be recommended to achieve boosted enhancement in the cortical excitability findings and subsequently its impact upon the functional performance of the upper limb in stroke patients.Half of the patients were treated with the contralesional (LF-rTMS) in addition to conventional upper limb physical therapy interventions, while the other half received the conventional upper limb physical therapy interventions.
There is an urgent need to reduce the impact of stroke by promoting optimal rehabilitation strategies that decrease the risk of stroke. Improving cardiovascular health following a stroke is a key rehabilitation strategy that has the potential to reduce the risk of a recurrent event. Adverse cardiovascular events, including stroke, are often due to chronic atherosclerosis, which shows as increased arterial stiffness. Elevated arterial stiffness is prevalent in individuals with cardiovascular disease, is associated with markers of silent cerebrovascular disease and is a new marker for predicting cardiovascular risk. Cardiopulmonary exercise tests (CPETs) are used to assess cardiorespiratory fitness. Novel CPET protocols have emerged for stroke, enabling safe and valid measurements of cardiorespiratory fitness. Cardiovascular exercise, typically performed through moderate-intensity continuous exercise (MICE), can improve function and fitness in individuals living with stroke and lower the risk of recurrent stroke. Recently, high-intensity interval exercise (HIIE) has emerged as a potentially potent stimulus that may also lead to improvements in function and fitness. While HIIE has shown benefits in clinical and non-clinical populations, only a few small, preliminary studies have examined the effects of HIIE in individuals living with stroke, and most have primarily focused on examining the effects of HIIE on function and gait. No study has examined and compared the acute effects of a CPET, MICE and HIIE on arterial stiffness in stroke. This study will (1) examine the acute effects of a single session of this HIIE protocol compared to a CPET and a single session of MICE on arterial stiffness among individuals with chronic stroke, and (2) the feasibility of a high-intensity interval training exercise protocol previously found to be tolerable and effective in attaining high levels of exercise intensity in in these individuals.