View clinical trials related to Stroke.
Filter by:The DOWN-SUITE study is multicenter, randomised, controlled, open-label clinical trial with blinded outcome assessment comparing collateral status in patients with acute ischemic stroke treated with an in-hospital application of head down tilt -10° to -15° (HDT15) versus usual positioning (0° to +30°) before endovascular mechanical thrombectomy. This study will involve adult patients who are eligible for mechanical thrombectomy and who have acute ischemic stroke due to left or right middle cerebral artery occlusion (M1 segment). The investigators hypothesise that HDT15, applied in acute ischemic stroke patients with a large vessel occlusion, will improve collateral circulation, prolong the survival of the ischemic penumbra and improve the clinical benefit from mechanical thrombectomy compared with standard of care (usual positioning 0° to +30°).
This study is a randomized and open comparative study that uses two parallel groups: a control group training with conventional therapy and another group that trains with the device "Miraπ". The participants are patients with stroke with motor weakness in one hand. Two measurement visits are required. During those visits, different hand function assessments will be carried out to analyze the motor function of the subjects hand. The measurements will be done during their inpatient rehabilitation stay, one at time of admission and the second at discharge, each taking 20 minutes. In the time between the measurement visits, the hand therapy takes place fivemtimes a week.
Trial design This study is a protocol of a phase II clinical trial which will be conducted in two countries (Belgium and Spain) to compare the effectiveness of DN and BTX A in reducing post-stroke spasticity in the plantar flexor muscles. This study is a prospective randomized, controlled, multiple-baseline design with blinded assessors. The study will be registered in ClinicalTrials.gov and will have a length of 19 weeks Trial population Inclusion Criteria: 1) aged 18-75 years old, 2) having lower limb post-stroke spasticity in ankle plantar flexors (MAS scores of 1, 1+ and 2); 3) having had a first stroke; 4) having no more than 12 months of evolution since stroke; 5) having no previous Dry Needling (DN) or Botulinum Toxin type A (BTX A) treatment for spasticity; 6) having ankle PROM ≥ 20° (approx.) when the knee is supported in ~30° flexion; 7) being able to walk independently with or without aids. Exclusion Criteria: 1) medical conditions interfering with data interpretation; 2) any contraindication to receiving BTX A or PS treatment; 3) If taking anti-spasticity medications, participants must be on stable medication for at least 3 months prior to the start of the study and neither the dose nor the medication can be changed during the tria Interventions Participants will be randomly allocated to the group receiving a session of BTX A or to the group receiving Dry Needling once weekly for 12 weeks. Blinded evaluators will assess the effects before, during, after treatment, and at 4-week follow-up. The trial will have regular monitoring visits by an independent external monitor to ensure compliance with the protocol and Good Clinical Practices. Monitors may review source documents to confirm accurate data on CRD. The investigator and institution will guarantee direct access to source documents for monitors and regulatory authorities.
The aim of this study is to find the effects of strength training with or without mirror therapy of non-paralytic upper limb for functional activities and in lower limb for gait pattern, balance and stability, and ADLs of paralytic side in patients with acute and sub-acute stroke. A randomized controlled trial that will include total 44 participants .The control group will undergo usual rehabilitation training along with strength training. The trial group will undergo strength training and mirror therapy of NHS on the basis of usual rehabilitation training. For the control group, training time will be 30 minutes, once a day, 3 days a week for 8 weeks. IN trial group, training time will be 30 minutes therapy, once a day, 3 days a week for 8 weeks. were allowed to rest for 3-5 min during each training. Data collected will be analyzed through SPSS 25.
Stroke is worldwide the second most common cause of death following heart attack and the leading cause of disability. Post-stroke fatigue (PSF) is a common complication after stroke and can be defined as 'an overwhelming exhaustion or tiredness, not related to exertion, which does not typically improve with rest'. Fatigue following stroke can be divided into early (< 3 months) and late (> 3 months) fatigue. PSF can have a considerable impact on a person's everyday activities and quality of life, participation in the rehabilitation process and levels of caregiver burden. Yet no efficient treatment exists to prevent or cure PSF because the pathophysiology remains unclear and seems to be multifaceted. Autonomic dysfunction is a common complication after stroke, associated with higher morbidity and mortality. An easy tool to measure the function of the autonomic nervous system (ANS) is heart rate variability (HRV), which is defined as the beat-to-beat variation of the heart rate (= interbeat interval (IBI)). It is the result of alterations in the sympathetic and parasympathetic nervous system. In recent systematic reviews, authors stipulate that HRV can be regarded as a prognostic factor for short- and long-term stroke outcomes. HRV can be derived from 24 hours, 5 minutes (short-term) and < 5 minutes (ultra-short-term) measurements by applying time-domain and frequency-domain indices. Autonomic dysfunction has been related to chronic fatigue syndrome, in addition to fatigue in multiple sclerosis, Parkinson's disease and myasthenia gravis. However, to the best of our knowledge, the relationship between autonomic dysfunction and PSF has not yet been fully investigated. Fatigue is also common in cardiovascular diseases, especially in patients with heart failure (HF). HF can contribute to fatigue after stroke, independently of stroke. Cardiac complications after acute ischemic stroke (AIS), such as arrhythmias, cardiac dysfunction and myocardial injury, are frequent. The so-called 'stroke-heart syndrome', a concept introduced in 2018, describes a broad spectrum of cardiac changes observed in 10-20% of patients with AIS within the first month after stroke onset, with a peak in the first 72 hours. A dysregulation in the neural-cardiac control after stroke is suspected to be the cause of the cascade leading to cardiac complications, in which autonomic dysfunction and inflammation seem to be part of the underlying mechanism. Based on previous studies and by analogy with other neurological diseases, the investigators hypothesize that autonomic dysfunction following AIS contributes to PSF and that patients presenting heart failure as a complication following AIS have an increased risk of PSF. To confirm this hypothesis, the investigators will conduct a prospective, interventional study where patients who are hospitalized at the Stroke Unit, within 72 hours after stroke symptom onset, will be included. Evaluation will take place of (a) the relationship between autonomic dysfunction (HRV) and early and late PSF, and of (b) the relationship between cardiac dysfunction and early PSF and late PSF. There will also be an investigation into following elements: - the association between early and late PSF and (a) certain inflammatory markers at admission (CRP, NLR), (b) stroke localization and (c) baseline imaging markers of brain frailty. - the role of pre-existing fatigue + pre-existing or post-stroke newly diagnosed cognitive impairment, depression and sleep disturbances on the course of PSF.
The central objective of this application is to explore the neural substrate of personalized tDCS (ptDCS) and to determine whether the paradigm for each stroke patient can predict the amount of sustained clinical improvement through increased connectivity as measured by a biomarker of plasticity.
This was a single-blind randomized controlled trial of multisensory stimulation virtual reality to improve motor and cognitive dysfunction in stroke patients.
There has been an observed decrease in motor and functional ability and non-use of the impaired limb in chronic patients. This is due to the immediate drop in intensive daily therapy (5 days per week for 3 hours/day) that is usually provided during the inpatient (acute) phase upon discharge from the hospital. In this study, the investigators plan to address the low dosage of therapy in the post-acute discharge phase for stroke survivors.
Rationale: Every year, about 40,000 people in the Netherlands have a stroke. After the initial admission to the hospital, about 15% of stroke survivors is admitted to a rehabilitation center because of remaining disabilities. Three out of four of these patients have upper limb dysfunction, hampering activities of daily living. Upper limb function plays a critical role in the performance of most daily life activities. In our phase II trial B-STARS, continuous theta burst stimulation (cTBS) treatment led to an absolute additional recovery of upper limb function of 17%, as measured with the Action Research Arm Test (ARAT) score three months after stroke. This improvement exceeds the minimal clinically important difference of 10%. cTBS treatment also resulted in a significant improvement in measures of activities and participation (of similar magnitude) and a reduction in the mean length of stay at the rehabilitation center by 18 days. Objective: To assess the effectiveness and cost effectiveness of cTBS treatment in promoting upper limb recovery after stroke in patients admitted to a rehabilitation center. Study design: A phase III, multi-center, double-blind, randomized, sham-controlled, clinical trial. Study population: 454 patients aged 18 years or older with a first-ever ischemic stroke or intracerebral hemorrhage and a unilateral arm paresis, defined by a Motricity Index between 9 and 99, in whom cTBS treatment can be started within 3 weeks after stroke onset. Intervention: 10 daily sessions of cTBS delivered over the contralesional primary motor cortex during a period of 2 weeks, delivered immediately before regular care physical therapy of the affected upper limb. Main study parameters/endpoints: The primary endpoint will be the score on the upper extremity section of the Fugl-Meyer assessment (FM-UE) at 90 days after stroke. Secondary endpoints will include the score on the FM-UE at one year and the scores on the Action Research Arm Test, Nine Hole Peg Test, Stroke Impact Scale, EuroQol 5 Dimensions and modified Rankin Scale at 90 days and one year after stroke
The clinical trial is for acute ischemic stroke patients measuring cerebral oxygen saturation (rSO2) values using pulse oximeter of near-infrared spectroscopy in the frontal lesion area and normal area of brain. The purpose of the clinical trial is to compare differences in cerebral oxygen saturation values, and the efficacy and safety are evaluated through additional exploratory clinical trials.