View clinical trials related to Stroke.
Filter by:Stroke is one of the leading causes behind death and permanent disability in adults. Atrial fibrillation (AF) is the most common clinical arrhythmia and its prevalence is steeply increasing with age. Atrial fibrillation is associated with a manifold increase in the risk for stroke. It is considered important to investigate the heart rhythm in stroke survivors without previously known AF, because detection of AF will prompt a change in antithrombotic treatment with subsequent lowering of the risk of recurrent stroke. There are so far very few studies on the prognostic impact of ECG investigations post stroke. Despite this knowledge gap, ECG investigation post stroke is given high priority in national and international guidelines. Considerable clinical resources are currently invested in these ECG investigations without knowledge of its utility. The investigators plan a nationwide, randomised, register-based study (RRCT) including patients aged at least 70 years receiving in-hospital care for stroke or TIA (Transient Ischemic Attack). Included patients will be randomised to standard investigation (1-2 days of ECG ) or extended ECG investigation (14 days of ECG performed at least twice). Patients diagnosed AF will be offered anticoagulation treatment. Long-term follow-up will be performed via swedish health care registers. The result of this trial will have major impact on the ECG screening recommendations for patients who have had stroke, a large group of patients with dismal prognosis.
The purpose of this study is to assess the effect of rTMS and tDCS coupled with robotic therapy on upper extremity functional recovery
Stroke is a major cause of adult long term disability and the fourth leading cause of death and affects 1·8/1000 persons in Singapore. Post-stroke functional recovery of upper limb is poor with 80% of stroke survivors having some upper limb disability during the acute to subacute phase after stroke. Early rehabilitation is paramount for enhancing the survival and independence of stroke patients and inadequate supervised therapy hours is closely associated with poor rehabilitation outcome. However, high intensity and high repetition therapies, which facilitates neuroplasticity, have historically had a poor uptake because it is manpower intensive and places a high demand on stroke patients, many of whom cannot cope. High fatigue and sustained levels of effort are also generally perceived as placing the patient at risk if done at home without trained supervision. Robotic rehabilitation system can provide high-intensity, repetitive, task-specific, interactive treatment of the impaired upper limb and can serve as an objective and reliable means of monitoring patient progress. Stroke subjects also have a wide spectrum of disability resulting in unconscious co-contractions and compensatory muscle use. Although these disability elements are widely acknowledged to be present, technological tools for identifying and quantifying these are missing. This technology gap affects the optimization of therapy and the patients' understanding of their condition. This study aims: 1. To investigate the feasibility and efficacy of using the SynPhNe device outside of conventional therapy time, compared with conventional occupational therapy alone, on hand motor function in acute and subacute stroke patients; 2. To evaluate the feasibility of the use of SynPhNe by acute and subacute stroke patients with minimized supervision; 3. To investigate subject and staff perceptions in terms of usability and benefit of the device; 4. To study clinical outcomes, EEG, EMG and TMS changes over the course of the study; 5. To compare the cost-benefit of SynPhNe therapy on inpatients with standard care. Hypotheses: 1. SynPhNe therapy will have added benefit compared to conventional occupational therapy alone on hand motor function in acute and subacute stroke patients; 2. SynPhNe can be used with minimal supervision by acute and subacute stroke patients so that the efficiency of rehabilitation is increased; 3. SynPhNe therapy is a cost-effective inpatient rehabilitation option.
Sensory dysfunction following stroke is a common condition. The deficiency in the somatosensory system negatively affects the learning of new motor skills by preventing feedback from the sensory system, and it can also cause problems in daily life, personal care, productivity, and leisure activities. Somatosensory impairment is often overlooked, as rehabilitation often focuses on motor abilities in the affected extremity. In the studies reviewed, it is stated that sensory dysfunction is seen in approximately 50% of stroke patients. The aim of this study is to examine the effects of intensified sensory-based therapy applied to the affected upper extremity sensory functions in individuals with chronic stroke on the upper extremity functions, quality of life, and independence of daily living activities.
Cognitive impairments such as memory impairments, word-finding difficulties, compromised orientation and perception are often observed in stroke patients. Low serum-mg-concentrations are associated with cognitive impairments in ischemic stroke patients one month after stroke onset. It is not clear, if cognitive impairments after stroke is caused by the mg-deficiency or by the stroke itself. Until now, no studies investigating the relationship between mg-concentration, stroke severity and cognition during treatment course are available. Thus, this study aimed to investigate the relationship between mg-concentration and cognition of stroke patients.
What research question is being addressed? Can improve the prediction of adverse outcomes be improved for people following a stroke to optimise their treatment and care? How is it of relevance and importance to patients and public? Following a stroke, people are at a higher risk of developing certain conditions including heart failure, another stroke and atrial fibrillation, a type of irregular heart rhythm. In the proposed study, the investigators will look at factors which may increase a person's risk of such conditions following stroke. From this, the investigators will determine if risk scores for these conditions can be improved for people post-stroke. This could help doctors decide what treatments are best. Who would be eligible? All adults at participating hospitals who have had an ischaemic stroke (where the stroke is caused by loss of blood flow to the brain) or a transient ischaemic attack ('mini-stroke') confirmed by a stroke doctor. All patients will be asked to take part in the study, or their family members may be asked to provide advice on their behalf if the patient is unable to. Where is the study being conducted? At participating hospitals in England and Wales. What will the participants undergo? At the time of stroke, patients have a lot of information collected about their health, the investigators will copy information from patient's medical records about their health after they agree to take part in the study. Patients or their family members will also be asked to complete some additional brief questionnaires about their quality of life, wellbeing and fatigue. Some questionnaires such as for cognitive function are already collected for patients following a stroke, but where this information has not been collected, it will be collected for the study. The investigators will ask the patients if they can be contacted in 12-months to repeat the questionnaires and information collected about their health.
To compare the effect of anodal cerebellar transcranial direct current stimulation (ctDCS) vs anodal cerebral direct current stimulation on balance, mobility and cognition in stroke patients in stroke patients
Delipid Extracorporeal Lipoprotein filter from Plasma (DELP) has been found to improve neurological function and life ability of AIS patients and approved for the treatment of AIS by China Food and Drug Administration (CFDA). A recent study imply that the neuroprotective effect of DELP involved multiple neuroprotective mechanism such as anti-inflammation, free radical scavenging, and decreasing MMP-9. Based on the multiple mechanisms, the investigator argues that DELP may exert neuroprotective effect on acute cerebral hemorrhage (ACH). In this context, the prospective, random, open-label, blind-endpoint, multi-centre study is designed.
Stroke, according to the definition of the World Health Organization (WHO); It is a syndrome characterized by a rapid settlement of signs and symptoms of focal loss of cerebral function without a cause other than vascular causes. As it is known, it is important for patients to regain functional skills in the upper extremities after stroke. Modified-Constraint Induced Movement Therapy (m-CIMT) is a versatile neurorehabilitation technique that aims to improve motor function in the hemiparetic upper extremity and increase its use in daily life activities. However, as in the Covid-19 pandemic, patients cannot always reach rehabilitation services. In such cases, telerehabilitation is a treatment option. There are a limited number of studies in which m-CIMT is applied according to the principle of telerehabilitation, which has become a necessity, especially due to the Covid-19 pandemic. Therefore, the aim of this study is to examine the effects of m-CIMT on upper extremity motor functions in stroke patients.
The purpose of this study is to evaluate the safety and efficiency of normobaric hyperoxia combined with endovascular treatment for acute ischemic stroke patients with stroke onset 6-24 hours.