Active clinical trials for "Stroke"

Investigators will determine the long-lasting effects of post-acute rehabilitation after traumatic brain injury and stroke. Investigators will also evaluate if the beneficial effects of rehabilitation continue after discharge from a rehabilitative program.

This study investigates the clinical practices, safety and effectiveness of Cerebrolysin in routine treatment of patients with moderate to severe neurological deficits after acute ischemic stroke.

The investigators plan to undertake a phase II study to investigate the efficacy and side effects of intravenous ketamine to reduce neuroexcitotoxicity, and thus provide neuroprotection in patients diagnosed with acute ischemic stroke.

Stroke is one of the leading causes that negatively affects quality of life. The benefits of regular physical activity are well recognized. Physical activity after stroke may prevent disability and recurrence of stroke. Physical impairments seen after stroke may prevent exercise and limit subsequent recovery. According to a 2016 systematic review updated and published in the Cochrane Library, physical activity programs have positive effects on disability, physical abilities, quality of life, mood and cardiovascular. However, these effects tend to diminish unless the individual's physical activity level is maintained. Therefore, individuals who have had a stroke should be encouraged to exercise. However, it has been reported that most of the patients do not participate in exercise programs as recommended after stroke and there is a decrease in physical activity level. Previous studies have reported that approximately 77% of patients with stroke are sedentary or have low levels of physical activity and also reduced frequency of physical activity. This may be a consequence of the reduced movement speed seen due to severe motor impairments. Interestingly, even those with mild motor impairments, i.e. those walking at speeds above 0.8 m/s and able to participate in community-based exercises, were found to have low levels of physical activity. Therefore, environmental and personal factors can also be barriers to exercise. Research supports the use of the theoretical model of behavior change developed by Prochaska et al. in physical activity promotion. Individuals are thought to progress through the stages of change at different rates. The concepts of self-efficacy and decision balance (perceived benefits and barriers) are particularly salient for individuals in the pre-thinking and thinking stages. Therefore, identifying and understanding perceived barriers to engaging in physical activity is an important step in creating change in physical activity behaviors. The International Classification of Functioning, Disability and Health defines functioning and disability as multidimensional concepts in which activity, especially physical activity, is influenced by organic and contextual factors. These dimensions often change after stroke and create multiple barriers that may prevent the patient from returning to a physically active lifestyle. Previous studies on barriers to physical activity in stroke survivors have used open-ended questionnaires. When we look at the scales examining exercise and physical activity barriers in the literature, it is seen that they were developed to measure physical activity barriers in the general population and in individuals with chronic conditions. Therefore, the Barriers to Physical Activity After Stroke (BAPAS) scale was developed by Drigny et al. in 2019 to help physicians and therapists identify potential targets for future interventions and optimize clinical follow-up in stroke patients and to assess barriers to physical activity after stroke. The original scale is in French and there is also an English version. Since the scale was recently developed, there is no Turkish version and no version in other languages.

The objective of this trial is to evaluate the effectiveness and safeness of continuous Theta Burst Stimulation (cTBS) over the right Superior Temporal Gyrus (STG), guided by personalized Brain Function Sector (pBFS) technology, on language function recovery in patients with post-ischemic stroke aphasia.

The purpose of this study is to determine the impact of remote ischemic conditioning on cerebral hemodynamics in patients with ischemic stroke.

This study aims to progress to the next stage of feasibility testing, by conducting a pilot randomised controlled study with consecutive stroke patients who have mild to moderate cognitive impairment following stroke. The primary focus of the proposed randomised pilot RCT is on recruitment and retention of patients in the intervention, and follow-up assessments. The researchers will also investigate outcomes associated with the intervention and the anticipated effect size for powering a larger trial, with a focus on the feasibility of implementing the intervention in a future definitive randomised controlled trial. The researchers will also carry out a study within a trial (SWAT), comparing recruitment and retention rates across acute, rehabilitation and chronic stroke settings.

In this study the investigators will assess both procoagulant and anticoagulant pathways using thrombin generation and platelet function tests in all patients presenting with ischaemic and haemorrhagic stroke (including aneurysmal subarachnoid haemorraghe). Also the cross-talk between inflammation and thrombosis, so-called thrombo-inflammation is further investigated. As such the investigators aim to characterise the patient's coagulation profile before administration of any treatment. By assessing these pathways the investigators strive to detect specific markers to predict vital and functional outcome at 3 months in these patients. Finally the investigators may provide new pathophysiological insights in the course of disease following these events that can possibly improve future therapeutic strategies.

The objective of this trial is to evaluate the effectiveness and safeness of intermittent Theta Burst Stimulation (iTBS) over the left Superior Temporal Gyrus (STG), guided by personalized Brain Functional Sector (pBFS) technology, on language function recovery in patients with post-ischemic stroke aphasia.

This study wants to know if using handheld dynamometry (HHD) to test leg strength in persons who have had a stroke, will reduce mistakes and give therapists better information to use for therapy. This study will collect normal values of leg muscle peak force production, cumulative peak force production, and sustained peak force production in patients with chronic stroke.