pBFS-guided cTBS Over the Inferior Frontal Gyrus for Aphasia After Ischemic Stroke
StrokeIschemic1 moreThe objective of this trial is to evaluate the effectiveness and safeness of continuous Theta Burst Stimulation (cTBS) over the right Inferior Frontal Gyrus (IFG), guided by personalized Brain Functional Sector (pBFS) technology, on language function recovery in patients with post-ischemic stroke aphasia.
Improving Sleep and Learning in Rehabilitation After Stroke, Part 2
StrokeThis study will explore whether sleep in stroke survivors is improved with digital cognitive behavioural therapy for insomnia (Sleepio), in comparison to treatment as usual, and will explore whether changes in sleep relate to changes in overnight consolidation of motor learning.
A Digital Intervention for Post-Stroke Depression and Executive Dysfunction
Executive DysfunctionDepression1 moreIndividuals with stroke commonly experience both depression and cognitive difficulties. The goal of this study is to evaluate the efficacy of a treatment that combines a digital therapeutic (an iPad-based cognitive training program) with learning cognitive strategies. The hypotheses are that this treatment will improve cognitive skills, depression symptoms, daily function, and brain connectivity. In the short-term, the findings will inform the efficacy of the intervention and in the long-term, may support the use of the intervention to improve co-occurring cognitive and mood difficulties after stroke.
Effectiveness of Transcranial Magnetic Stimulation in Subacute Stroke Patients With Severe Upper...
Stroke RehabilitationThere has been A-level evidence for the effectiveness of inhibitory rTMS of the contralesional M1 hand region in stroke patients in the acute stage. However, it has been reported to be ineffective in the chronic stage. In addition, it has been reported that the patient group benefiting from rTMS is mostly those with moderate to mild motor impairment. In contrast, a recent randomized controlled study has reported that ipsilesional excitatory rTMS or contra-lesional inhibitory rTMS may also have positive effects in stroke patients with severe upper limb motor impairment. The aim of this study is to investigate the effect of inhibitory repetitive transcranial magnetic stimulation applied to the contralesional primary motor cortex, by using the rTMS parameters specified in the current recommendation guide, on motor function, activities of daily living, and quality of life in subacute stroke patients with severe upper limb motor impairment.
Think 'n' Move: Motor-cognitive Training in Chronic Stroke
StrokeIn Switzerland, approximately 20'000 persons suffer a stroke each year. Despite carefully considered rehabilitation programs, full recovery is achieved only in a small proportion of stroke survivors (www.swissheart.ch). Studies suggest that motor-cognitive trainings can improve gait, balance, and mobility in chronic stoke survivors. However, little is known about the effect of motor-cognitive trainings on cognitive functioning in chronic stroke. The aim of this study is to evaluate the effects of a motor-cognitive training added to usual care compared to usual care alone on cognitive functions, single- and dual-task mobility, gait and health-related quality of life. In this single-blind RCT, 38 participants will be allocated randomly to either the intervention group (usual care + motor-cognitive training by means of an exergame for 12 weeks, 2x/week for 30-40 minutes) or the control group (usual care only). Both groups will attend three assessments, at baseline, post-intervention (12 weeks after baseline), and at follow-up (24 weeks after baseline). Global cognitive functioning will be the primary endpoint and a linear mixed model will be used for analysis. Motor-cognitive trainings, especially exergames, bear the potential for further development of innovative long-term rehabilitation solutions for chronic stroke survivors. Cognitive deficits are a common unmet need restricting daily activities mentioned by chronic stroke survivors. Exergame training following personally tailored progression to generate optimal training load may help addressing this unmet need. Therefore, this study will contribute to the on-going research objective on how to improve the long-term care of stroke patients.
Action Observation Therapy for Lower Limb in Stroke
StrokeThis study focuses on the effects of Action Observation therapy on stair walking, balance and self-efficacy in chronic stroke patients. This study will be conducted in Helping Hands Institute of Rehabilitation Sciences and Shifa Surgical Hospital Mansehra. It is a Randomized Control Trial. Non probability convenient sampling technique will be used to assess a total number of 40 respondents. Questionnaires and consent forms will be filled by the respondents. Each patient will be screened by using a simple selection Performa relevant to inclusion and exclusion criteria. Total 30 patients will be included in the study and then divided into two groups i.e. Action observation therapy and Convention Therapy group with 15 individuals in each. Each group will be assessed thrice i.e. pre, post and follow up surveys. Each of them will receive the convention therapy for 30 mins except for the Action Observation therapy (AOT) group, which will also receive the additional 30 minutes session of action observational training. Total 18 sessions, 3 days a week for a total of six weeks will be performed on each patient. Fugel Meyer Assessment Scale for lower limb, Timed Up and Go test, Timed Stair Test, Step test and self-efficacy scale will be used for the assessment. Baseline assessments of both group will be done on 1st week before the application of protocol, second assessment will be done on 4th week and then final assessment will be done on 6th week of the protocol.
High Definition Transcranial Alternating Current Stimulation (HD-tACS) for Post-stroke Aphasia
Transcranial Alternating Current StimulationPost-stroke Aphasia1 moreTo investigate the intervention effect of high definition transcranial alternating current stimulation(HD-tACS) in chronic post-stroke aphasia and its underlying neural mechanism by MRI.
Soft Robotic Sock Intervention for Robot-assisted Ankle-foot Mobility in Post-stroke Patients
StrokeDVT1 moreStroke is closely associated with high mortality among patients in hospitals and immobility leading development of deep vein thrombosis (DVT) leading to pulmonary embolism (PE) and Venous thromboembolism (VTE) and/or ankle joint contracture, which impairs mobility resulting in bedridden. Worldwide, the incidences of DVTs is 0.75-2.69 per 1000 individuals and 2-7 per 1000 for individuals aged > 70 years and accounts for 600,000-800,000 deaths yearly. Pharmacological treatment for DVTs include anti-coagulants to prevent blood clot development and VTE but may cause haemorrhagic stroke leading to death. Non-invasive treatment such as intermittent pneumatic compression (IPC) and anti-embolism stockings may prevent DVT but not ankle joint contractures, which affects 50% of all stroke patients. Joint contractures exacerbate pedal edema and fluid retention, hamper proper joint movement and decreases ADLs and quality of life. Regular physiotherapy is vital for preventing ankle joint contracture and DVT but is labour intensive hence posing an increased workload on physiotherapists resulting in decreased physiotherapy duration. This study will investigate the use of an automated robot-assisted ankle exercise solution (Venous Assistance and Contracture Management System, VACOM) to mimic therapist-assisted on bed passive ankle exercises to preclude the development of ankle joint contracture and facilitate venous flow in lower extremities to reduce DVT risk. The investigators hypothesize that the Venous Assistance and Contracture Management (VACOM) system can prevent ankle contracture, improve ankle range of motion (ROM) and flexibility while reducing the risk of DVT incidence among stroke patients more than using IPC alone. Additionally, through early ankle mobilization, rehabilitation can be optimized to achieve better neurological recovery.
Effects of Minocycline on Patients With Ischemic Stroke Undergoing Intravenous Thrombectomy
Ischemic StrokeAcuteMinocycline is the second generation of tetracycline. Because of its lipophilicity, it has high penetrance of blood-brain barrier. Animal model studies have shown that minocycline can reduce cerebral damage after ischemic stroke, and its mechanism involves multiple molecular pathways, such as antioxidant, anti-inflammatory, anti apoptotic pathways, and protection of blood-brain barrier. Clinical studies have also shown that minocycline can significantly improve 3-month National Institute of Health Stroke Scale (NIHSS) and modified Rankin Scale (mRS) of patients with ischemic stroke, indicating that minocycline is a potential neuroprotective drug. Minocycline is believed to protect the blood-brain barrier, thereby reducing the ischemia-reperfusion injury caused by mechanical thrombectomy. However, whether minocycline can become a synergistic treatment method of mechanical thrombectomy, there is no clinical research in this area at present. Therefore, investigators carry out the study on the effect of minocycline in patients with acute anterior circulation ischemic stroke after mechanical thrombectomy, and plan to enroll 180 patients. To explore the safety and effectiveness of minocycline in patients with acute ischemic stroke after thrombectomy.
Left Atrial Appendage Exclusion for Prophylactic Stroke Reduction Trial
Ischemic StrokeSystemic EmbolismThis trial is a prospective, randomized, multicenter, multinational, blinded, superiority trial. The objective of this trial is to evaluate the effectiveness of left atrial appendage exclusion (LAAE) for the prevention of ischemic stroke or systemic arterial embolism in subjects undergoing cardiac surgery who have risk factors for atrial fibrillation and ischemic stroke.