Pulse Endovascular ReperFUSION for Acute Ischemic Stroke
Acute Ischemic Stroke AISCerebral Arterial DiseaseProspective, multi-center, single-arm early feasibility study enrolling a minimum of 15 subjects at up to a minimum of 3 active investigational sites in the United States. The subjects must be diagnosed with acute ischemic stroke (AIS), must be post-mechanical thrombectomy, will have had intravenous thrombolytics, and have a visible MCA, ACA or PCA occlusive clot on initial angiographic imaging. Each subject will receive the Pulse NanoMED procedure after attempted neurovascular therapy to achieve better reperfusion.
Pioglitazone and SGLT2 Inhibitors vs. DPP4 Inhibitors in Patients With Stroke
Diabetes MellitusStrokeIntroduction: An optimal combination of antidiabetic drugs for diabetic patients with ischemic stroke is not well-established. The objective of this randomized trial is to evaluate whether combination of pioglitazone and a sodium glucose cotransporter 2 (SGLT-2) inhibitor, compared with a dipeptidyl peptidase-4 (DPP-4) inhibitor, reduces recurrent stroke in diabetic patients with recent ischemic stroke. Methods and analysis: The trial is a randomized, parallel-group study conducted at 7 hospitals in Taiwan. Inclusion criteria are adult patients with a history of ischemic stroke within 3 months, diabetes mellitus with Hba1C > 7%, taking metformin currently or previously, and estimated glomerular filtration rate ≥ 45 mL/min/1.73 m2. Eligible patients who sign the informed consent forms will be randomly assigned in a 1:1 ratio to receive either combination of pioglitazone and an SGLT2 inhibitor (empagliflozin or dapagliflozin or canagliflozin) vs. a DPP4 inhibitor. Primary outcome is change in HbA1C between 6 months and baseline in active vs comparator groups. Additional biomarker outcomes are change in hs-CRP insulin resistance, B type natriuretic peptide, and urine albumin creatinine ratio between 6 months and baseline. Ethics and dissemination Study protocol was approved by the Institutional Review Board of Chang Gung Memorial Hospital, Chiayi Branch, Taiwan (201702353A3, 201802340A3 and 201902176A3). All participants will be required to sign and date an informed consent form. Study findings will be disseminated via a peer-reviewed journal.
Manually Controlled Infusion vs Target Controlled Infusion for StrokeThrombectomy
StrokeIschemic3 moreThe goal of this randomized controlled trial is to compare manual general anesthesia induction to general anesthesia induction guided by target controlled infusion system in cerebral ischemic stroke The main questions it aims to answer are: Does target controlled infusion has a more favorauble hemodynamic profile than manual general anesthesia induction? Do patients receiving general anesthesia with target controlled infusion system have a more favourable outcome? Participants will receive general anesthesia induction with a target controlled infusion system and will be compared to patients receiving manual general anesthesia induction.
Transferring Speed of Processing Gains to Everyday Cognitive Tasks After Stroke
StrokeCognitive DysfunctionThis study will compare two approaches to cognitive rehabilitation in adults with stroke with persistent, mild to moderate, cognitive impairment. Both approaches will feature a web-based computer "game" that trains cognitive processing speed, i.e., how quickly individuals process information that they receive through their senses. This training is termed Speed of Processing Training (SOPT). One approach will add (A) in-lab training on everyday activities with important cognitive components and (B) procedures designed to transfer improvements in cognition from the treatment setting to everyday life. This approach is termed Constraint-Induced Cognitive Therapy (CICT). The other approach will add (A) in-lab training on relaxation, healthy nutrition, and healthy sleep and (B) procedures designed to promote integration of these lifestyle changes into everyday life. This approach is termed Brain Fitness-Heath Education Lifestyle Program (BF-HELP). Both CICT and BF-HELP will involve 35 hours of training. Ten 1-hour sessions of SOPT will be scheduled in the home with training conducted independently by participants. Ten 2.5 hours of in-lab, face-to-face, therapist directed sessions will be scheduled. These sessions will feature a brief period of SOPT; the bulk of the sessions will be committed to in-lab training on the target behaviors and the procedures designed to promote transfer of therapeutic gains to daily life; The set of the latter procedures is termed the Transfer Package. To accommodate the demands of participants' other activities, training sessions will be permitted to be scheduled as tightly as every weekday over 2 weeks or as loosely as every other weekday or so over 4 weeks. Family caregivers in both groups will also receive training on how to best support participants in their therapeutic program. The study will also test if there is an advantage to placing follow-up phone calls after treatment ends. The purpose of the calls will be to support transition of any behavioral changes achieved during treatment into everyday life on a long-term basis. Participants will be randomly assigned to the interventions. Testing will happen one month before treatment, one day before treatment, one day afterwards, and 6- and 12-months afterwards. Outcomes measured will include cognitive processing speed, cognitive function on laboratory tests, and spontaneous performance of everyday activities with important cognitive components in daily life.
Effects of Mhealth App on the Improvement of Upper Limb Function for Patients With Chronic Stroke...
StrokeThe main purpose is to develop a mobile health app that combines behavioral change technology and task-oriented exercise strategies to provide a technology-assisted training system for upper limb motor function in home stroke cases, and to analyze its feasibility and therapeutic benefits. It is estimated that 50 chronic stroke cases will be recruited and randomly assigned to the experimental group (n=25) and the control group (n=25). The experimental group received a 12-week action health App combined with behavioral change technology and task-oriented upper limb exercise strategy intervention. The control group received a 12-week sham control and a traditional home rehabilitation intervention program. Both groups received pre-test, post-test (12 weeks) and follow-up assessment (4 weeks). This study will adopt a double-blind evaluation design.
Combinating Fingolimod With Alteplase Bridging With Thrombectomy in Acute Ischemic Stroke
StrokeInflammationProof-of concept clinical trials have indicated that the sphingosine-1-phosphate receptor modulator fingolimod may be efficacious in attenuating brain inflammation and improving clinical outcomes in patients with AIS as a single therapy beyond 4.5 hours of disease onset, or in combination with alteplase within 4.5 hours of disease onset. So in this study the investigators try to determine whether the addition of fingolimod, administered within 24 hours after the onset of symptoms in patients receiving alteplase bridging with mechanical thrombectomy, improves radiologic and clinical outcomes.
The Benefit of Hippotherapy in Stroke Patients
StrokeThis study aims to explore the interest of hippotherapy in the management of patients with stroke in the sequelae phase by evaluating the psychological and physical well-being. It is a controlled and randomized prospective longitudinal study. Hippotherapy is a rehabilitation method entrusted to a paramedical or medical profession that uses the horse in its treatment program in addition to conventional medical care. Hippotherapy has benefits at the psychomotor and motor level. The method is based on the use of the horse's characteristic movements when walking to provide sensory information and to induce motor adjustment responses mainly at the level of the pelvis and the trunk of the rider in order to work on balance, postural control, muscle tone and joint mobility of the patient sitting on his back. In particular for people with paresis or plegia sequelae, it contributes to rehabilitation programs. In addition, by inducing a helical movement of the pelvis, the horse's walk reproduces in the the disabled rider a pattern of trunk reactions very similar to that of the normal human walking pattern. This pattern can be integrated as a normal sensorimotor reaction and help the patient to improve his sitting balance and his coordination. Hippotherapy is also interesting because getting out of the traditional rehabilitation framework and being in contact with an imposing animal has positive repercussions on the psyche and therefore on functional recovery. All patients will undergo an assessment that will focus on their physical and psychological well-being at the beginning and end of the study as well as during a follow-up at 2 weeks, one month and 3 months. Patients assigned to the experimental group (EG) will receive, in addition to their physical therapy, a weekly hippotherapy session of 30 minutes. The follow-up will take place during 3 months for a total of 12 sessions. The EG will also be monitored in the short term (before and after each session) for well-being and fatigue. Quality of life will be explored using the SF-36 questionnaire and the SS-QOL scale. Self-esteem will be measured using the Rosenberg scale. Patients' physical abilities will be assessed with functional tests, standing balance measurements on a strength platform and the ABC-S self-evaluation scale.
Universal Exercise Unit Therapy With Sling Exercise Therapy on Lower Limb Kinematics in Chronic...
Chronic StrokeStroke occurred when blood supply to brain or a part of brain is disturbed due to clot (ischaemic stroke) or due rupture of small vessels (hemorrhagic stroke) in brain and causes bleeding in brain cells. The prevalence of stroke was 1.2 % (1200/100,000) in Pakistan, 3.1% in China and it is 44.29 to 559/100,000 in different parts of the world. Leading cause of stroke is hypertension. The aim of study will be to compare universal exercise unit therapy with sling exercise therapy on lower limb kinematics, disability, balance and quality of life in chronic stroke patients.
Neuromodulation and Dynamic Balance in Stroke
StrokePortable Neuromodulation Stimulator (PoNS) is non-invasive stimulation device placed on the tongue to stimulate those brain regions understood to be important for maintaining balance. This research study aims to collect evidence that PoNS therapy along with balance training improves postural and walking stability post-stroke.
Mental Imagery for Lower Limb Functions
StrokeStroke is a neurological impairment occurs due to cardiovascular abnormality and cerebrovascular disease. The term 'stroke' is mostly used when there is sudden loss of function of the body due any abrupt changes.The rates of disability are increasing along with mortality and morbidity rates due to stroke. The poor motor performance of lower limb affects gait severely. The slow velocity and other gait deviations limit the stroke survivors' ability to perform ADL's and interfere with their quality of life. Hence, rehabilitation is obligatory for these patients to improve their quality of life