Active clinical trials for "Stroke"

In the last decades, the research in neuroimaging-informed stroke prognosis and treatment has had a little clinical impact, often because of the costs of bringing complex procedures to the bedside. Cerebral stroke remains the leading cause of disability, with 65% of survivors chronically impaired at 6 months. Gamma synchrony (GS) is a fundamental mechanism of cortical function and can be estimated and modulated in a simple, inexpensive, and reliable way. It has provided valuable and cost-effective guidance in several neuropsychiatric conditions. In previous studies, we developed simple yet robust methods for assessing and manipulating GS and proved its relationship with clinical impairment in preliminary data. The aim of the present project is to predict and improve stroke recovery by leveraging cortical mapping and modulation of GS via transcranial alternating current stimulation (tACS), a safe and inexpensive technique. The project capitalizes on technology readily available to the Italian national health system.

Researchers at the University of Pittsburgh are conducting a research study to see how combining brain, nerve, and hand stimulation affect hand movement after stroke. The primary purpose of this study is to examine changes in the connection between the brain and the weak hand muscles after the combined brain, nerve, and hand stimulation. The primary hypothesis is that the combined brain, nerve, and hand stimulation will increase the the connection between the brain and the weak hand muscles. The secondary purpose of this study is to examine changes in weak hand's movement and function after the combined brain, nerve, and hand stimulation. The secondary hypothesis is that the combined brain, nerve, and hand stimulation will increase weak hand movement and function.

Background: Stroke is the second leading cause of death and disability worldwide and in Hong Kong, 6.2% of all registered deaths in 2020 were due to cerebrovascular disease. Exercise training has the potential to improve the deconditioned hemodynamic, motor, and cognitive functions associated with stroke. Purpose: The proposed study seeks to investigate the effects of AET on the large intracranial and extracranial cerebral arteries' morphological and haemodynamic features and the cognitive and motor functions in post-stroke chronic patients. Additionally, the study seeks to compare the cerebral arteries' features between post-stroke patients and age-matched controls without stroke. Furthermore, the project seeks to assess the association between the cerebrovascular system changes and the cognitive and motor function changes in post-stroke patients undergoing AET. Study Design: A Randomised controlled trial (RCT) in which the post-stroke patients will be randomly assigned into three groups consisting of a control group and two AET interventional groups (treadmill and cycle ergometer). Each group will target sample size of 20 participants. The target dosage for the two AET modes will consist of 1.) a session duration=30mins, 2.) frequency=3times/week, 3.) high intensity=(60-84% heart rate reserve (HHR).4.) Types=Treadmill and cycle ergometer 5.) overall program duration=3months. Data collection methods: Quantitative data on the cerebral arteries' haemodynamic and morphological features will be assessed using duplex carotid ultrasound (DCUS) and transcranial Doppler (TCD) ultrasound techniques. Montreal cognitive assessment (HK) version and six-minute walk test (6MWT) will assess cognitive and motor functions respectively. The data will be assessed at three time periods of during the 3 months AET program Significance of the study: The study has the potential to inform the clinical decision making process on the usefulness of AET in improving post-stroke chronic patients. Results on associations will provide a basis for future work in chronic stroke Rehabilitation functional outcome prediction models based on DCUS and TCD ultrasound imaging techniques.

There is limited literature for the evaluation of comparison between effectiveness of postural control and balance training program on stable surface and unstable surface. So this study will help to improve reactive postural control in stroke patients which ultimately improve their walking capability, mobility and level of independence. This study will also enable the individual to be more independent and minimize their falls.

This study will use a randomized controlled trial design to assess the possible difference between two intensive treatment programs: a classic "Hand and Arm Bimanual Intensive Therapy Including Lower Extremities" (HABIT-ILE) therapy and a HABIT-ILE therapy implemented at the patient's home. Moreover, this study also aims to assess whether the patient's abilities are better with follow-up than without follow-up after two weeks of HABIT-ILE therapy. The possible difference between the therapies will be studied in terms of functional capacities, activities and social participation.

This project seeks to evaluate the effect of transcranial alternating current stimulation (tACS) on the recovery of motor control of the upper limb and associated neuronal synchrony during a 14-sessions (5-week) rehabilitation program for adult patients with diagnosis of stroke at chronic stage. Specifically, the stimulation on Gamma ranges, because the evidence available so far allows us to propose that the tACS in the Gamma range (around 70 Hz) facilitates motor execution. For this purpose, the experimental approach involves active (70 Hz in Gamma rhythm and 7 Hz, Theta rhythm) and sham tACS together with an analytical and integrated motor training with a double-blind and randomized design. Our hypothesis is that Gamma frequency tACS restores neuronal synchrony in Beta range, which enhances the upper limb motor recovery associated with a training program. Using specific motor control parameters, clinical scales and electroencephalography, the immediate and long-term (3 months after finished the training) behavioral and neurophysiological effect of this new neurostimulation paradigm (tACS plus training) for motor rehabilitation of stroke will be established.

Background: Recently, there has been increasing attention on the application of transcutaneous auricular vagus nerve stimulation (taVNS) in ischemic stroke. This innovative technique involves non-invasive electrical stimulation of the vagus nerve. A controlled study by Dawson et al. (2021), conducted using a randomized, double-blind approach, has demonstrated that vagus nerve stimulation (VNS) when paired with motor function training, can effectively promote the improvement of motor dysfunction in stroke patients. In the same year, the Food and Drug Administration approved the use of VNS, alongside motor rehabilitation training, for upper extremity dysfunction caused by stroke. However, it is worth noting that VNS requires surgical procedures with contraindications. Consequently, researchers are exploring taVNS as a potential alternative intervention. Compared to VNS, taVNS offers a low-risk and user-friendly intervention that eliminates the need for surgery and the associated postoperative complications. A recent meta-analysis has shown that the efficacy of taVNS in upper extremity rehabilitation for stroke patients can be comparable to that of VNS. Therefore, pairing taVNS with motor training holds promise as a valuable clinical tool for post-stroke rehabilitation. Methods and Design: This study presents a protocol for a single-center randomized, double-blind controlled trial. A total of 150 participants will be enrolled and randomly assigned to one of three groups (Group 1, Group 2, or Group 3) in a 1:1:1 ratio. Each patient will undergo a total of 14 treatment sessions. In Group 1, patients will receive motor training paired with taVNS. In Group 2, patients will receive motor training and taVNS interventions, seperately. In Group 3, patients will receive motor training paired with sham taVNS. Primary and secondary outcome measures will be assessed at baseline and after taVNS treatment. The primary outcome will be determined by evaluating the behavioral response to treatment, using the Fugl-Meyer Assessment of Upper Extremity (FMA-UE). Discussion: This study aims to elucidate the role of paired taVNS in the rehabilitation of upper extremity dysfunction in stroke patients. The researchers propose a novel approach by pairing taVNS with individualized training actions, utilizing electromyography (EMG) during motor training to precisely trigger taVNS.

The purpose of this study is to evaluate the tolerability of tDCS in childhood stroke survivors and to assess for improvement in arm function in patients receiving tDCS and occupational therapy

The purpose of this study is to know the effectiveness of different robotic devices for gait rehabilitation in stroke patients

The aim of the study is to evaluate whether a non-invasive brain stimulation technique (Transcranial Direct Current Stimulation) can influence the secondary neurodegeneration observed after a stroke (assessed based on serum concentration of neurofilaments) and can improve the functional outcome.