Active clinical trials for "Stroke"

Repetitive transcranial magnetic stimulation (rTMS) and repetitive peripheral magnetic stimulation (rPMS) are innovative treatments for patients with stroke. Therefore, augmented efficacy of rPMS on the rTMS is employed in this project. This proposal aims at exploring different novel treatment strategies in the treatment of UE dysfunction in patients with stroke: augmented efficacy of rPMS on the rTMS. Several aims in this study include (1) identifying the most optimal treatment protocols for rPMS (TBS treatment and nerve stimulation location), (2 ) establish a novel treatment protocol (augmented efficacy of rPMS on the rTMS), (3) identifying augmented efficacy of rPMS on the rTMS, (4) determining the mechanism of neuro-motor control, and (5) related biomarkers for the novel treatment protocol. The investigators applied a 3-year plan before, however, the Ministry of Science and Technology plan passed one year only (108-2314-B-182-043-). The investigators carried out the pilot study to investigate the augmented effects of rPMS (radial nerve) on the rTMS in the treatment of upper limb function in patients with stroke patients. The previous plan had preliminary results. This year the investigators will apply for a three-year plan to continue the previous pilot study for getting the comprehensive results.

Most ischemic stroke patients are in recovery phase, often accompanied by motor impairment, but they lack effective treatment. The appearance of nerve growth factor (NGF) promotes the development of neuroprotective therapy, but it has little effect on stroke because of the blood-brain barrier (BBB). Electroacupuncture (EA) has been used for stroke, while there is no significant clinical effect for recovery phrase. Consequently, we will conduct a multicentre, randomised, controlled, assessor-blinded clinical trial to assess the effectiveness and safety of EA combined with NGF treatment on ischemic stroke recovery.

The study aims to assess a individual or group therapy's effectiveness in grammatical time marking. The main objective is to examine whether the therapy improves grammatical time marking of inflected verbs treated on the sessions. We also explore whether the observed progress can be transferred to untrained items, more ecological contexts and if is maintained two and four weeks after the end of treatment. This therapy will be administered to nine individuals with brain lesions after stroke. Five individuals will take part of the individual therapy and four individuals will take part of the group therapy (two individuals per group). The therapy will last one month, at the rate of three weekly sessions of approximately one hour.

Quantitative EEG (qEEG) has been used as an effective tool in the diagnosis and prognosis of brain-related diseases. In the literature, a variety of qEEG parameters have been proven informative in the prognosis of stroke. In addition, it has been demonstrated that changes in certain qEEG parameters during traditional/task-specific rehabilitation approaches are correlated with clinical outcomes of functional motor recovery. Repetitive transcranial magnetic stimulation (rTMS) has been proposed as a non-invasive and therapeutic treatment used to accelerate and enhance the recovery process of motor function in stroke patients. Many studies have reported that inhibiting contralesional rTMS may have positive effects in stroke patients with severe upper extremity motor impairment. In this context, the aim of the proposed study is to investigate whether there is a correlation between the change in qEEG parameters and the improvement of motor functions associated with rTMS treatment and to provide an electrophysiological prognostic biomarker of inhibiting contralesional rTMS for stroke patients.

Post-stroke sleep disorder and motor/cognitive dysfunction are common complications that affect the quality of life of older patients. The proposed study investigates the effects of an acupuncture-like method applied to six bilateral acupoints on sleep quality, motor function and cognition in older adults with chronic stroke. The study will be a single-blind (i.e., only patients will be blinded about the research purpose) randomized controlled trial (i.e., patients receiving the treatment is chosen at random) with a pre-mid-post follow-up design and involve two parallel groups of post-stroke survivors (aged > 55 years) diagnosed with insomnia. Participants will be randomly allocated in a 1:1 radio to two independent groups, i.e., a treatment group or placebo group, namely a transcutaneous electrical nerve stimulation placed on acupoints (Acu-TENS) or a placebo group. The Acu-TENS group will receive a 6-week treatment that includes a 30-minute Acu-TENS + sleep hygiene program (SHP) twice a week. The placebo group will receive sham Acu-TENS (i.e., devices with the electrical circuit disconnected) + SHP with the same frequency as the Acu-TENS group. The selected acupoints will be bilateral Hegu (LI4), Quchi (LI11), Neiguan (PC6), Shenmen (HT7) on the arm and Sanyinjiao (SP6) and Zusanli (ST36) on the lower limb. The study's primary outcomes will be sleep quality measured by the device of ActiGraph and the self-report survey. The secondary outcomes will be motor function, measured by physical performance tests, cognition, measured by computer battery, and quality of life, measured by the self-report survey. All outcomes will be measured at the baseline assessment (before the treatment), mid-term assessment (after the three weeks treatment), post-treatment assessment (after the six-week treatment), and follow-up assessment (two weeks after the treatment ended). It is hypothesized that the Acu-TENS + SHP treatment will better alleviate insomnia, improve cognition and motor function in participants than the sham Acu-TENS + SHP treatment.

Upper limb impairment is present in more than 85% of people with stroke, which greatly affect the quality of life, social participation, and performance of daily activities of people with stroke. Previous study also revealed that 53.4% of people after stroke experienced cognitive impairment. Different cognitive domains might be affected following stroke, such as attention, memory, language, and orientation, and the problems with memory are often prominent. Yet, there is no effective treatment for the post-stroke cognitive impairment. Transcutaneous electrical nerve stimulation (TENS) applied on thoracic region and transcutaneous vagus nerve stimulation (tVNS) are simple and non-invasive treatment to improve upper limb motor function and cognitive function. However, no existing studies have explored on the effects of TENS and tVNS on cognitive function in people with stroke. Therefore, the purpose of this study is to evaluate the effectiveness of TENS on improving upper limb function and cognitive function in people with chronic stroke. Also, this study will investigate the cortical response of people with stroke during TENS by using EEG power spectrum analysis.

The aim of DREAM-PRIDE is to evaluate whether implantation of drug-eluting stent (DES) combined with aggressive medical treatment is more efficacious in prevention of 1-year stroke recurrence than standard medical treatment alone for symptomatic intracranial atherosclerotic disease.

this study will be conducted to f find the effects of multiphasic neuroplasticity based training protocol with Shock Wave Therapy on Neurophysiological, Morphological and Functional Parameters of Post Stroke Spasticity.

The purpose of this study is to compare aerobic training to exergame training in people with chronic mild/moderate stroke. The objectives of this study are two-fold: 1) To evaluate the effects of a home-based aerobic exercise cycle ergometer program on cardiorespiratory fitness, mobility, cognitive, and exercise self-efficacy outcomes in subacute and chronic stroke patients; and 2) to evaluate the effects of an exergaming program on the same outcomes.

Stroke is the leading cause of serious long-term disability in the United States. Walking speed is related to stroke severity and how well someone can return to community life. Biofeedback is a useful method for increasing walking speed in persons post-stroke, however, these methods are typically limited to laboratory settings. The objective of this research is to determine the short-term response and training potential of a novel, wearable device that provides visual feedback of hip extension during unconstrained over ground walking. The aims of this study are to 1) determine short-term effects of visual biofeedback on biomechanical outcomes, 2) determine the short-term effects of visual biofeedback on gait symmetry during overground walking in individuals post-stroke. The investigators hypothesize that biomechanical and spatiotemporal outcomes will improve following training with the wearable biofeedback device. To assess these aims, participants' gait biomechanics will be assessed pre- and post-training with the biofeedback device as well as 24-hours following the training. Walking speed (primary outcome) as well as hip extension angle, propulsive force, step width, step length, and step time will be assessed to determine changes in performance with use of the device. By understanding short-term responses to this novel training paradigm, research can begin assessing the potential of wearable biofeedback devices in improving gait in persons post-stroke. Should this training prove successful, this study will provide the necessary feasibility data to motivate a larger scale, case-control clinical trial to determine efficacy of the device and training.