Active clinical trials for "Stroke"

Consequences of stroke are manyfold but all of them are important factors on the long-term outcomes of rehabilitation, becoming an important health problem with requires health strategies with advanced age. High intensity interval training (HIIT) is an efficient training protocol used in cardiac rehabilitation programs, but owing to the inter-individual variability in physiological responses to training associated to cardiovascular diseases, the exercise dose received by each patient should be closely controlled and individualized to ensure the safety and efficiency of the exercise program. The heart rate variability (HRV) is actually being used for this purpose, as it is closely linked to de parasympathetic nervous system activation. In this way, higher scores in HRV are associated with a good cardiovascular adaptation. The objective of this protocol is to determine the effect of HIIT compared with HRV-guided training on cardiorespiratory fitness, heart rate variability, functional parameters, body composition, quality of life, inflammatory markers, cognitive function, and feasibility, safety and adherence in patients after stroke undertaking an 8-week cardiac rehabilitation program. This will be a cluster-randomized controlled protocol in which patients after stroke will be assigned to an HRV-based training group (HRV-G) or a HIIT-based training group (HIIT-G). HIIT-G will train according to a predefined training program. HRV-G training will depend on the patients' daily HRV. The peak oxygen uptake (VO2peak), endothelial and work parameters, the heart rate variability, the functional parameters, the relative weight and body fat distribution, the quality of life, the inflammatory markers, the cognitive function, and the exercise adherence, feasibility and safety will be considered as the outcomes. It is expected that this HRV-guided training protocol will improve functional performance in the patients after stroke, being more safe, feasible and generating more adherence than HIIT, providing a better strategy to optimize the cardiac rehabilitation interventions.

To evaluate whether NESA microcurrents can be used as an effective treatment for various sequelae present in stroke patients, specifically in the treatment of spasticity, balance, pain; and whether it affects quality of life, performance of activities of daily living and quality of sleep.

The purpose of this study is to determine the efficacy and safety of levofloxacin in treating acute ischemic stroke.

The goal of this clinical trial is to test the hypothesis that combined Respiratory Muscle Training and a Stroke Wellness Program is more effective than a Stroke Wellness Program alone for stroke survivors with and without a smoking exposure history. Participants will participant in a Stroke Wellness Program consisting of strengthening, cardiovascular and flexibility training program plus respiratory exercise for 24 sessions (3x/week for 8 weeks). Researchers will compare outcomes to those randomized to a respiratory strengthening program compared to a relaxation training program to see if those who received respiratory strengthening had improved maximal respiratory pressure, improved physical activity and improved quality of life compared to those who received relaxation training.

Post-stroke deficits are highly common and functional impairment persists throughout life after stroke. Skeletal muscle mass and strength are fundamental contributors to mobility throughout the adult life course. Stroke-related muscle atrophy contributes to loss of strength, and declines in lower extremity function, cardiorespiratory fitness, and walking independence and post-stroke sarcopenia. Improving the quantity and function of skeletal muscle needs to be an important therapeutic target after stroke. Resistance exercise training (RET) has been shown to increase skeletal muscle mass, strength and power, reduce oxidative stress, improve cardiac function, and better regulate lipids after stroke. However, the feasibility and the effects of a power focused RET program for individuals with stroke need to be examined.

Pervious literature shows the effects of tDCS and RehaCom on cognition in chronic stage of stroke and only short-term effects were seen, but detailed evidence-based study on cognition in subacute and acute stages of stroke is spare and there is limited number of studies are available on effects of tDCS in cognition in both acute and subacute stages of stroke. Some polite studies were done in acute stage of stroke and only short-term effects of tDCS were evaluated along with other outcome measures including upper and lower limb motor recovery, balance and improving activity of daily living. The long-term effects of transcranial direct stimulation only for the improvement of cognition in subacute stage of stroke are yet to be seen. This study will help us in evaluating the long-term effects of aTDCS and RehaCom cognitive therapy on cognition in subacute stage of stroke.

In this study, the effectiveness of vagus nerve stimulation in patients with right and left hemiparesis will be compared with each other and with the sham application.

The aim of this study was to evaluate the efficacy and safety of Minocycline versus placebo in the treatment of patients with moderate to severe acute ischemic stroke.

In the past two decades, even as stroke cases increase around the world, advances in motor rehabilitation have been limited. Clinical trials of stroke rehabilitation have examined the therapeutic utility of several neuromodulatory devices to improve efficacy of motor training. However, there is limited knowledge on the effects of sensory-based priming techniques using repetitive peripheral magnetic stimulation (rPMS) post stroke. This project focuses on understanding the effect of rPMS on motor skill performance in persons with stroke.

Stroke patients experience weakening of muscles on the affected side. Damage to the motor cortex and the pyramidal tract due to a stroke leads to a motor control disorders and co-contraction of trunk muscles due to abnormal levels of abdominal muscle tension and voluntary movement.