Cardiovascular Effects of Acute Exercise Post-Stroke
StrokeCardiovascularThere is an urgent need to reduce the impact of stroke by promoting optimal rehabilitation strategies that decrease the risk of stroke. Improving cardiovascular health following a stroke is a key rehabilitation strategy that has the potential to reduce the risk of a recurrent event. Adverse cardiovascular events, including stroke, are often due to chronic atherosclerosis, which shows as increased arterial stiffness. Elevated arterial stiffness is prevalent in individuals with cardiovascular disease, is associated with markers of silent cerebrovascular disease and is a new marker for predicting cardiovascular risk. Cardiopulmonary exercise tests (CPETs) are used to assess cardiorespiratory fitness. Novel CPET protocols have emerged for stroke, enabling safe and valid measurements of cardiorespiratory fitness. Cardiovascular exercise, typically performed through moderate-intensity continuous exercise (MICE), can improve function and fitness in individuals living with stroke and lower the risk of recurrent stroke. Recently, high-intensity interval exercise (HIIE) has emerged as a potentially potent stimulus that may also lead to improvements in function and fitness. While HIIE has shown benefits in clinical and non-clinical populations, only a few small, preliminary studies have examined the effects of HIIE in individuals living with stroke, and most have primarily focused on examining the effects of HIIE on function and gait. No study has examined and compared the acute effects of a CPET, MICE and HIIE on arterial stiffness in stroke. This study will (1) examine the acute effects of a single session of this HIIE protocol compared to a CPET and a single session of MICE on arterial stiffness among individuals with chronic stroke, and (2) the feasibility of a high-intensity interval training exercise protocol previously found to be tolerable and effective in attaining high levels of exercise intensity in in these individuals.
Improving Quality of Life for Veterans With Stroke and Psychological Distress
StrokeDepression1 moreThe study will create a treatment to improves mobility, physical activity, engagement in activities with family and friends and overall satisfaction with life for Veterans who have depression and anxiety after having a stroke. The treatment will then be tested to ensure it makes the desired improvements in the Veterans.
A Novel Mechanics-based Intervention to Improve Post-stroke Stability
StrokeThe purpose of this study is to determine whether a novel treadmill training intervention can improve the gait stabilization strategy used by individuals who have experienced a stroke.
Dual-hemisphere Transcranial Direct Current Stimulation on Lower Limb Motor Functions After Stroke...
StrokeThe aim of the present study is to evaluate the possible effect of using dual-tDCS combined with conventional physical therapy on lower limb function in stroke patients.
Outcomes Associated With Progressive Balance And Gait Training Using The KineAssist® Robot
Cerebrovascular AccidentUsing a randomized controlled research design, compare walking outcomes resulting from gait and balance training with standard physical therapist interaction versus training with the addition of a KineAssist® robotic system that provides for safety and freedom of movement.
Controlling Hypertension After Severe Cerebrovascular Event
Severe StrokeAcute Stroke1 moreThe purpose of this academic lead study is to explore ideal blood pressure targets and optimum individualized anti-hypertension strategies in acute severe stroke.
Sensorimotor Retraining in Chronic Stroke
StrokeA prospective, randomized double-blind clinical trial will be conducted to determine the effect of a sensorimotor retraining program on the sensory and functional recovery of the paretic lower limb of subjects with chronic sequelae from stroke.
Contralaterally Controlled Functional Electrical Stimulation Plus Video Games for Hand Therapy After...
Upper Extremity HemipelegiaStrokeDetermine if adding a video game component to an electrical stimulation therapy improves hand function in stroke patients
Effects of a Provision of a Cane After Stroke
StrokePrevious studies failed to determine the real effects of the provision of a walking cane after a stroke, mainly due to biases related to their methodological designs. In addition, there is no information on the carry-over effects of a cane to social participation. This study will test the hypothesis that the provision of a cane is effective in improving walking speed, step length, cadence, walking capacity, walking confidence, and participation of individuals with chronic stroke. For this prospective, single-blinded, randomized clinical trial, people after stroke will be randomly allocated into either experimental or control groups. The experimental group will receive a single-point cane, with ergonomic handgrip, which will be individually adjusted to the participant's height. A physiotherapist will provide instructions on how to walk with the cane and the participants will practice for about 15 minutes or until they feel comfortable with the device. Then, they will take the cane home and will be instructed to use it all the time during locomotion. Weekly, they will receive a phone call, to ensure that they are using the cane and to clarify any doubts. A home visit may be conducted, if necessary. The control group will be instructed to perform stretching of the lower limb muscles daily and keep their daily activities, without the use of a cane. To ensure the level of attention similar to that of the participants in the experimental group, the individuals in the control group will also receive weekly phone calls. At baseline (Week 0), post intervention (Week 4), and one month after the cessation (Week 8) of the interventions, researchers blinded to group allocations will collect all outcome measures.
Effects of Inspiratory Muscle Training on the Functional Gait Performance of Individuals After Stroke...
StrokeInspiratory Muscle Training2 moreThe most commonly observed sequel after stroke is muscle weakness, which can also be identified in respiratory muscles, in the acute and chronic phases, and may compromise the lung function of these individuals. Studies have shown that lower Pimax values are found in non-community ambulators, and gait velocity has been reported as an important indicator of functionality after stroke, with higher gait velocity values associated with greater community participation and better quality of life. This study will test the hypothesis that training of the inspiratory muscles is effective in improving strength and endurance of the inspiratory muscles and functionality, including speed of gait, functional gait perfomarnce, activities of daily living and quality of life with stroke subjects. For this clinical trial, people after stroke will be randomly allocated into either experimental or control/sham groups. The experimental group will undertake training of the inspiratory muscles with the Power Breath Medical Classic device regulated at 50% of the subjects' maximal inspiratory pressure values, five times/week over six weeks, twice a day for 15 minutes, totaling 30 minutes/day. The control group will undertake the same protocol, but the participants will receive the devices with a minimal load, wich corresponds to 1cmH2O. Both groups will participate in the rehabilitation program for 6 weeks. At baseline and post intervention, after the cessation of the interventions, researchers blinded to group allocations will collect the following outcome measures: maximal respiratory pressures, respiratory muscle endurance, functional gait performance, activities of daily living and quality of life. After 12 weeks will collect again maximal inspiratory pressures and functional gait performance.