View clinical trials related to Stroke.
Filter by: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.
For the last decades, many aspects of human life have been altered by digital technology. For health care, this have opened a possibility for patients who have difficulties travelling a long distance to a hospital to meet with their health care providers over different digital platforms. With an increased digital literacy, and an aging population often living in the countryside, far from hospitals or other health care settings, an increasing need for digitalization of meetings between patients and health care personnel is inevitable. However, neuropsychological assessment is one sort of health care not possible to directly transfer into digital form. These evaluations are most often performed with well validated tests, only to be used in a paper-pencil form with a specially trained psychologist during physical meetings. The aim of this project is to investigate whether a newly developed digital neuropsychological test battery can be used to perform remote assessments of cognitive function in patients with neurological injuries and impairments. To this date, there are no such test batteries available in the Swedish language. Mindmore (www.mindmore.com) is a test system developed in Sweden, performing neuropsychological tests on a tablet, but still with the psychologist present in the room. This system is now evolving into offering the possibility for the patient to perform the test in their own home, using their own computer or tablet. The aim of the present research project is to validate this latter system (Mindmore Distance), using the following research questions: 1. Are the tests in Mindmore Distance equivalent to traditional neuropsychological tests in patients with traumatic brain injury, stroke, multiple sclerosis, Parkinson's Disease, epilepsy, and brain tumor? 2. Can the results from Mindmore Distance be transferred into neuropsychological profiles that can be used in diagnostics for specific patient groups? 3. How do the patients experience undergoing a neuropsychological evaluation on their own compared to traditional neuropsychological assessment in a physical meeting with a psychologist?
This study was a cross-sectional study. The insights of stroke patients and physiotherapists were assessed with the quantitative questionnaires. The results were provided as number, percentage, mean, and standard deviation. The results of the insights of the current sapmle were given and compared the previous studies. The authors though that the results of the study can fill the gaps in robotic rehabilitation and support a better robotic rehabilitation experience.
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.
The investigators hypothesize that delivery of anodal tDCS to the left frontal head region will reduce fatigue severity following stroke.
Consecutive patients accessing the emergency department with suspected stroke dispatch will be recruited at 3 study units: 1) ASL Abruzzo 1, hospitals of L'Aquila and Avezzano; 2) ASL Abruzzo 2, hospital of Chieti; 3) IRCCS Humanitas Research Hospital of Milan. Anonymized clinical and low-field (LF) MRI data as well as conventional neuroimaging data will be independently assessed by external units (Università Politecnica delle Marche and Policlinico di Messina, respectively). Both units will independently adjudicate the best treatment option, while the latter will also provide historical MRI data of stroke patients to develop artificial intelligence algorithms facilitating LF-MRI images interpretation (Libera Università di Bolzano). Agreement with conventional neuroimaging will be evaluated at different time points (hyperacute, acute -24 h, subacute -72 h, discharge, chronic -4 weeks). Further investigations will include feasibility study to develop an ambulance (mobile stroke unit) equipped with LF-MRI and cost-effectiveness analysis of LF-MRI. This trial will provide necessary data to validate the use of LF-MRI in the acute stroke care.
PROMISE aims at identifying novel diagnostic and prognostic circulating biomarkers for patients with acute stroke and at informing on crucial yet undetected pathophysiological mechanisms driving outcome after stroke by enriching all phenotypic information available from clinical routine with in-depth quantification of the circulating proteome and metabolome as well as other entities.
The purpose of this study is to determine how adding virtual reality assisted robotic treatment to traditional rehabilitation affects stroke patients' pain levels, functional status, and daily living activities.After conventional and robotic therapy Each patient was evaluated The Barthel Index (BI), the Fugl Meyer Assessment Upper Extremity (FMA-UE), and the Visual Analogue Scale (VAS) were used to assess the patients' pain, daily living activities, and upper extremity motor function.
Upper limb motor impairment is one of the most common sequelae after stroke. Indeed, the recovery of upper limb sensory-motor functions remains one of the most important goals in stroke rehabilitation. In the last years, new approaches in neurorehabilitation field has been investigated to enhance motor recovery. The use of wearable devices combined with surface electromyography (i.e. sEMG) electrodes allows to detect patients muscle activation during motor performance. Moreover, sEMG is used to provide to the patients the biofeedback about their muscle activity during exercises execution to enhance motor control and motor recovery. The aim of the study is to define the efficacy of using REMO® (Morecognition srl, Turin,Italy) for hand motor recovery after stroke. A randomised-controlled trial will be conducted compared to a task-oriented training, in hand motor rehabilitation after stroke. 28 patients with diagnosis of first stroke event will be enrolled in this study. After randomization process, participants will be allocated in Experimental Group (REMO training) or in Control Group (task-oriented training). The participants will be assessed before and after the treatment and sEMG will be collected during 12 hand movements. The treatment will consist of 15 sessions (1h/day, 5day/week, 3 weeks). Finally, the sEMG of the same 12 hand movements will be collected from 15 healthy subjects to compare muscle activation with a normal reference model.
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.