View clinical trials related to Stroke.
Filter by:Equal access to evidence based rehabilitation in the stroke population is a challenge. Home based solutions including telerehabilitation is a promising strategy to meet these needs. However, the tools must be customized for persons with stroke and the technologies developed to serve rehabilitation purposes. The DISKO-tool was developed to enable efficient, continuous training in the home setting with health professional follow ups of training and training results after stroke via video link. The tool has in a preliminary study proved feasible and safe in different phases after stroke. The functional effect of using the DISKO-tool added to conventional rehabilitation in the home setting is yet to be explored. Thus, the aim of this study is to explore the added value of using the DISKO-tool during rehabilitation in the home setting.
The reticulospinal pathway (RSP) is at the center of spasticity mechanism. The RSP indirectly synapses with motor neurons via interneurons in the ventromedial intermediate zone in both halves of the spinal cord, and directly synapses with motor neurons of proximal extremity muscles. The main motor cortex region controlling unilateral RSP is the premotor cortex. That is, a single limb is represented in both premotor cortices. This suggests theoretically that if the corticoreticular pathway controlling RSP is modulated by dorsal premotor cortex stimulation, there may be a change in the regulation of the intraspinal network regulating the stretch reflex. Therefore, the hypothesis in this study is that the application of repetitive transcranial magnetic stimulation (rTMS) over the contralesional dorsal premotor cortex in chronic stroke patients changes the severity of spasticity.
The relation between obesity and stroke recurrence is still under debate. In this study it has been sought whether baseline obesity is associated with recurrent stroke and major cardiovascular events in a long-time period.
Stroke and silent cerebral infarction are a real risk with thoracic enodvascular aortic repair (TEVAR). The investigator propose to prospectively observational study with enrolment of all patients undergoing TEVAR for thoracic and thoracoabdominal conditions including aneurysmal degeneration, Type B dissection and acute aortic syndromes over a 24 month period, equating to a minimum of 20-30 patients per year. Patients undergoing juxtra-renal and infra-renal aortic stenting will form a control group.
The investigators combined the mRS questionnaire and BI questionnaire and then developed a telephone interview form as a simple questionnaire with internal rules. The main purpose of this study is to evaluate the validity and reliability of the telephone interview form when compared with face-to-face assessment in clinically stable patients with stroke.
This proposal is a prospective, single-center, dose-escalation safety, tolerability, feasibility and potential efficacy study of transcranial direct current stimulation (tDCS) in acute stroke patients with substantial salvageable penumbra due to a large vessel occlusion before and after endovascular therapy.
Anticoagulants are a leading cause of acute injury from adverse drug events, leading to ~20,000 serious injuries reported to the Food and Drug Administration per year and more than 220,000 emergency department visits annually. Therefore, we propose to implement a health information technology (HIT) population management tool at two distinct anticoagulation clinics that will allow the care team to assign and track tasks essential for timely patient monitoring. We will examine its effect on anticoagulation management outcomes through a randomized trial, hypothesizing that such interventions can be effective as well as cost-effective strategies to improve patient safety in the context of anticoagulation management services.
The purpose of this study was to investigate the effects of the combination treatment strategy. A randomized, double-blinded and sham-stimulation study was conducted. Twenty-six participants with chronic stroke (onset > 6 months) were assigned into one of three groups (tDCS combined with NMES, tDCS combined with sham NMES, or sham tDCS combined with sham NMES) by block randomization. In addition to conventional rehabilitation, all subjects received an additional protocol with a total of 15 sessions for 3 weeks (5 times per week, 30 minutes daily). The UE subscale of Fugl-Meyer assessment (UE-FMA) and Action Research Arm Test (ARAT) as primary outcome measures were assessed at beginning of the intervention, after 3-week of treatment, and one-month follow-up. No significant differences in the primary outcome measures at post-treatment and one-month follow-up were found among the tDCS combined with NMES group (n=9), tDCS combined with sham NMES group (n=9), and the sham tDCS combined with sham NMES group (n=8). However, significant changes in UE-FMA (from baseline to post-treatment, p= .02) and ARAT (from baseline to post-treatment, p= .04) score were found for the tDCS combined with NMES group. This preliminary study reveals that the tDCS combined with NMES appears to be beneficial to UE motor recovery after stroke but is not superior to the tDCS alone.
The objective of this study is to better understand the structural and functional changes that the CNS undergoes following stroke and how these changes relate to clinical measures. Both macroscopic and microscopic changes of the brain and the spinal cord will be examined in stroke patients and compared to healthy controls. In terms of structural plasticity, we aim to identify MR biomarkers that allow predicting the course of the patient's neurological status and accurately describe the course of the disease and the recovery. Importantly, we aim to investigate which factors scale the patients' symptoms. In terms of functional plasticity, we will combine fMRI with behavioural motor and sensory testing to understand i) the structural and functional interplay between spinal and supraspinal neural circuits after stroke possibly driven by beneficial plasticity/regeneration vs. maladaptive plasticity/degeneration and ii) which clinical and behavioural determinants drive functional hand representations in the primary somatosensory and motor cortices to be maintained and which determinants drive reorganisation of functional representations following sensory input loss. We will further investigate the contribution of brainstem reorganisation to plasticity observed at the cortical level and, by doing so, aim to better understand the mechanistic underpinnings of functional reorganisation.
This study will investigate the use of High-definition Transcranial Direct Current Stimulation (HD-tDCS) in the functional improvement of hand dexterity while performing music-assisted hand exercises.