View clinical trials related to Stroke.
Filter by:The primary aim of this Phase II trial is to determine whether it is sufficiently likely that CTX DP treatment at a dose level of 20 million cells improves the recovery in the use of the paretic arm in acute stroke patients to justify a subsequent larger prospectively controlled study. This study will evaluate the safety and efficacy of intracerebral CTX DP at a dose level of 20 million cells in patients with paresis of an arm following an ischaemic middle cerebral artery (MCA) stoke. Eligible patients will have no useful function of the paretic arm a minimum of 28 days after the ischaemic stroke (a modified NIH Stroke Scale (NIHSS) Motor Arm Score of 2, 3 or 4 for the affected arm).
The purpose of this study is to investigate the combined training effectiveness of mechanical robot and neuromuscular electrical stimulation on upper limb rehabilitation after stroke.
Vocal stimulation may encourage spontaneous breathing in patients dependent on mechanical ventilation. The study will include 30 patients on mechanical ventilation that will be intervened by the vocal stimulation and 30 patients on mechanical ventilation will serve as the control group.
Stiff knee gait is defined as the lack of knee flexion in the swing phase of gait. Stiff knee gait is a frequent condition among stroke patients leading to reduce gait speed and increase energy cost. In association with neuro-rehabilitation, botulinum toxin A injections in the rectus femoris is recommended. However, the botulinum toxin A effect is transient necessitating repeated injections. The aim of this study is to compare the benefit of the rectus femoris tenotomy in comparison with botulinum toxin A injections according to the 3 domains of the International Classification of Functioning Disability and Health of the World Health Organisation
This research study will investigate the use of smart lower limb robotic exoskeleton (developed by the CSIC, Spain) in rehabilitation after stroke. It will compare robotic-assisted rehabilitation with supervised motor practice. Additionally, it will also examine the use of noninvasive scalp electroencephalography (EEG) to learn specific brain wave patterns associated with learning to walk on the powered lower limb exoskeleton. The findings will be used to understand human-robot interaction and to design smart orthotic devices that can be controlled by thought activity and assist those that have lost all or part of their walking abilities.
The purpose of this study is to determine whether the add load on non-paretic lower limb of individuals that suffer a stroke, while walking on a treadmill, is effective for restore gait symmetry of these individuals, in a subacute phase of stroke.
The aim of this study is to examine the effectiveness of a nurse-led self-efficacy enhancing stroke self-management program on recovery of community-dwelling stroke survivors.
The purpose of this study is to investigate sleep disordered breathing, autonomic dysfunction, and post stroke depression in acute and chronic stroke patients. Furthermore, to explore the interaction between these comorbidities, and their relation to stroke aetiology.
Previous studies show that one session of tDCS allow to improve muscle strength in hemiparetic patients in anodal condition. We test a new electrods configuration : a anodale stimulation opposite to the cortical representation area of the injured hemisphere and a simultaneous stimulation opposite to the homonyme the cortical representation area of the healthy hemisphere. This approach seems to be the best relevant electrods configuration in order to restore the inter-hemispheric balance. We hypothesis that one session of tDCS with this electrods configuration allow to improve paretic quadriceps strength in hemiparetic patients after stroke.
This will be a randomized, matched-group study to compare the cardiopulmonary / metabolic benefits for persons post stroke that learn to walk utilizing early treadmill training post-acute stroke to persons post stroke that learn to walk utilizing non-treadmill based gait training during the same time period. Participants (n=30) will be adults who have completed acute rehabilitation following a stroke. Random assignment will be to either the ESTT or traditional gait training protocol during the outpatient rehabilitation phase. 1. Group A: Traditional outpatient therapy (n = 15) 2. Group B: Treadmill training (ESTT) outpatient therapy (n = 15)