View clinical trials related to Paresis.
Filter by:Comparison of Upper Extremity Robotic Rehabilitation Efficiency with Conventional Rehabilitation in Patients with Hemiplegia after Cerebrovascular Event
This is a single-blinded randomized control trial aiming to explore the use of immersive virtual reality (VR) training in conjunction with real-life tasks therapy in 75 first time stroke patients with upper limb weakness.
Approximately 20% of stroke survivors have difficulties to dorsiflex the ankle and clear the ground during walking. This impairment, termed as "foot drop", is caused by an association of weak dorsiflexors and increased spasticity and stiffness of the plantar-flexors. As a consequence, walking performances are reduced and energy cost of walking is deteriorated. This may increase performance fatigability, as the locomotion will be realized at a higher percentage of the subjects' capacities. In order to overcome these issues, different treatments are proposed. One of the most conventional solutions are the use of ankle foot orthosis (AFO) and it is the most commonly prescribed device used to compensate for "foot drop". There is a very large choice of AFO on the market which can be proposed to patients with foot drop. The aim of this study is thus to assess the mechanical effects of using a manufactured carbon AFO in by comparison to a custom-made thermo-plastic AFO on walking capacity (distance and energy cost), fatigue and "foot drop" control throughout the gait phase in patients with hemiparetic stroke.
Individuals with stroke have balance and gait deficits. Gait training does improve balance and gait abilities, but adding perturbations may have increase these effects. The objective was to compare the effect gait training with and without perturbations on balance and gait abilities in individuals with hemiparesis due to stroke at a chronic stage.
Stroke is the leading cause of disability and diminished quality of living that frequently includes impairments of postural control and upper extremity (UE) function. The interaction of posture and UE coupling in terms of movement planning, initiation, and execution is not well understood. StartReact responses triggered by a loud acoustic stimulus (LAS) during the planning and preparation of goal intended actions has been used to probe the state of brainstem neuronal excitability related to posture and movement sequencing. The purpose of this study is to examine posture and goal-directed movement planning and execution using startReact responses and to evaluate posture and UE movement sequence during reaching while standing in individuals with chronic hemiparesis and healthy controls. Secondly, the investigators will determine the modulatory role of the cortical premotor areas (PMAs) in startReact responses in healthy controls and in persons with stroke by using transcranial direct current stimulation (tDCS) to up- or down-regulate PMAs excitability.
The main goal of the study is to verify the efficacy of the GRAIL system in respect to the walking pattern improvement in a population of hemiparetic subjects. In particular, the specific goals will be: - increase in walking symmetry and a better distribution among the time of stance and swing. - Kinematics and Kinetics correction, with incentive of more corrected activation timing. - Recruitment of the muscles most involved by the paresis, with the help of visual feedback. - walking speed increase (but with the priority of the walking pattern) - increase in the resistance - Stregthening of the support reaction
The main purpose of this study is to assess the interest of using wheelchair positioning equipment on the decrease of postural disorders, compared to the standard use of a wheelchair
Modified constraint-induced movement therapy (mCIMT) has been successfully used with children who have hemiplegia (weakness or paralysis on one side of the body.) mCIMT uses a removable cast during treatment and home exercise programs. It has been found that mCIMT can improve use, strength and coordination of a child's affected hand, and may also help improve speech and language skills. The goal of this project is to investigate whether combining mCIMT with speech therapy will enhance speech outcomes in children with cerebral palsy.
Purpose: The aim of the study is to determine the combined effect of transcranial direct current stimulation (tDCS) and activities in virtual reality on the functional recovery of the upper extremity function of the children with hemiparesis. Subjects: Forty children with infantile stroke with age group between (6-12 years) will be divided into two groups, the experimental group will receive tDCS plus VR while the control group will receive sham tDCS plus VR. All the children will receive tDCS for 30minutes with 1.5 mA intensity over the dominant motor cortex. Both groups will be treated for three times a week for 6 weeks. Instrumentation: The the Fugl-Meyer assessment, motricity index, and Modified Barthel index will be used to assess the dependent variables after the intervention.
Background: Impaired upper extremity is the major disability facing the children with hemiplegia as the inability to use hands for reach; grasp and manipulation affect their daily life activities. little attention has been given to gain perspective about abnormal movements that are detectable in hemiplegic cerebral palsy that are related to one's level of core stability and how they affect their hand functions.