View clinical trials related to Hemiparesis.
Filter by:Stroke and other causes of central nervous system damage can result in debilitating loss of motor control that is often more pronounced in one limb than the other. Using or attempting to use the affected limb during activities of daily living, despite considerable difficulty, stimulates neuroplasticity and motor function recovery. The investigators are conducting a clinical study to test the efficacy of wrist-worn sensors that encourage affected limb use during activities of daily living.
This study evaluates the effect of a unique session of inhibitory rTMS (cTBS) over the contralesional posterio parietal cortex (PPC) on the spatio-temporal parameters of a pointing movement performed by stroke patients with their paretic upper limb. It will also assess the effects on the resting motor threshold of both hemispheres and on parietopremotor connectivity. To achieve theses aims, the real cTBS stimulation will be randomly counterbalanced with a SHAM stimulation (in a second session) in a crossover design. Assessments will be performed before and after each stimulation session.
The majority of hemiparetic patients have balance disorders, which impact independence in daily living activities and walking. Conventional techniques used in rehabilitation improve balance but have shown no effects on dynamic balance required during walking. Recently dance is proposed to improve dynamic balance in older people and people with Parkinson's disease. Although many studies showed that dance is an effective activity to improve balance in these people, it has never been assessed in hemiparetic patients (except a case report). The aim of this study is to show that a dance program improves the balance of hemiparetic patients, compared to a control group. This randomized controlled study aims to include 40 hemiparetic patients who will perform a dance program (experimental group) or a upper-limb rehabilitation program (control group) for 8 one-hour sessions.
The purpose of this study is to advance upper limb robot-mediated tele-rehabilitation for patients recovering from stroke by empowering them through active science participation. By varying the tasks' features and affordances of a platform that combines a low-cost haptic device on one hand, and an online citizen science platform on the other, investigators will evaluate different strategies for social telerehabilitation. the two fundamental modes of social interaction - competition and cooperation - in addition to a control condition. Specifically, citizen science activities will be performed by competing, cooperating, or isolated users, and their rehabilitation effectiveness examined. Such effectiveness will be measured by (i) participants' rehabilitation performance (inferred from sensorimotor data acquired through the platform and directly quantified by a supervising therapist); (ii) participants' motivations to contribute (measured through surveys administered online); and (iii) participants' emotional well-being and sense of self-esteem (measured through online surveys).
The overall aim is to identify key determinants for recovery of hand function after stroke by applying newly developed hand function measures together with MRI measurements of the lesioned cerebral structures.
The purpose of the study is to evaluate the effect of "Equistasi" device on quantitative and qualitative gait characteristics in patients affected by hemiparesis.
Neurological pathologies cause important and permanent disabilities in every day life. These pathologies can follow stoke, affecting two people per one thousand each year or cerebral palsy, affecting two births per one thousand each year. To date, the diagnosis and the rehabilitation of motor and cognitive problems has been carried out separately by different domains. For example, physiotherapists have focused on motor problems and neuropsychologists have focused on cognitive functions. However, a number of studies have demonstrated a link between motor and cognitive abilities in adults and children. The present study has three main aims: (1) to better evaluate motor and cognitive problems in brain damaged patients (all ages), (2) to understand the link between motor and cognitive abilities in patients and healthy participants and, (3) to propose new types of therapies based on the link between motor and cognitive functions.
The studies conducted so far concerning the medical and paramedical cares provided to patients with profound and multiple disabilities (PMD) often show important limitations: samples are too small or very heterogeneous, generally constituted of children only; studies are mainly cross-sectional and retrospective, focusing on very specific issues instead of assessing health and quality of life from a more global perspective… So far, the investigators found no published data from a prospective cohort study involving a representative sample of patients with PMD. The present project aims to set up such a cohort so as to describe for the first time the natural history of French patients with PMD as well as the cares they receive at home or within the different dedicated structures in France. This cohort will also make it possible to identify the factors responsible for differences in the cares patients are provided, the consequences of these differences on their health and their quality of life (and those of their relatives) as well as the evolutions of these data over time. It will then allow for assessing the effectiveness of the French healthcare system to care for patients with PMD as well as building a frame of reference regarding the best cares to provide to these patients. The primary goal of this study is to identify the determinants of health among patients with PMD.
Rationale: About 80% of stroke patients suffer motor impairments, but current therapies have limited effects on motor recovery. Therefore, investigating new potential therapeutic approaches is crucial. Transcranial Direct Current Stimulation (tDCS) is a form of non-invasive electrical stimulation where a weak current is applied through electrodes over the scalp. This stimulation is known to (1) induce changes in neuronal excitability -which can last up to one day with late LTP-like plasticity protocols in a polarity and site-specific manner, and (2) facilitate motor learning and stroke recovery. So far, several pilot studies have reported beneficial results from tDCS in both subacute and chronic stroke patients, but it's still unclear how tDCS should be repeated over multiple days to optimally enhance recovery and training effects. Using a late LTP-like plasticity protocol could increase effectiveness of standard clinical care rehabilitation sessions and thus enhance the effects of rehabilitation. Therefore, the investigators want to investigate how late LTP-like plasticity tDCS affects rehabilitation in subacute stroke patients. The outcome of this study can provide important guidelines on effective motor therapy during stroke rehabilitation. Objective: Identify the effect of late LTP-like plasticity on motor rehabilitation during the subacute phase after stroke. Study design: Double-blinded, randomized between-subjects trials. Study population: Subacute stroke patients. Main study parameters/endpoints: The primary outcome measure is the upper limb motor function during the subacute phase after stroke.
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.