Active clinical trials for "Paresis"

Children with cerebral palsy hemiplegia present a restriction in the daily activities due to the limitation in the active movement of the affected upper extremity. The mirror therapy (MT) in children with hemiparesis produces an improvement in the quality of movement and in the perception of the affected upper extremity. The action-observation therapy (AOT) favors the motor behaviour of the affected upper extremity through the observation of sequences of systematic activities and their posterior execution. It also produces an increase in the excitability of the corticospinal tract, originating muscular pattern contraction similar to the observed ones and favoring the motor activity. The combination of both therapies might improve the quality of movement of the upper extremity and provide a major cortical activation and increase the spontaneous use on having created the only protocol of intervention which includes the benefits of both interventions. The principal aim of this study is to analyze the influence of the quality of movement in the spontaneous use of the upper extremity affected in children with hemiparesis as well as the improvement of both variables across MTAO. Another specific aim will be to determine if "the non-use" is determined by the quality of the movement of the segment, if the MTAO reduces "the non-use" of this extremity as well as to obtain a protocol of intervention that increases the quality of movement and the spontaneous long-term use. A randomized controlled trial will be carry out in children with hemiparesia between 6 and 12 years, with a spontaneous use of the hand according to the scale HOUSE, a level Manual Ability Classification System (MASC) I-III and a good cooperation and cognition. Those with a severe spasticity, previous surgery of the upper extremity and the use of botox will be excluded. The children will be divided in two groups. The experimental group will receive for 20 days a daily therapy of 15 minutes at home of MT and 45 of AOT, whereas the control group will receive 60 minutes of AOT. Four measurements will be obtained: basal situation, at the end of the treatment and measures of follow-up to 3 and 6 months after the end of the treatment. Despite the sociodemographic variables, measures of the quality of the movement, the spontaneous use of the upper extremity, the questionnaire CHEQ and the AHA scale.

Deficits in upper limb (UL) functional recovery persist in a large proportion of stroke survivors. Understanding how to obtain the best possible UL recovery is a major scientific, clinical and patient priority. We propose that UL motor recovery may be improved by training that focuses on remediating an individual's specific motor impairment. Our approach is based on evidence that deficits in the control of muscle activation thresholds (spatial thresholds) of the elbow in stroke underlie impairments such as disordered movement and spasticity. Our novel training program focuses on improving the individual's active elbow control range using error augmentation (EA) feedback. Since training intensity and lesion load are key factors in motor recovery that lack guidelines, we will also investigate effects of exercise dose and corticospinal tract (CST) injury on UL recovery. In this multicenter, double-blind, parallel-group, randomized controlled trial (RCT), patients with stroke will participate in an individualized intensive technology-assisted reaching training program, based on error augmentation (EA), in order to improve voluntary elbow function. They will practice robot-assisted reaching in a virtual reality (VR) game setting. We will identify if intensive training with feedback aimed at expanding the range of spatial threshold (ST) control at the elbow (experimental group) is better than intensive training with general feedback about task success (control group). We will also determine the patient-specific optimal therapy dose by comparing kinematic and clinical outcomes after 3, 6 and 9 weeks of intensive training, and again at 4 weeks after training to determine carry-over effects. We will quantify the severity of the participant's motor deficit, as the amount of cortico spinal tract (CST) injury due to the stroke (%CST injury) and relate training gains to their %CST injury. Results of this pragmatic trial will provide essential information for optimizing individualized post-stroke training programs and help determine optimal patient-specific training dosing to improve motor recovery in people with different levels of stroke severity. This type of research involving personalized, impairment-based feedback and dose-effective training has the potential to significantly improve rehabilitation for a greater number of post-stroke individuals and improve the health and quality of life of Canadians.

mCIMT and BIT are therapies applied in children with hemiplegia which have a great evidence, but not in a early age. This research has the objective to know the effects of this therapies in infants diagnosed of infantile hemiplegia from 9 to 18 months applying 50 hours of dose for both interventions during 10 weeks, executing them at home by familes.

The aim of this study is to confirm the efficacy and safety of the intra-articular injection of BT-A in a multicentric double blind randomised study. For this purpose intra-articular injection of BT-A will be compared with the intra-articular steroid injection that is the current "gold standard" for the treatment of HSP.

The overall objective is to improve the functional status of Middle East adolescents with disabilities due to cerebral palsy (CP) and disabilities in adults due to cerebro-vascular stroke (Hemiplegia) by a collaborative Jordanian-Israeli-Palestinian-Moroccan applied research project.

The purpose of this study is to determine the physiology of nerve healing and the neurotization of the facial muscles after lengthening temporalis myoplasty.

The purpose of this study is to compare standard occupational therapy to a combination of conventional (standard) and robotic therapy. The Reo Go device will provide robotic therapy that gives therapists a tool that could make stroke treatment faster and better by helping patients practice more accurate arm movements with help from the device.

With the COVID-19 pandemic, the number of patients to be treated in rehabilitation increased . Hospitalization for severe infection can induce muscular atrophy and muscular dysfunction that persists for several months and rehabilitation capacities may be exceeded. Exercises in eccentric mode could be performed, inducing greater muscular hypertrophy, muscle strength, power and speed than concentric exercises. The goal of this study was to compare functional recovery at 2 months after a training program in eccentric and concentric mode after severe COVID-19. An effective rehabilitation could help reduce costs and duration of care.

To assess the incidence of hemi-diaphragmatic paresis following ultrasound-guided erector spinae plane (ESP) block

The most common motor deficiency after stroke or traumatic brain injury is hemiparesis. Most hemiparetic patients recover walking, but rarely with a speed permitting easy ambulation outdoors with family or friends. One of the mechanisms of gait impairment in hemiparesis is insufficient active hip flexion during swing phase, which leads to insufficient ground clearing at swing phase, with associated gait slowness and risks of fall. The main hypothesis behind the present study is that insufficient hip flexion during hemiparetic gait is partly due to overactivity of rectus femoris. Focal treatment of lower limb muscle overactivity using botulinum toxin has not been demonstrated to increase walking speed in hemiparesis as yet. However, most studies have focused distally, on improving foot dorsiflexion only. The purpose of this study is to compare the effects of botulinum toxin injection and placebo in rectus femoris (RF) + plantar flexors versus plantar flexors only.