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CP (Cerebral Palsy) clinical trials

View clinical trials related to CP (Cerebral Palsy).

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NCT ID: NCT06407219 Recruiting - Physical Disability Clinical Trials

Evaluating the Impacts of a Single Session of Robot Assisted Gait Training With a Trexo

Start date: March 14, 2022
Phase: N/A
Study type: Interventional

Early use of robotic gait trainers have shown many benefits, however why these benefits occur and how to maximize them is unknown. There are a few options for how a robotic gait trainer can be used, however, there is not much understanding of how these options impact rehabilitation and compensate for impairments. The investigators aim to evaluate the impacts of as single session of Trexo robotic gait training and the impact of different modes of the Trexo robotic gait trainer. The investigators will evaluate how the different settings impact things like physical activity, walking, brain activity, spasticity, and fatigue. Investigators will arrange for a familiarity and fitting session to start, so that study team members can fit the participant to the Trexo and so that participants can become familiar with the feeling of using the Trexo robotic gait trainer. After the initial fitting sessions, follow up sessions will be completed to evaluate different settings on the Trexo, for example in "endurance" mode (where the robot completes the movements for the participant) and in "strength" mode (where the robot requires some assistance from the participant). Investigators may also test different fitting settings, for example with and without the supportive seat in the Trexo. Only three visits are required (one fitting/familiarity session and two testing sessions), however participants and/or their families may choose to complete more testing sessions if they want to assess other aspects of the training. For example, if the first two testing sessions assessed physical activity, participants and their families may choose to return for further sessions to assess brain activity. The aim of the study is to determine how robot assisted gait training impacts rehabilitation and compensates for impairments, as well as to provide suggestions on how the robotic gait trainer might be improved or modified. This study is exploratory to find out more about how these robotic gait trainers, specifically the Trexo, impacts various aspects of rehabilitation.

NCT ID: NCT06128746 Recruiting - CP (Cerebral Palsy) Clinical Trials

rTMS Treatment of Spasticity in Children With Cerebral Palsy/ Hemiplegia Due to ABI - a RCT

Start date: January 13, 2024
Phase: N/A
Study type: Interventional

This RCT aims to investigate the effect of repetitive transcranial magnatic stimulation (rTMS) in treating children with hemiplegoc cerebral palsy. The study will measure any improvement in spasticity after using contra-lesional inhibitory rTMS follow by intensive limb training. Participants will attend a 10-day rTMS treatment sessions, follow by intensive training of the impaired limb. They will also undergo MRI scans before and after the treatment to investiagte the underlying neurophysiological mechanisms that lead to changes clinically by using TMS as well as MR-DKI. Researchers will compare the intervention group and the sham group to see if rTMS could result in improvement of participants' spasticity.

NCT ID: NCT05667792 Completed - CP (Cerebral Palsy) Clinical Trials

Examination of the Effects of Video-Based Games on Balance, Trunk Proprioception, Motivation and Quality of Life in Individuals With Cerebral Palsy

Start date: May 5, 2022
Phase: N/A
Study type: Interventional

In the study we planned, 42 individuals diagnosed with cerebral palsy will be divided into 2 groups according to age groups. Individuals aged 4-11 will be included in the child group, and individuals aged 12-18 will be included in the adolescent group. Individuals with cerebral palsy in the child and adolescent group will also be randomized and divided into treatment and control groups. In addition to the conventional treatment created in accordance with neurodevelopmental treatment approaches, video-based virtual reality games will be played for a total of 10 weeks for treatment groups in both age groups. The patients will be followed up with a video-based game application for an average of 20 minutes, after the physiotherapy and rehabilitation application, which consists of an average of 45 minutes, twice a week. Individuals in the control group in both age groups will be followed for 10 weeks with conventional treatment created in accordance with neurodevelopmental treatment approaches. The entire sample will be evaluated at the beginning of the study and at the end of the 10th week. Our main aim in the study is to compare the effects of video-based games applied in different age groups on balance, trunk proprioception, motivation and quality of life.

NCT ID: NCT05649501 Completed - CP (Cerebral Palsy) Clinical Trials

Effect of PNF on Selective Motor Control and Balance in CP

Start date: February 1, 2022
Phase: N/A
Study type: Interventional

Cerebral palsy is attributed to non-progressive disturbances that occurred in the developing infant brain or fetal characterized by abnormalities of muscle tone, movement and motor skills. PNF technique is thought to have an impact on voluntary motor control and balance through stimulation of proprioceptors, so the aim of this study is to determine the effects of proprioceptive neuromuscular facilitation technique on selective motor control and balance on children with cerebral palsy.

NCT ID: NCT04430673 Completed - Children Clinical Trials

Virtual Rehabilitation Innovations for Motivation

VR4REHAB-MOT
Start date: February 22, 2021
Phase: N/A
Study type: Interventional

Children and young people with movement difficulties such as Cerebral Palsy (CP) and Acquired Brain Injury (ABI) report that traditional therapies are highly repetitive and labourious. This influences enjoyment and participation in regular therapy programmes and may result in reduced adherence to therapy or exercise regimes, limiting effectiveness. This study will build on the team's previous work to explore the potential use of Virtual-Reality (VR) technologies in rehabilitationÍž particularly systems that can be used at home to increase accessibility and reduce need to attend clinics for therapy. During the co-production events of the VR4REHAB Inter Regional North West Europe (NWE) funded programme in 2018, young people desired the use of commercial games for therapeutic purposes. This work has enabled connections between affordable computer technologies: the Raspberry Pi, VR headsets and freely available commercial games. This 2-Phased project is therefore exploring the potential of commercially available virtual reality (VR) systems consoles and games for use in rehabilitation programmes. The Investigators hope to gain information on: 1. Whether commercially produced VR games can provide a motivating environment to support adherence to therapy 2. Whether it is possible to improve reaching and grasp-release hand movements through this method 3. Gain an understanding of the ages of children and young people most likely to benefit from home-based VR therapy User evaluation and performance data and therapist evaluations will be collected and compared to baseline data to provide information on usability, accessibility, acceptability and adaptability.

NCT ID: NCT02669160 Completed - CP (Cerebral Palsy) Clinical Trials

Tolerance of a Motorized Orthosis Reproducing Walking Movement vs Conventional Standing-up Devices in Child With CP

EOMEC/CP
Start date: November 2015
Phase: N/A
Study type: Interventional

Cerebral palsy (CP) includes all the sensorimotor development disorders leading to balance, gait and movement disruptions. These disorders are related to lesions of the central nervous system (CNS) that occurs at birth or during the early childhood. The therapeutic management of CP is essentially based on reeducation, but may also require specific medical treatments, orthopedic devices and sometimes bone surgery. Therefore, CP children are very often placed in specialized institutions with a significant socioeconomic impact. CP children suffer from various sensorimotor impairments, which may evolve into orthopedic deformations, justifying the implementation of restrictive devices. The French High Authority of Health (HAS) estimates that 50 % of CP children have pains when using contention or verticalization devices. These pains are mainly nociceptive and are caused by the passive constraint applied on contact points. Many clinical trials evaluating the physiotherapy benefits on CP patients have led to controversial results regarding the duration of the effect of this therapeutic approach. However, the improvement is more important when neuromuscular facilitation techniques are added to the reeducation program. Human neuronal adaptation and plasticity mechanisms are now understood, with the possibility of a potential partial recovery. Non-invasive stimulation methods and neurorehabilitation techniques could participate in the CNS re-calibration. Automated assisted movements have already been used and these processes showed an increase joint range of motion, bone density and decreased spasticity. In recent years, "exoskeleton" devices have been used on subjects with spinal cord injuries allowing motor performances improvement. This pilot study aims evaluating CP children's tolerance to motorized orthosis reproducing walking pattern compared with conventional passive standing-up devices. For this clinical trial, the investigators compare the behavior of CP children using a motorized orthosis reproducing walking pattern (Innowalk Pro Small) to the behavior of same children placed in their usual conventional passive device. The investigators hypothesis is that the Innowalk improves joints range of motion, enhances selective motor control, decreases the medium-term spasticity and offers at least the same tolerance as conventional passive devices.

NCT ID: NCT01799304 Completed - Hemiplegia Clinical Trials

Static and Dynamic Postural Stability in Cerebral Palsy Children

Dual-Task
Start date: February 2013
Phase: Phase 3
Study type: Interventional

Cerebral palsy (CP) concerns 2 children out of 1000 in the general population (SCPE 2002). It is the main cause of postural and motor deficits in children. During the past 20 years, the postural deficits exhibited by these children have been attributed to various factors : 1. neuromuscular functions 2. sensory integration 3. muscular-squeletic functions. The common point of all these studies is the existence of immature motor patterns, probably related to an inability to implement more elaborated and adapted motor patterns with respect the task to perform. CP children do not develop the characteristics of the plant grad locomotion. They exhibit a uniform muscular activation with a high level of co-activation. Locomotion is generally characterized by an increase of stretching reflexes at short latencies and by a low level of activation associated to a low modulation of gastrocnemius muscles.. These data also suggest that it is the control of the temporal rather than the spatial parameters of the head which are mainly altered in CP children. Even though static postural control and locomotion are considered as automatic processes, this control requires, however, a significant amount of attentional resources. Within this context, the amount of attentional resources which need to be solicited can provide information on two complementary dimensions. On one hand, on the level of automaticity of postural control and/or locomotion when subjects' attention is oriented toward another task. On the other hand, on the cognitive cost of postural control and/or locomotion, depending on children age, that is, as a function of their level of maturation and of the nature and importance of their sensory-motor deficits. When the amount of required attentional resources is reduced, postural control and/or locomotion is considered as automatic processes with a low cognitive cost. The dual task paradigm in which subjects have to simultaneously process a cognitive (e.g. Stroop task) and a postural or motor task (e.g., standing upright on a force platform) is generally used to investigate these questions. How an appropriate allocation of attention is performed as a function of the cognitive and postural/motor tasks is important in the developmental process of posture and locomotion. It seems to be even more crucial in CP children and more generally in pathology. The main goal of the present project is to investigate the contribution of attentional processes in postural control and locomotion of CP children as compared to control healthy children.