Combined Constraint Therapy and Bimanual Therapy for Children With Unilateral Brain Injury
HemiplegiaCerebral PalsyTo examine efficacy of combined unimanual and bimanual intensive therapy in children with unilateral brain injury. A key question in hemiplegia therapy is whether the affected hand should be trained alone or in tandem with the other hand. In constraint-induced movement therapy (CIMT), a participant's less-affected upper extremity is restricted with a sling, cast, or mitt, while the participant actively uses the affected arm and hand in skill-based therapeutic activities. Bimanual therapy, in contrast, engages both hands in therapeutic movement. Since constraint and bimanual therapy target different aspects of hand use, they could have synergistic effects on hand function when given in combination.
IndieTrainer: Enabling Individuals With Cerebral Palsy to Receive Gamified Power Mobility Training...
Cerebral PalsyConditions Similar to Cerebral PalsyPower wheelchairs (PWCs) offer children who are unable to independently opportunities for participation in social, educational, and leisure activities. Unfortunately, children who have severe cognitive, motor, or sensory impairments may need extended training to be able to master the PWC skills needed to "qualify" for their own PWC. The IndieTrainer system was developed to address this need. The IndieTrainer system is comprised of the IndieGo device and video-game modules. The IndieGo device temporarily converts a manual wheelchair into a powered wheelchair, thereby allowing children to remain in their own manual wheelchair and use their own custom seating system during power wheelchair skills training activities. The video-game modules are integrated into the IndieGo device such that the video games can be played on a TV screen using the specific access method used to control the IndieGo (i.e., switch or joystick). The IndieTrainer system is designed to allow a child to practice power wheelchair skills as part of the video-game modules or as part of more traditional power wheelchair skills training activities wherein children are able to actively explore the environment and practice executing actual wheelchair skills. This study will evaluate the use of the IndieTrainer system in children with cerebral palsy, ages 5-21 years.
Igniting Mobility in Adolescents and Young Adults With Cerebral Palsy
Cerebral PalsyThe study design will consist of a cohort of adolescents and young adults with cerebral palsy (CP) that will undergo a gait training protocol. All participants will complete MEG or EEG baseline brain imaging measures of their sensorimotor cortical activity, MRI brain/spinal cord imaging (previous MRI or template brain may be substituted), neurophysiological tests of the spinal cord H-reflex, and a series of mobility clinical tests and cognitive tests. Participants with metal in their body that would interfere with the MEG (e.g., braces on teeth, permanent retainer) will not undergo the MEG tests but will undergo the EEG assessments. Those who complete the MEG assessments will not undergo the EEG assessments. After completing the baseline tests, the participants with CP will undergo the therapeutic gait training. After completing all of the therapeutic gait training sessions, the participants with CP will repeat the same assessments that were completed at baseline. Separately, a cohort of neurotypical adolescents and young adults will also complete the baseline assessments. The neurotypical participants will not undergo the therapeutic gait training, but will be used as a normative group for interpreting if the changes seen in the participants with CP after therapy are in fact moving the system toward a normative state.
Effects of Vestibular Stimulation on Motor Function and Balance in Children With Hypotonic Cerebral...
Hypotonic Cerebral Palsymy study base on 2groups with total sample size 68 patients .group A conventional physiotherapy group in which the duration of session is 30 mints with 5 mints rest .include soft tissue elogation of tight muscles,lowerlimb resistance exercise,movement transitions balance board standing walking and stair climbing.for group b (conventional physiotherapy and vestibular stimulation exercises)30 mints with 10 mints rest.same physiotherpy exercise re given with vestibular stimulation exercises include swinging in standing in all diection,trampoline jump,rocking movement in rocking chair gaze stabilization exercises and visual pursuit exercises
Robotic Exoskeleton Gait Training in Adolescents With Cerebral Palsy
Cerebral PalsyThe study design will consist of a cohort of adolescents and young adults with cerebral palsy (CP) that will undergo a gait training protocol. All participants will complete MEG baseline brain imaging measures of their sensorimotor cortical activity, MRI brain/spinal cord imaging (previous MRI or template brain may be substituted), neurophysiological tests of the spinal cord H-reflex, and a series of mobility clinical tests. After completing the baseline tests, the participants with CP will undergo the therapeutic gait training using either traditional physical therapy or utilizing a robotic exoskeleton. After completing all of the therapeutic gait training sessions, the participants will repeat the same assessments that were completed at baseline. The two groups will be compared based on the assessments for therapeutic outcomes.
Soft Robotics for Infants With Cerebral Palsy
Cerebral PalsyChildren with spastic cerebral palsy suffer from significant weakness that contributes to abnormal posture and movement. It is thought that this arises due lack of frequency sufficient tension to encourage normal muscular growth underlying the need for early intervention to encourage walking. The failure of muscle growth to keep pace with bone growth is most evident in the bi-articular muscles and contributes to joint contractures and gait abnormalities such as toe-walking and flexed-knee gait. Recently, our research team has developed a novel, lightweight (0.2kg at knee joint) and portable (energetically autonomous) Soft Wearable Robotic Knee System that can provide active powered knee assistance and synchronized proprioceptive feedback for the gait training of stroke patients' standing and walking.
Robotic Walking for Children Who Cannot Walk
Cerebral PalsyMobility Limitation3 moreA common problem among children with nervous system disorders is difficulty walking on their own. This has impacts beyond mobility including short and long-term health conditions associated with physical inactivity and different developmental experiences as a result of the mobility impairments. A robotic trainer can both provide rehabilitation and be an assistive device to help compensate for difficulties. Figuring out how to prescribe it is critical to improve daily life for children with significant disabilities. Preliminary use of robotic trainers have shown many benefits, such as better head control and improved independence in transfers, which greatly increases ability to live independently. Additionally, vital functions that are frequently impaired in those with less physical activity, such as sleep and bowel habits, seem to improve. Finally, these children enjoy using them. This project aims to determine who is most likely to benefit from training with a robotic trainer and investigate key details about the dose of training that is needed. Families that are already using or hope to use robotic training need this data to help improve their access to the intervention. Clinicians need this systematic approach to building evidence to ensure a future multi-centre randomized control trial is well designed. This study is needed to help improve the lives of those who live with significant disabilities. The objective is to evaluate the feasibility and impacts of delivering robotic gait training at home. Integral in this study is capturing the user perspectives. This will both provide preliminary evidence-based advice to potential users, their families, and clinicians as well as provide key metrics to design a definitive multi-centre randomized control trial. The investigators will provide robotic gait trainers, specifically Trexo robotic gait trainers, to participants and their families to use in their home communities for 12 weeks to evaluate the feasibility and impacts of intensive robotic gait training in people who cannot walk independently. Assessments will be completed throughout the duration of study, including before, during, and after the training intervention, with the goal of evaluating a wide range of feasibility considerations and impacts from robotic training.
Proprioceptive Training,Balance,Motor Function,Spastic Cerebral Palsy Patient
Hemiplegic Cerebral PalsyStudy Design: Randomized Controlled Trial Settings: Study will be conducted at Mobility quest clinic, Lahore Sample size:37 in each group Control group receive : Routine physical therapy Experimental group receive : Routine physical therapy+proprioceptive training
Investigating the Use of the WalkAide on a Child's Ability to Ascend/Descend Stairs and Curbs
Cerebral PalsyThe purpose of this study is to investigate the use of the WalkAide, a Neuroprosthetic device, on a child's ability to ascend/descend stairs and curbs. It is hypothesized that with WalkAide use, the improved ankle control achieved, will affect the speed, symmetry, and independence of completing the task.
Influence of Surface Characteristics of Gait Training on Gait Kinematics and Walking Capacity in...
Diplegic Cerebral PalsyUsing challenging surfaces of gait training, which require constant adjustments of the body's movement patterns to maintain stability and provide different sensory and proprioceptive inputs to mimic real life situation is appropriate for children with CP. So, the purpose of the current study is to investigate the influence of surface characteristics of gait training on gait kinematics and walking capacity in children with diplegic CP.