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Active clinical trials for "Cerebral Palsy"

Results 811-820 of 1252

The Effect of Exercise Training on Musculoskeletal Health in Individuals With Cerebral Palsy

Cerebral Palsy

Cerebral palsy (CP) is a neurodevelopmental disorder and is the most common childhood disability. CP is characterized by abnormal development, impaired motor function, and muscular and skeletal abnormalities. Due to their diminished musculoskeletal function, individuals with CP suffer a high rate of moderate to severe bone fractures, which can lead to further immobility. Optimizing muscle and bone health with exercise may be important in minimizing fractures from limited mobility, and fundamental for maximizing health-related quality of life. The main purpose of this research is to investigate the effect of exercise training on musculoskeletal system in individuals with CP, with the goal of reducing the incidence of falls and fractures. To accomplish these aims, musculoskeletal health will be assessed using various physiological techniques (e.g., Dual energy X-ray Absorptiometry, Humac Norm Isokinematic System, Biodex Balance System) before, during, and after one year of exercise training in individuals with CP. In addition, various functional mobility tests to quantify fitness levels will be performed. Findings may lead to the development of novel therapeutic interventions targeted at improving musculoskeletal health in individuals with CP.

Completed2 enrollment criteria

Pacifier Activated Device and Mother's Voice in Infants at High-risk for Cerebral Palsy

Infant DevelopmentInfant,Premature6 more

The study seeks to determine the efficacy of non-nutritive suck (NNS) training using a pacifier-activated device (PAM) with mothers' voice to condition suck-strength and rhythmicity, in improving the feeding and developmental outcomes of infants at high-risk for CP.

Completed8 enrollment criteria

Enhancing Sensorimotor Processing in Children With Dystonia

DystoniaDystonic Cerebral Palsy5 more

Dystonia is a severely disabling movement disorder with no cure, in which people suffer painful muscle spasms causing twisting movements and abnormal postures. There are many causes, including genetic conditions and brain injury. The most common cause in childhood is dystonic cerebral palsy (CP) which often affects the whole body. The underlying mechanisms are unknown, but there is growing evidence to implicate abnormal brain processing by the brain of incoming "sensory" information (e.g., signals to the brain from our senses of touch and body position): the distorted perception of these signals disrupts the way the brain produces instructions for planning and performing movements. The investigator's previous studies have shown that the way the brain processes sensory information related to movement is abnormal in children with dystonia and dystonic CP, by using methods that record the EEG (electroencephalogram - brain wave signals) and/or EMG (electromyogram - electrical signal from muscles). A specific brain rhythm (called mu) typically shows well-defined changes in response to movement, and reflects processing of sensory information. The investigator's work shows these rhythm changes are abnormal in children with dystonia/dystonic CP. This study will explore if these findings can improve treatment. In particular the study team will investigate whether children and young people with dystonia/dystonic CP can enhance these mu rhythm responses during a movement task by using feedback of their brain rhythms displayed as a cartoon/game on a computer. The investigators will also assess whether enhanced mu activity is associated with improved movement control. This would open future possibilities to use such devices for therapy/rehabilitation. Children and young people with dystonia/dystonic CP aged 5-25 years will be recruited, along with age-matched controls. Studies will last 2-3 hours with time for breaks and will be conducted at Evelina London Children's Hospital and Barts Health Trust, with the option for home visits if preferable for families.

Not yet recruiting32 enrollment criteria

Orthosis to Improve Trunk Control in Infants Age 6-18 Months

Cerebral Palsy

The purpose of this study is to determine the impact of the SPIO® Core-MAX® Expedition orthosis on an infant's head, trunk and upper limb function.

Not yet recruiting8 enrollment criteria

The Relationship of Forward and Backward Walking With Selective Motor Control, Trunk Control and...

Cerebral PalsyBalance1 more

Cerebral palsy (CP) is defined as a disorder of the developing brain that causes movement disorders and may be associated with other neurologically based disorders. Gait abnormalities are a direct result of damage to the motor areas of the brain and include symptoms such as spasticity, dystonia, weakness, loss of selective muscle control, dependence on primitive reflexes, abnormal muscle and inadequate balance reactions. Walking backwards during activities of daily living is as important as walking forward. Some of these activities are stepping back towards the chair, stepping back when opening the door and pulling the door, reflexively leaning back when suddenly encountering an obstacle or uneven ground. In addition, backward walking is defined as a more complex activity that requires more neuromuscular control, proprioception sense, and protective reflex activation than forward walking. Selective motor control is an essential part of typical human movement, allowing for smooth and discrete control of joint movement. Impaired selective motor control causes abnormal reciprocal muscle activations or involuntary combined movements, leading to difficulties with coordination, balance, walking efficiency, and symmetry. Impaired selective motor control is associated with poor gross motor function and balance control, severe general gait deviations, and decreased walking speed. The aim of this study is to examine the relationship between forward and backward walking and selective motor control, trunk control and balance in children with cerebral palsy.

Not yet recruiting9 enrollment criteria

Chronic Postsurgical Pain

Cerebral PalsyChronic Post Surgical Pain

The study purpose is to document the typical trajectory of perioperative pain experience in Cerebral Palsy (CP) and to identify important predictive factors for the development of chronic postsurgical pain. The main aims of the investigators are to: Quantify the trajectory of pain and opioid use in the context of orthopedic surgery in children with CP. Identify predictors for CPSP in children with CP and develop an applicable risk index. Examine relationships between perioperative pain severity and functional/mobility outcomes achieved by orthopedic surgery in children with CP. Participants will complete: Questionnaires/Surveys via email and text message In-person Sensory Tests In-person Gait and Motion Analysis

Not yet recruiting3 enrollment criteria

FLT-PET Activity Change After Allogeneic Umbilical Cord Blood (UCB) Therapy in Cerebral Palsy

Cerebral Palsy

This is randomized placebo-controlled trial to recognize new cell regeneration in the brain using FLT-PET.

Withdrawn9 enrollment criteria

Study of Sagittal Pelvic Statics in the Sitting Position in Children With Cerebral Palsy

Cerebral Palsy Infantile

Cerebral palsy is the leading cause of motor disability in children. Children with little or no walking (GMFCS III, IV and V) represent 43% of children with cerebral palsy, the majority of whom present pelvic and spinal deformities in the frontal and sagittal planes. However, sagittal pelvic spinal statics have been little studied, especially in the sitting position, which is the functional position of these children. Moreover, there are currently no recommendations on how to perform follow-up radiographs of the spine in children who do not walk much. A better understanding of pelvic and sagittal spinal statics would help prevent deformities and their complications. Standardizing the method of performing pelvic-spinal radiographs in the sitting position will make monitoring of spinal statics more reliable.

Not yet recruiting10 enrollment criteria

Kinect Sensor in Cerebral Palsy Children: Phase 2.1

Cerebral Palsy ChildrenUpper Extremity Problem

There are 3 phases of the study. This registration is phase 2.1.This registration will conduct a pilot study in the cerebral palsy children.

Withdrawn14 enrollment criteria

The Exopulse Mollii Suit Study - a Database for Routine Follow-up of Clinical Outcomes

Cerebral PalsyMultiple Sclerosis3 more

The objective is to explore the potential short and long-term impact of the Exopulse Mollii Suit on subjects with CP, MS, stroke, SCI or other neurological disorders which may cause such types of symptoms, and to identify high responders among the sub-categories of the diagnoses. The primary endpoint will be improvement on the Berg/Pediatric Balance Scale (BBS) as a measurement of balance and risk of falls.

Not yet recruiting10 enrollment criteria
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