Active clinical trials for "Cerebral Palsy"

the objective of this study to asses the effect of touch screen tablet on fine motor functions

Virtual reality (VR), is one of the most popular approaches to Cerebral Palsy (CP) rehabilitation and has been used in rehabilitation field for 30 years. VR is provided via a computer or a game console, and players interact with real-like objects . Using a VR interface as a rehabilitation tool increases the fun received by the client which, in turn, increases the participation of the client to the rehabilitation sessions. This is a study that focused on long-term effects of Virtual reality (VR) intervention on motor skills and activities of daily living (ADL) independence of children with CP.

Dysphagia is common problem in almost all children with cerebral palsy (CP) and there is no consensus about to dysphagia therapy modalities.We aimed to investigate the short- and long-term effects of kinesio taping (KT) on dysphagia in children with CP.

This study endeavored to assess the effect of an isokinetic strength training (IsoK-ST) program on weight-bearing symmetry, gait-symmetry, and dynamic balance in children with hemiparetic cerebral palsy (HCP). Thirty-six children with HCP were randomly allocated to the IsoK-ST group (n = 18, received their usual physical rehabilitation program plus an IsoK-ST program) or the Control group (n =18, received usual physical rehabilitation alone). Both groups were assessed for weight-bearing symmetry, gait-symmetry, and dynamic balance before and after treatment.

A double-blinded randomized controlled crossover trial will be conducted, and all participants will undertake non-immersive VR tasks and tDCS-active or tDCS-sham. Group 1 will start with ten sessions of tDSC-active combined to VR tasks. After one-month washout, this group will be reallocated to another 10 sessions with tDCS-sham combined to VR tasks. In contrast, Group 2 will do the opposite protocol (participants will start allocated to ten sessions of TDCS-sham and VR tasks, and after one-month washout period will be reallocated to ten sessions of tDCS-active and VR tasks). All protocol will have the assessment of Autonomic Nervous System, through Heart Rate Variability Analysis.

High risk infant is defined as infant with a negative history of environmental and biological factors, which can lead to neuromotor development problems. It is a heterogeneous group of premature infants born under thirty-seven weeks of age, with infants with low birth weight, term or developmental retardation for various reasons. Therefore, preterm infants with low birth weight can survive with a neurological sequelae such as cerebral palsy (CP), epilepsy, hearing and vision loss, mental retardation, speech and speech problems, and learning difficulties. The clinical diagnosis of CP, which can be observed in high-risk infants, is based on the combination of some neurological and clinical signs. High-risk of infant follow-up programs provide guidance for the treatment of neurodevelopmental delays and deterioration in terms of early development. Three methods with the best predictable validity that can determine CP before the adjusted age of 5-month is Magnetic Resonance Imaging (MRI), Prechtl's Assessment of General Movements (GMs), Hammersmith Infant Neurological Evaluation. In recent years, the diagnosis of high-risk of CP can be detected at 3 months with predictive validity and reliability by evaluating the quality of GMs. GMs are now considered the gold standard for early detection of CP because of its high sensitivity and specificity than MRI, cranial US and neurological evaluations. It was also found that cognitive or language skills may be inadequate in school age in patients with inadequate movement character and in the same postural patterns according to age, although GMs are normal. So new clinical care guidelines and new intervention research for infants with CP under the age of 2, needed to have been shown. High-risk infants who are thought to have developmental disorders need early intervention, but it is not yet known which interventions are more effective. In the literature, although interventions are generally shown to have a greater impact on cognitive development, their contribution to motor development cannot be fully demonstrated. The effectiveness of physiotherapy programs in the diagnosis and treatment of CP has not been clarified in the past years as a silent period. Therefore, studies involving early physiotherapy programs are needed in infants at high risk for CP.

This study was conducted to evaluate the effectiveness of masticatory muscles electrical stimulation on oromotor skills, feeding level progress and child growth in children with dyaphagia. Forty children diagnosed as spastic cerebral palsy, from both genders, age ranging from 2 to 5 years were enrolled in the current study. They were randomly allocated in to study group (A) received oromotor exercises and neuromuscular electrical stimulation on masseter and digastric muscles and control group (B) received same exercises but placebo electrical stimulation. The result showed significant improvement in all variables in both groups. However, the study group showed significant different in feeding level in compare with control group.

The main purpose with this study is to investigate the effectiveness of a garment with integrated electrodes for multifocal transcutaneous electrical stimulation intended for treatment of spasticity in children with cerebral palsy.

Pain management in pediatric patients presents a difficult challenge. Unlike adults, pediatric patients often cannot communicate their pain management needs clearly. Adequate pain control after surgery is pivotal for these patients in order to prevent negative physiologic and psychologic complications and to improve surgical outcomes. There is an ongoing shift away from the use of opioids in the post-operative setting due to both their negative side effects and their high potential for dependence and abuse. A variety of new techniques of multimodal pain management have been developed and utilized in elective orthopaedic procedures. Injection of local anesthetics is becoming a widely popular technique utilized in adult arthroplasty. This technique blocks pain directly at the site of injection, and therefore can improve post-operative pain while minimizing side effects. Evidence has demonstrated this technique to be both safe and effective, resulting in reduced opioid consumption post-operatively. However, this technique has not been studied for use in pediatric patients, a population in which reduced narcotic use is equally, if not more important than in adult patients. This study is a prospective, randomized controlled trial with 2 parallel arms. The goal of this study is to assess the efficacy of a surgical-site pain injection administered in pediatric patients with cerebral palsy undergoing major hip surgery. Patients who are scheduled to undergo surgery will be randomized to either intervention (injection of a pain cocktail) or placebo (injection of normal saline). The pain cocktail includes three medications: ropivacaine (a local anesthetic), ketorolac (an anti-inflammatory medication), and epinephrine (a medication to constrict blood vessels and increase the duration of action of any co-administered medications). A surgeon who is blinded to treatment group will administer the injection at the end of the procedure, prior to the patient waking from anesthesia. The injection is in addition to our typical multi-modal pain control protocol, which includes epidural anesthesia, acetaminophen, anti-inflammatories, oral narcotics and anti-spasmodic agents. Patients will then be monitored post-operatively and pain medication consumption (both while in the hospital post-operatively and for the first two weeks following discharge), patient-reported and/or nurse-recorded pain scores, length of hospital stay, and adverse effects will be recorded. At the first post-operative visit, patients' parents will be asked to complete a survey designed to assess parent satisfaction with their child's pain management after surgery. Patients, parents, and surgeons will be blinded to treatment group allocation. Data will be collected while the patient is in the hospital, after surgery (average duration 3-4 days), and at the first post-operative visit two to three weeks after surgery.

The overall goal of this research is to understand the mechanisms underlying the development of postural control in sitting using new methodology, in order to provide a scientific basis for evaluation and treatment of posture and movement disorders in infants with cerebral palsy. The development of early posture control remains poorly understood despite considerable therapeutic effort. Infants with cerebral palsy show their first delays in the acquisition of sitting, with subsequent problems developing adequate posture and movement control. Identifying the delay, determining the nature of the problem, and evaluating the effectiveness of treatment quickly, are vital in the early part of an infant's life, since this is the time of greatest plasticity. Tools from nonlinear dynamics, which are increasingly being used to examine other biological rhythms, are used in this study to analyze postural sway from center of pressure data during the development of sitting postural control.