View clinical trials related to Spastic Cerebral Palsy.
Filter by:Cerebral Palsy (CP) is a motor disorder caused by damage to the brain that affects posture, movement, and muscle control. It can lead to difficulties with trunk control, gait, and posture, which can impact daily activities and quality of life. Core stability exercises have been shown to improve trunk control, gait, and posture in children with CP by improving muscle activation patterns and enhancing postural stability. Kinesio-taping, on the other hand, is a therapeutic technique that involves the application of a stretchy tape to the skin to provide support, stability, and pain relief to the muscles and joints. It has been proposed that kinesio-taping may enhance the effects of exercises by providing additional support and proprioceptive feedback. This will be randomized controlled trial study. Sampling technique will be non-probability convenience sampling. Computer randomization will be used to locate subjects in two groups. After that informed consent will be taken and patients will be included in the study based on the inclusion criteria. Study will be conducted in 22 CP children age 7-12 years, ability to stand and walk, ability to follow instructions and assess by assessment tools as GMFCS level II, GARS, TIS and PAS pre and post intervention. Study groups will be divided into 2 groups, Group A (study Group) and group B (control group) Group A: Experimental group; combination of core stability exercises and kinesio-taping Group B: control group; only core stability exercises. Data will be analyzed by using SPSS-25. Appropriate statistical test will be used after checking normality of data.
Cerebral palsy (CP) is a non-progressive neurological disorder characterized by a persistent decline in sensory, cognitive or especially gross and fine motor functions during infancy or early childhood. In children with spastic CP, spasticity, muscle weakness, delay in motor development, inadequacy of gross and fine motor skills, selective motor control and functional capacity may be affected. Selective motor control (SMC) is the ability to isolate a muscle or muscle group to perform a specific movement. In children with CP, spasticity directly causes impairment of SMC, as movement patterns governed by flexor or extensor synergies are affected, which inhibits functional movements. Motor dysfunction in CP causes activity limitations and can negatively affect functional capacity. In addition, falls may increase in individuals with CP due to poor balance control, resulting in pain, injury and disability, and may cause individuals to lose confidence in their ability to perform routine activities. Increased fear of falling in individuals with CP may also lead to restriction of activities.It was discussed that the interactive computer game has possible evidence of efficacy allowing to improve gross motor function in individuals with CP. It also appears to have the potential to produce gross motor improvements in terms of strength, balance, coordination and gait for individuals with CP.As a result of our literature review, studies investigating the effect of virtual reality games on gait, balance and coordination in children with CP were observed. However, the effect of virtual reality games on selective motor control has not been sufficiently investigated. The aim of our study, which is planned to eliminate this deficiency in the literature, is to investigate the effect of video game-based exercise training, which provides higher motivation than conventional physical therapy methods, on selective motor control, fear of falling and functional capacity in individuals with CP.
A scientific study is being done to test a special treatment for people who have spasticity or tight muscles. This treatment is called "stereotactic radiosurgery dorsal rhizotomy." It uses very accurate beams of radiation to target certain nerves in the back to help loosen up the muscles. In this study, people are put into two groups by chance: one group gets the real treatment, and the other group gets a "fake" treatment that doesn't do anything. This fake treatment is called a "sham." Doing this helps make sure the study is fair and the results are true. After the people in the study get their treatment, the researchers will watch and see how they do. They will check if their muscles are less stiff and if they have any side effects. By looking at the results from both groups, the researchers can find out if the special treatment really helps people with spasticity. Patients who got the "fake" treatment will be eligible to receive the "real" treatment after 6 months.
The purpose of this study is to investigate the feasibility of a 10-week plan with a nutritional supplement (leucine) and to perform pilot analyses on the effect of leucine on macroscopic muscle morphology in children with cerebral palsy.
This study aims to describe the comparative effects of dynamic surface training and trunk targeted training in order to ensure which method is best in improving gross motor function , balance and trunk control in children with spastic cerebral palsy . this will be randomized control study which includes participants with age 5 to 10 years
12 adults with spastic CP will complete 6 baseline sessions and 24 down conditioning sessions held 3 times/week. All clinical and physiological assessments collected at baseline will be reassessed after study completion, and follow ups after 2 weeks, 1 month and 3 months. The soleus H reflex (electric analogue of the stretch reflex) will be elicited in all sessions. In each session, participants will complete 20 baseline trials and 225 down conditioning trials to decrease the magnitude of the H-Reflex.
A mixed longitudinal design study will be carried out to explore the onset and time course of morphological muscle changes on a macroscopic level in children with spastic cerebral palsy (SCP). Therefore, this project aims to (1) describe the macroscopic morphological muscle changes with increasing age and (2) evaluate the onset and development of muscle alterations in relation to the brain lesion (e.g., timing, extent and location), to the neuromuscular impairments and to treatment. Overall, this project will evaluate the macroscopic muscle properties by means of 3D freehand ultrasound (3DfUS).
Cerebral palsy is a neurological disorder with abnormalities in muscle tone, movement disorders and motor incapability. It attributes to harm to the growing brain. Cerebral approach including brain and its palsy referred to weakness and problems while using the muscles. It is characterized by way of the incapability to normally control motor features, and it has. the capacity to have an impact on the general improvement of a child with the aid of affecting the child's capability to explore, talk, learn, and grow to be independent. Spastic CP is the most common type among children and debts for almost 77% among all instances. It is the major problem in CP child making movement difficult or even impossible.
Until now, for children with cerebral palsy (CP) , diagnostic and some prognostic predictive machine learning studies have been conducted, but prognostic studies targeted specific milestone according to specific gross motor function measure (GMFCS) levels; such as walking and running predictors at GMFCS II and III and GMFCS II respectively, and not covered specific types of cerebral palsy. Predictions studies were limited by the lack of specificity of child and family characteristics was not taken into the account prospectively. It is therefore the utmost need to support clinical decision making by predicting the recovery in spastic cerebral palsy. Recovery predictive factors can play an important role for this purpose. Thus, this study aims to predict the recovery in spastic cerebral palsy according to all GMFCS level by means of a prediction index/model.
This study will investigate the effect of a 6-week stretching intervention, consisting of a combination of a 2-week casting period and a home-based stretching program of the plantar flexors and hamstrings, on muscle and tendon lengths, range of motion, stiffness, and functional muscle strength. The study will include patients with spastic cerebral palsy aged between 4 and 11 years old with a Gross Motor Function Classification Score (GMFCS) level between I and III.