Active clinical trials for "Cerebral Palsy"

In recent years, it is seen that dynamic compression garments are used to increase body stability and to provide tone regulation. Dynamic compression garments are used to apply pressure to specific muscles or muscle groups. Different studies have drawn attention to the effect of dynamic compression garments on postural control and proximal stability. Researchers observed that upper extremity functions and fine motor skills improved with the use of clothing, and they associated this with improved proximal stability. In light of this information, the aim of this study is; To investigate the effects of dynamic compression garments applied in addition to traditional treatment on posture, trunk control, and upper extremity functions during sitting in children with hemiparetic CP.

the current study will address the spasticity in calf muscle secondary to cerebral palsy in children. As the spasticity can inversely affect muscle contraction, joint function, and consequently the function and quality of life, the current study will investigate the effect of adding photobiostimulation therapy to standard physiotherapy on muscle tone, ankle range of motion, gross motor function, plantar surface of the affected foot, and quality of life in patients with spastic cerebral palsy

Cerebral Palsy (CP) is the first cause of motor disability in children worldwide. ATLAS 2030 is a robotic gait exoskeleton designed to rehabilitate children with motor disability. The objective of this study is to analyse the efficacy of a training program with ATLAS 2023 in chilren with CP.

It is the clinical experience of the authors that some children with cerebral palsy who walk in crouch gait show sufficient knee extension during the clinical gait analysis, but walk in considerable knee flexion when they leave the gait laboratory. Possible differences between walking in a gait lab and walking in daily life may be caused by the effect of observational awareness in the lab (also known as the Hawthorne effect), and the lack of dual-tasks (DT) during the analysis (which are common during daily life walking). Since so far there is no technique to reliably measure gait kinematics in children with CP outside of the laboratory, the researchers aim to objectify the influence of both the Hawthorne effect and dual-tasks by introducing different conditions during a standard clinical 3D gait analysis.

Robot-assisted gait training (RAGT) can provide a longer training duration with a higher repetition of stepping while maintaining a stable pattern of movement. However, the existing evidence of its effectiveness is not clear. The aim of this study is to investigate the feasibility and the effect of increased frequency (4 times per week) of RAGT compared to the most common frequency (2 times per week). we hypothesize that increased frequency of RAGT will result in greater improvements on the gait functions. This research will investigate the effect of increased frequency on robotic assisted gait training (RAGT) in a frequency of 4 times per a week, and will compare the effect of robotic assisted gait training (RAGT) with increased frequency and with usual frequency (2 times per a week) in regards with gait functional parameters such as balance, speed, endurance, and quality of gait among cerebral palsy (CP) children's.

The aim of the research is to increase the active participation of children with Cerebral Palsy (CP) in therapy by integrating technological approaches into rehabilitation; To examine the effects of Nintendo Wii virtual reality games or hippotherapy simulator use on postural control, activity and participation in addition to Neurodevelopmental Therapy (NGT), which is frequently used in rehabilitation programs in CP, and to contribute to the relevant literature. H1/H1-0: In the rehabilitation of children with Cerebral Palsy, Nintendo Wii virtual reality games in addition to NGT has or has no effect on postural control, lower extremity selective motor control, spasticity, activity and participation levels. H2/H2-0: In the rehabilitation of children with Cerebral Palsy, Hippotherapy simulator in addition to NGT has or has no effect on postural control, lower extremity selective motor control, spasticity, activity and participation levels.

Caregiver Burden (CB) is expressed as a multidimensional response related to caregiving, including physical, psychological, emotional, social, and economic problems and has been identified as a public health concern. All these factors negatively affect caregiver health and indirectly affect the care of the disabled child .To provide better support for parents of children with CP, we must understand the difficulties faced those parents and identify the key and common areas where assistance can be rendered.

Background: - Two ways to study the brain while people are moving are near-infrared spectroscopy (NIRS) and electroencephalography (EEG). NIRS uses light to look at blood flow in the brain when it is active. EEG records electrical activity in the brain. Both have been used safely for many years, even in very young children. NIRS or EEG can be used while a person is moving to show which parts of the brain are the most active. Researchers want to use NIRS and EEG to study brain activity during movement in people with cerebral palsy and healthy volunteers. Learning more about how people with and without cerebral palsy use their brain to control their muscles may lead to new ways of training people with cerebral palsy to move better. Objectives: - To study how the brain controls body movement in people with and without cerebral palsy. Eligibility: Individuals at least 5 years of age who have cerebral palsy. Healthy volunteers at least 5 years of age. Design: This study has three parts. People with cerebral palsy will be selected for all three. Healthy volunteers will be asked to do only two of them. Everyone who participates will have NIRS and/or EEG exams during movement. People with cerebral palsy may also have biofeedback sessions to train coordination of movement and brain activity. Participants will be screened with a physical exam and medical history. Urine samples may be collected. All participants will have at least one session of NIRS and/or EEG imaging studies. Sessions may also include the following tests: Magnetic resonance imaging to look at the brain Electromyography to measure electrical activity of the muscles Motion analysis of specific body parts Ultrasound to measure activity of the muscles Motorized, robotic, and electrical stimulation of the muscles Other clinical tests of muscle movement as needed. Participants with cerebral palsy will have biofeedback sessions. These sessions will help them learn to coordinate muscle movement and brain activity.

Cerebral palsy and other neuromotor disorders are more common in babies born preterm (<37 weeks of gestation), due to various biological and environmental risk factors and the risk increases as the gestational age decreases. Earlier and more frequent screening with the use of developmental skills tests facilitates referral to early intervention programs. Current guidelines recommend using some combination of neuroimaging and neurological examination and assessments such as neonatal imaging, general movements (GMs), and Hammersmith Infant Neurological Examination (HINE) for early diagnosis and intervention.

Cerebral palsy (CP) is a motor impairment due to a brain malformation or a brain lesion before the age of two. Spasticity, hypertonus in flexor muscles, dyscoordination and an impaired sensorimotor control are cardinal symptoms. The brain lesion is non-progressive, but the flexor muscles of the limbs will during adolescence become relatively shorter and shorter (contracted), forcing the joints into a progressively flexed position. This will worsen the positions of already paretic and malfunctioning arms and legs. Due to bending forces across the joints, bony malformations will occur, worsening the function even further. Since about 25 years a combination treatment with intramuscular botulinum toxin injections, braces and training has had a tremendous and increasing popularity, although lasting long-term clinical advantage is not yet proven. Muscle morphology of the biceps brachii and the gastrocnemius muscles: The hypothesis is that care as usual, i.e. training and splinting sessions with botulinum toxin as adjuvant treatment, will reduce (normalize) the expression of the fast fatigable myosin heavy chain MyHC IIx and increase the expression of developmental myosin, as a possible sign of growth. As the biceps in the arm is used irregularly and voluntarily, and the gastrocnemius is activated during automated gait, the adaptations of those muscles will be different. Methods: Baseline muscle biopsies: Percutaneous biopsies are taken just before the first intramuscular botulinum toxin injection is given. The doses and the intervals for the botulinum toxin treatment will follow clinical routines. Biopsies 4-6 months, 12 months and 24 months after the first botulinum toxin injection: The exact same procedure as above will be performed, but the biopsies will be taken 2 cm distant, medial or lateral, from previous biopsy sites Significance:. More knowledge is warranted regarding the actual molecular process in the muscle leading to a contracture, and its relation to the constant communication with the injured central nervous system. This study will give answers that could result in new, early prophylactic treatment of joint movement restrictions and motor impairment in children with CP.