View clinical trials related to Cerebral Palsy.
Filter by:The purpose of the study is to determine the effect of spring gravity bar on gait pattern in children with spastic diplegia
Cerebral palsy (CP) refers to a group of movement and posture disorders responsible for activity limitation due to brain damage that occurs during fetal development or during the first year of a child's life. Given the multitude of treatment options available, the choice of treatment is a key determinant that greatly influences the potential for improvement in motor function. This choice is based in particular on a diagnosis resulting from the comparison of a Clinical Gait Analysis (CGA) and a clinical examination, carried out by a practitioner, aimed at evaluating as accurately as possible the deficiencies present in children with CP. During the latter examination, passive inter-segmental stiffness and spasticity, both limiting factors in the mobility of the child with CP, are assessed. However, there are significant uncertainties in these measurements, which depend, among other things, on the examiner's feelings. The enrichment of this clinical assessment therefore requires the introduction of quantitative and objective measures. Portable dynamometers are increasingly used to measure the resistance of a joint during passive solicitations. Thus, both passive inter-segmental stiffness and spasticity can be characterized using instrumental methods. However, in the majority of studies proposed in the literature, the biomechanical computational model used is not unified with that of the CGA, thus altering the approximation of the parameters measured on the table with those estimated during gait. However, in order to evaluate the extent to which these phenomena occur during gait, it is important to follow the same biomechanical calculation procedure. Thus, our team proposes a new dynamometric measurement protocol for passive inter-segmental stiffness and spasticity adapted to the PC child. Nevertheless, in order to guarantee the reliability of the measurements, manual dynamometric solicitation methods must follow standardized protocols, and their psychometric properties must be defined before they can be used in clinical practice. This is why we wish to study the reliability of this new solution for dynamometric quantification of passive inter-segmental stiffness and spasticity in children with CP.
This study was performed to evaluate posture, sleep, physical activity and quality of life in individuals with chronic constipation Cerebral Palsy.
The objective of this project is to characterize the evolution of locomotor learning over the first 18 months of life in infants at high risk for cerebral palsy (CP). To characterize how locomotor skill is learned (or not learned) during this critical period, the investigators will combine established protocols using robust, unbiased robotic and sensor technology to longitudinally study infant movement across three consecutive stages during the development of impaired human motor control - early spontaneous movement, prone locomotion (crawling), and upright locomotion (walking).
Comparing the efficacy of Intracthecal Baclofen dose between the Prometra II and Medtronic SynchroMed II for patients with spasticity and with current a current SyncroMed II pump needing replacement.
This research project aims to investigate the feasibility, efficacy, and acceptability of camp-based model of BIT.
The overall objectives of this work is to establish feasibility of a robotic ankle assist device (RAAD) to improve mobility in free-living settings and to establish the RAAD as an effective tool to provide increased dose and precision of targeted ankle therapy. The first specific aim is to complete a personal-use feasibility analysis of ankle mobility assistance. It is hypothesized the children will be able to safely walk faster and travel farther in the community when using the RAAD device vs. without the device. The second specific aim is to gather feedback to design and prototype a minimum viable product for use in clinical and community settings. The third specific aim is to quantify the potential for the RAAD system to increase the effectiveness of clinical gait therapy. Individuals with CP will complete three training sessions: RAAD assistance, RAAD resistance and standard of care. Muscle activity and step activity will be measured during each session. It is hypothesized that the RAAD assistance and resistance therapy will improve ankle plantar-flexor muscle activity and treatment session quality compared to traditional physical therapist-guided gait training. The fourth specific aim is to assess the benefits of repeated gait training with RAAD assistance and resistance. Individuals with CP will participate in a 4-week assistance or resistance intervention and mobility outcomes will be quantified pre and post intervention. It is hypothesized that both assistance and resistance training will improve mobility outcomes.
The purpose of the study is to evaluate whether non-invasive stimulation over the spinal cord at the neck and/or lower back can improve walking function for people with neurologic conditions. Spinal stimulation has been used extensively for individuals with spinal cord injury, and has demonstrated improvements in function. This study will extend this work to other neurologic conditions, such as cerebral palsy and stroke, that also demonstrate similar impairments as spinal cord injury. The primary aims of this study are to: Aim 1: Evaluate impact of spinal stimulation on spasticity and locomotor function. Aim 2: Investigate participant perceptions of spinal stimulation. The investigators will be using a cross-over design study to compare intensive training only to intensive training combined with spinal stimulation. After an initial baseline period of up to 4 weeks (Phase I). Participants will have their first intervention phase of the study (Phase II). This will involve either intensive training only (Condition A) or intensive training combined with spinal stimulation (Condition B). This will be followed by a washout period with no intervention (Phase III) and then the second intervention phase (Phase IV). The second intervention phase will involve either Condition A or Condition B, whichever the participants did not received during Phase II. Phases II-IV will each last up to 8 weeks. After the intervention period is complete, the participant will be asked to come for follow-up visits up to 3 months after the intervention phases are completed (Phase V).
The purpose of this study is to explain the provision of palliative care at the end of life by the implementation of the ELNEC course, as WBT Program using the Normalization Process Theory, that focus attention on how complex interventions become routinely embedded in practice. In addition to, identify the changes implemented by the participant nurses (intervention group) in their clinical practice, after participating in WBT Program to provide Palliative Care alongside with usual care versus usual care only (control group) for children with life-limiting conditions or in the case of accidents/sudden death, at the end of life. And finally, provide findings that will assist in the interpretation of the trial results.
There is strong evidence that recent intensive interventions based on motor skill learning principles are efficient on functional and neuroplastic changes of children with cerebral palsy (CP). Besides, impaired selective voluntary motor control (SVMC) is one of four interrelated neuromuscular deficits in children with CP and is listed in the ICF-CY (International Classification of Functioning, Disability and Health for Children and Youth) under body functions. Additionally, impaired SVMC has been shown to negatively affect the motor and functional abilities of children with CP. However, there have been little scientific investigations on the trainability of SVMC according to therapeutic interventions. Therefore, the study aims to evaluate the effect of Hand and Arm Bimanual Intensive Therapy Including Lower Extremities (HABIT-ILE) on the body function and structures of children with bilateral and unilateral cerebral palsy, including SVMC and brain structure.