View clinical trials related to Cerebral Palsy.
Filter by:This randomized controlled trial will compare proximal femoral resection-interposition arthroplasty to proximal femoral resection with subtrochanteric valgus osteotomy for the treatment of painful irreducible hip dislocation in patients with cerebral palsy. The primary outcome is quality of life and care giver burden measured by The Caregiver Priorities and Child Health Index of Life with Disabilities (CPCHILD) score at one year. Secondary outcomes will include pain (NCCPC-R, PROMIS pain intensity and PROMIS pain interference), function (mobility questions), complications and surgical parameters such as OR time and fluoroscopy time. A cost-effectiveness analysis will follow completion of the randomized controlled trial (RCT). The authors hypothesize that mean CPCHILD scores (measured at 1 year) will be significantly higher following the Subtrochanteric Valgus Osteotomy technique compared to Proximal Femoral Resection-Interposition Arthroplasty technique. Furthermore, the Proximal Femoral Resection-Interposition Arthroplasty technique will have a shorter length of hospital stay, shorter fluoroscopy and OR times and the Subtrochanteric Valgus Osteotomy will have longer sitting tolerance, less pain, smaller burden for caregivers, better health, and higher quality of life. Additionally the authors hypothesize that Subtrochanteric Valgus Osteotomy will be more expensive than Proximal Femoral Resection-Interposition Arthroplasty, due to the cost of the plate, longer operative time, longer length of stay, and blood loss, but Subtrochanteric Valgus Osteotomy will be preferred by patients due to less pain and better functional and quality of life outcomes.The results of this study are expected to improve outcomes for children with cerebral palsy with painful irreducible dislocated hips.
The purpose of this study was to study the effect of autologous bone marrow mononuclear cells on common symptoms of cerebral palsy patients.
the purpose of this study was to study the effect of stem cell therapy on common symptoms of cerebral palsy patients.
Movement disorders such as dystonia, hypertonia, and spasticity interfere with or prevent voluntary movement. Studies have suggested that using biofeedback to increase awareness of muscle activation can improve motor function in patients with motor deficits. The investigators hypothesize that the daily use of a surface electromyographic (SEMG) biofeedback device for one month will improve motor function in children and young adults with dystonia, hypertonia, and/or spasticity. The SEMG biofeedback device is worn over the muscle(s) the subject has difficulty in controlling and provides vibratory feedback about muscle activation. Groups of children and young adults (ages 3-21), with dystonia, hypertonia, and/or spasticity will be asked to wear a small (approx 1 square inch) sensory feedback device on their affected muscle(s) for 5 hours a day for one month. The device will vibrate and emit a blue light when the muscle is activated. At the start of the experiment, subjects will be tested on the Goal Attainment Scale (GAS), the Pediatric/Adolescent Outcomes Data Collections Instruments (PODCI), and the Barry Albright Dystonia Scale (BAD). For one month, subjects will practice goals without device. After a month, subject will be assessed again and be given device to practice goals for a month. After one month, the subjects will be tested on the outcome measures again and return device.
This is randomized placebo-controlled trial to recognize new cell regeneration in the brain using FLT-PET.
Despite the use of proton pump inhibitors and available prokinetics, medical therapy is ineffective in an important number of children with cerbreal palsy (CP) and gastroesophageal reflux disease (GERD), and failure of medical therapy is associated with a substantial morbidity. Many patients, particularly children with CP and GERD, continue to experience complications despite aggressive therapy because antisecretory medications do not address the primary reflux mechanism (TLESR). Furthermore, in patients with CP, surgical options are fraught with serious complications and long-term morbidity. Because the available treatment options for children with CP and intractable GERD are limited, new therapies are urgently needed. Baclofen, which has been shown in animals and humans to decrease TLESRs, may be a good alternative for the treatment of children with CP with intractable GERD.
The purpose of this study is to test the safety and effectiveness of a cord blood infusion in children who have motor disability due to cerebral palsy (CP). The subjects will be children whose parents have saved their infant's cord blood, who have non-progressive motor disability, and whose parents intend to have a cord blood infusion.
The specific aims for this study are - 1. To determine the effect of GH on height, height velocity, body weight and lean body mass. This specific aim tests the hypothesis that GH significantly improves height, height velocity, weight, weight velocity and lean body mass in chronically ill children who have grown poorly despite adequate nutritional rehabilitation. 2. To determine the effect of GH on whole body protein turnover (WBPT), IGF-1 levels and on cytokines. This specific aim tests the hypothesis that chronically ill children have increased catabolism, caused by high levels of circulating cytokines and low levels of IGF-1, and that these abnormalities improve with GH treatment. 3. Evaluation of bone mineral density and bone turnover. This specific aim tests the hypothesis that bone density is low in chronically ill children secondary to increased osteoclast activity correlating with elevated cytokine levels. We hypothesize that the anabolic effects of growth hormone (GH) will improve the height and weight of chronically ill children who have failed to grow despite receiving adequate nutrition via gastrostomy tube or oral supplementation.