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A study to use transcutaneous spinal cord stimulation to characterize sensorimotor deficits in a pediatric population of individuals with spina bifida.
The purpose of this single-subject study is to investigate children with spinal bifida who have significant knee limitations in lower extremity passive range of motion to answer the following research questions: 1. Is a home standing program effective in reducing lower extremity passive range of motion limitations in children with Spina Bifida? 2. Does a home standing program change the quality of functional movement in children with spina bifida? 3. Does a home standing program change a child's performance in daily activities, mobility, and social/cognitive domains? 4. Does a home standing program change a child's health-related quality of life in children with spinal bifida? 5. Does a home standing program result in a change in gait velocity in children with Spina Bifida?
The objective is to test the efficacy of a laparotomy-assisted fetoscopic surgical approach to cover spina bifida spinal cord developmental defects using cryopreserved human umbilical cords (NEOX Cord 1K®) as a meningeal and skin patch.
The purpose of this study is to evaluate the feasibility and effectiveness of performing fetoscopic surgical correction of fetal spina bifida. Two surgical approaches will be utilized: the percutaneous technique versus the laparotomy/uterine exteriorization technique.
The purpose of this study is to determine the impact of an autologous umbilical cord patch for dural closure on the repair of open neural tube defect. The outcomes will evaluate successful defect closure, creation of a more capacious spinal canal, and reduction in inflammatory tissue response versus historical controls.
A transitional Urology database was created in parallel with National Spina Bifida registry to follow patients with complex congenital urogenital anomalies and be able to prospectively evaluate them. The investigators obtained the standardized questionnaires to collect long-term data regarding patients' genitourinary status including urine and fecal continence, sexuality, fertility, and pelvic health.
This is a single-arm prospective study to record maternal and neonatal outcomes on subjects who undergo fetoscopic repair of Neural Tube Defects (NTD) at Oregon Health \& Science University (OHSU). Fetoscopic repair will take place between 24 weeks 0 days and 27 weeks 6 days gestation. Surgical, post-operative, delivery, and neonatal outcomes will be collected.
The Hawks in Motion (HIM) High Intensity Exercise program is designed to implement the American Physical Therapy Clinical Practice Guidelines and American College of Sports Medicine recommendations for exercise for people with neurologic disability. Doctor of Physical Therapy (DPT) students administer the HIM High Intensity Exercise Program. A prior study evaluated the feasibility, safety, and efficacy of the HIM High Intensity Exercise Program and found it feasible, safe, and effective for 30 people with neurologic disabilities between the ages of 8-99 years. The investigators would like to evaluate whether participation in the HIM High Intensity Exercise Program affects mobility in everyday life. Physical activity will be measured one week before program implementation and one week after to assess if the participants' mobility in everyday improved.
Background: People with cerebral palsy, spina bifida, muscular dystrophy, or spinal cord injury often have muscle weakness and problems controlling how their legs move. This can affect how they walk. The NIH has designed a robotic device (exoskeleton) that can be worn on the legs while walking. The wearable robot offers a new form of gait training. Objective: To learn whether a robotic device worn on the legs can improve walking ability in those with a gait disorder. Eligibility: People aged 3 to 17 years with a gait disorder involving the knee joint. Design: Participants will be screened. They will have a physical exam. Their walking ability will be tested. Participants will have markers taped on their body; they will walk while cameras record their movements. They will undergo other tests of their motor function and muscle strength. The study will be split into three 12-week phases. During 1 phase, participants will continue with their standard therapy. During another phase, participants will work with the exoskeleton in a lab setting. Their legs will be scanned to create an exoskeleton with a customized fit. The exoskeleton operates in different modes: in exercise mode, it applies force that makes it difficult to take steps; in assistance mode, it applies force meant to aid walking; in combination mode, it alternates between these two approaches. During the third phase, participants may take the exoskeleton home. They will walk in the device at least 1 hour per day, 5 days per week, for 12 weeks. Participants walking ability will be retested after each phase....
The investigators hypothesize that surgical release of the filum terminale (strand of fibrous tissue at the end of the spinal cord) is a more efficacious treatment option for symptomatic relief than medical management in subjects with Occult Tethered Cord Syndrome (OTCS) and that the risks do not outweigh the benefit profile.