View clinical trials related to Spina Bifida.
Filter by: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 goal of this clinical trial is to investigate if access to the StoMakker application will significantly improve health-related quality of life in children receiving surgery resulting in an ileostomy, colostomy or continent urostomy. The main question it aims to answer are: - Does access to StoMakker improve health-related quality of life in children receiving surgery for an ostomy? - Does access to StoMakker improve the anxiety and social functioning of children receiving surgery for an ostomy? - Does access to StoMakker improve postoperative complications of children receiving surgery for an ostomy? Participants will be asked to fill in several questionnaires around their surgery. The intervention group of the trial will be given access to the application "StoMakker". The control group of the trial will receive standard care.
The aim of the study is to investigate known urinary biomarkers in order to determine whether they can be predictive of a risk of damage to the upper urinary tract and therefore the kidneys in patients with spina bifida. The risk of damage to the upper urinary tract can be calculated using the Galloway score, based on the results of the urodynamic study and retrograde urethrocystography, which all patients with spina bifida have regularly. The urinary biomarkers studied TIMP-2 (Tissue inhibitor of metalloproteinases 2) and MMP-2 (matrix metalloproteinase-2) are potentially associated with renal degradation, but this has not yet been demonstrated. Volunteers to take part in the study will have their biomarkers measured at the time of their urodynamic assessment.
Individuals with and without neurologic diagnoses greatly benefit from participation in regular exercise but the majority are physically inactive. This is an issue for both them and their care partners as their health is often linked. This study aims to examine the long-term physical and psychosocial effects of structured, group-based, high intensity functional training (HIFT) exercise for people with neurologic diagnoses and their care partners.
The population cared for in the Transitional and Lifelong Care (TLC) clinic is youth and adults with childhood-onset disability, of which the large majority are adults with brain-based, neurodevelopmental conditions such as cerebral palsy, spina bifida and developmental disability. The TLC program was created to address the health inequities that have long existed for this population because of the gaps in care they experience once they transition from pediatric healthcare services to the adult healthcare sector. The TLC program offers coordinated and comprehensive management of co-occurring mental, social and physical health conditions for this group of adults with neurodiverse conditions. The proposed study will provide much needed evaluation of the TLC model as an intervention to provide transitional and lifelong care that reduces the barriers experienced because of the undefined clinic path - potentially more appropriately referred to as a "cliff" by a Freeman et al., (2015) - for these individuals. With appropriate evidence of effectiveness, scaling of the TLC program to other Ontario Health regions and more widely across Canada would improve access healthcare providers who are knowledgeable and competent in the management of physical and mental health conditions for adults with neurodiverse conditions as well as service integration and coordination between social and health sectors. The TLC clinic was co-designed with adults with neurodiverse conditions and health care providers in 2014 and represents a significant and sustainable change in the way healthcare has been delivered for this population in the Ontario Health West region over the last 7 years. More than 750 people have accessed coordinated and comprehensive care from Physiatrists, a Nurse Practitioner, Social Worker, Physiotherapist, Occupational Therapist, Speech Language Pathologist, Registered Dietitian and Rehabilitation Therapist in the TLC program since it began, documenting the effectiveness of this care has the power to re-shape care received for adults with neurodiverse conditions that onset in childhood in Canada.
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 low mechanical loading of bones among wheelchair users leads to an increased risk of bone fractures and associated complications due to low bone mineral density (BMD). Adding mechanical loading through physical activity in combination with optimizing nutrition may counteract these negative consequences in wheelchair users and thereby provide positive impact for bone health, as well as for physical and mental health. In this project, a multidisciplinary team will tailor a bone-specific exercise and nutrition program to increase BMD in sport active and non-active wheelchair users with initial low BMD.
Manual wheelchairs (MWCs) are widely used by children with physical disabilities, yet many of these children are unable to use their wheelchair independently. Instead, they depend on others to push them. This dependency results in limited opportunities to decide what they want to do and where they want to go, leading to learned helplessness, social isolation, decreased participation, and restricted involvement in physical activities. Furthermore, unsafe MWC use increases the risk of injury, as highlighted by the 44,300 children treated each year in emergency departments for MWC-related injuries. While independent MWC mobility can positively influence quality of life, MWC skills training must also be provided to promote safe, independent MWC use. The effectiveness of MWC training programs for adults is well established, yet the current standard-of-care does not include MWC skills training for children and research regarding the efficacy of pediatric MWC skills training programs is limited. Skills on Wheels seeks to address these gaps and provide pilot data for a future large-scale, multi-site research project involving a randomized controlled trial. Aim 1 is to explore the influence of Skills on Wheels on children's MWC skills and confidence in their MWC use. Aim 2 is to investigate the influence of Skills on Wheels on children's psychosocial skills, social participation, and adaptive behavior.
The purpose of the study is to evaluate the feasibility and the maternal, fetal and postnatal outcomes of sacral myelomeningocele (MMC) and Myelic Limited Dorsal Myeloschisis (MyeLDM) fetoscopic repair at Trousseau Hospital (Paris, France).
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.