View clinical trials related to Arnold-Chiari Malformation.
Filter by:Chiari Malformation (CM) is a chronic health condition characterized by brain and spinal malformations and displacements that cause obstruction of cerebrospinal fluid (CSF; Hadley, 2002) circulation. The most common type of CM, CM1, is characterized by the displacement of the cerebellar tonsils more than five millimeters into the foramen magnum (Hadley, 2002). Approximately 215,000 Americans may have CM1, over six times the prevalence of multiple sclerosis (Dilokthornsakul et al., 2016; Speer et al., 2003). Chronic pain is a major problem for patients with CM; (Curone et al., 2017; Garcia et al., 2019). Craniovertebral decompression is the most common surgical intervention for CM1, but it may not be effective in relieving long-term pain and is not recommended for all CM1 patients (Arnautovic et al., 2015; Imperato et al., 2011). In addition to chronic pain, patients with CM also have high levels of depression, anxiety, and sleep dysfunction (Garcia et al., 2019; Lázaro et al., 2018; Watson et al., 2010). Psychological interventions, specifically Acceptance and Commitment Therapy (ACT), have been effective at treating chronic pain when administered online (van de Graaf et al., 2021). We previously found an online self-administered version of ACT to be effective at improving psychological flexibility and chronic pain acceptance in participants with CM (Garcia et al., 2021). In our pilot study (Garcia et al., 2021), participants in the intervention group received phone coaching to improve intervention adherence and use of skills; however, we found that duration of phone coaching did not impact treatment outcomes. We also had excellent retention in the control group. It is unclear whether phone coaching is necessary for treatment engagement or efficacy in groups particularly motivated to seek treatment. If it is not necessary, online ACT can be offered more efficiently and cost-effectively. The proposed study will randomize participants to either ACT+ phone coaching, ACT without coaching, or wait-list control conditions to determine if coaching impacts treatment adherence and outcomes in this population. Based on power analyses, the sample size will be 111. The sample will be recruited online and randomized to one of the three treatment groups. The intervention will consist of eight modules that are administered weekly over 8 weeks. Follow up assessments will be administered after completion of the intervention, and at one and three months after completion.
The purpose of this investigation is to evaluate maternal and fetal outcomes following fetoscopic repair of fetal spina bifida at the Johns Hopkins Hospital. The hypothesis of this study is that fetoscopic spina bifida repair is feasible and has the same effectiveness as open repair of fetal spina bifida, but with the benefit of significantly lower maternal and fetal complication rates. The fetal benefit of the procedure will be the prenatal repair of spina bifida. The maternal benefit of fetoscopic spina bifida repair will be the avoidance of a large uterine incision. This type of incision increases the risk of uterine rupture and requires that all future deliveries are by cesarean section. The use of the minimally invasive fetoscopic surgical technique may also lower the risk of preterm premature rupture of membranes and preterm birth compared to open fetal surgery. Finally, successful fetoscopic spina bifida repair also makes vaginal delivery possible.
Background: - Syringomyelia is a disorder in which a cyst (syrinx) forms within the spinal cord and causes spinal cord injury, with symptoms worsening over many years, including paralysis, loss of sensation, and chronic pain. Researchers are interested in obtaining more knowledge about how a syrinx forms in order to develop safer and more effective treatments for syringomyelia and related conditions. - The goal of surgical treatment of syringomyelia is to eliminate the syrinx and prevent further spinal cord injury. In most patients, surgery results in the syrinx becoming smaller, but the effect of surgery on a patient s muscle strength, pain level, and overall function has not been studied over time. In addition, some individuals with syringomyelia or related conditions are not considered to be good candidates for surgery, and more information is needed about potential alternative treatments for these individuals. - By recording more than 5 years of symptoms, muscle strength, general level of functioning, and magnetic resonance imaging (MRI) scan findings from individuals who receive standard treatment for syringomyelia, researchers can obtain more information about factors that influence its development, progression, and relief of symptoms. Objectives: - To conduct a 5-year natural history study of individuals with syringomyelia and related conditions. Eligibility: - Individuals at least 18 years of age who have syringomyelia or related conditions (including pre-syringomyelia or Chiari I malformation without syringomyelia). Design: - This study requires 7 outpatient visits to the National Institutes of Health Clinical Center: an initial visit; a visit 3 months later; and visits 1, 2, 3, 4, and 5 years after the initial visit. An additional 10 days of inpatient treatment and testing will be required if surgery is needed during the study. - The following tests will be performed during this study: - Medical history and physical examination, which may also determine eligibility for surgery - Detailed neurological history and examination - Blood and urine samples - MRI scans: Participants will have 2 scans at the initial evaluation, 2 scans at the 3-month visit, and 1 scan every year for the following 5 years. - Additional neurological and imaging tests if needed, including a lumbar puncture to collect spinal fluid, a myelogram (imaging study) of the spinal fluid, and a computed tomography scan of the skull and spine. - Participants who are surgical candidates will have additional tests along with the surgery, including diagnostic studies (electrocardiogram and chest X-ray) before surgery and an MRI scan 1 week after surgery.