View clinical trials related to Myelomeningocele.
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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.
Barriers to keeping and maintaining fitness as a young person with a disability exist across many domains of access to community locations such as fitness centers, so looking outside of these establishments may be necessary to advance fitness. This study is aimed at piloting a program that would address some of these barriers by hosting a modified after school running program with an underserved population in an accessible way. There is a second option to participate outside of school.
The investigators will assess the feasibility of replacing fluoroscopy/iodinated contrast with ultrasound/sulfur hexafluoride lipid-type A microspheres during routine urodynamic studies.
Spina bifida, or myelomeningocele (MMC), is a disorder where the lower part of the spinal cord of the fetus is exposed, meaning there is no bone or skin covering it. This is dangerous because the spinal cord contains cells which control one's ability to move their legs and walk, and also to be able to urinate and have bowel movements normally. One of the current treatments for fetal MMC is to perform a surgery on the fetus before it is born which has many names including in utero surgery, prenatal surgery, or fetal surgery. This is a surgery that occurs inside the uterus (the womb) where the surgeon closes the opening in your fetus' back to cover the exposed spinal cord. Researchers have found that adding stem cells to the repair is effective in improving the ability of animals with MMC to walk, and that the stem cells are safe in animal studies. These stem cells are thought to protect the cells in the spinal cord that control movement and developmental outcomes. This study is being performed to look at the safety and effectiveness of stem cells on the fetus's exposed spinal cord during prenatal surgery.
Performing surgery in utero on fetuses with certain birth defects has led to significant improvements in outcomes after birth; however, many of these infants are born preterm which can decrease the effectiveness of these procedures. The investigators aim to understand the effects of surgery on the maternal and fetal immune system and whether immune activation may be causing some of these infants to be born prematurely.
Myelomeningocele is a malformation with high incidence, and it consists in a neural tube defect. Fetal intrauterine surgery is an alternative for correction, and it improves the prognosis of the fetus, but has an increased risk of maternal complications and premature labor, as it can occur due to uterine stimulation. It is therefore essential that tocolysis is performed before, during and after surgery, and the most commonly used tocolytics are terbutaline and atosiban. Terbutaline has no specificity and may have several adverse effects such as maternal acidosis.
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.
Children submitted to fetoscopic in utero myelomeningocele repair using the SAFER (Skin-over-biocellulose for Anternatal FEtoscopic Repair) technique will evaluate at 30 months or more, regarding ambulation, neurodevelopment, urinary and fecal status.
This study aims to determine whether the risk for sleep-disordered breathing in infants with myelomeningocele (a severe form of spina bifida) differs among those who underwent fetal vs. postnatal surgery, and to examine the link between sleep-disordered breathing and neurodevelopment.