There is no cure for spina bifida. The nerve tissue that is damaged or lost cannot be repaired or replaced, nor can function be restored to the damaged nerves. Treatment depends on the type and severity of the disorder. Generally, children with the mild form need no treatment, although some may require surgery as they grow.
The key early priorities for treating myelomeningocele are to prevent infection from developing through the exposed nerves and tissue through the spine defect, and to protect the exposed nerves and structures from additional trauma. Typically, a child born with spina bifida will have surgery to close the defect and minimize the risk of infection or further trauma within the first few days of life.
Twenty to 50 percent of children with myelomeningocele develop a condition called progressive tethering, or tethered cord syndrome, in which their distal spinal cords become fastened to an immovable structure—such as overlying membranes and vertebrae—causing the spinal cord to become abnormally stretched and the vertebrae elongated with growth and movement. This condition can cause change in the muscle function of the legs, as well as changes in bowel and bladder function. Early surgery on the spinal cord may allow the child to regain a normal level of functioning and prevent further neurological deterioration.
Some children will need subsequent surgeries to manage problems with the feet, hips, or spine. Individuals with hydrocephalus generally will require additional surgeries to replace the shunt, which can be outgrown or become clogged.
Some individuals with spina bifida require assistive mobility devices such as braces, crutches, or wheelchairs. The location of the malformation on the spine often indicates the type of assistive devices needed. Children with a defect high on the spine and more extensive paralysis will often require a wheelchair, while those with a defect lower on the spine may be able to use crutches, bladder catherizations, leg braces, or walkers. Beginning special exercises for the legs and feet at an early age may help prepare the child for walking those those braces or crutches when he or she is older.
Treatment of bladder and bowel problems typically begins soon after birth, and may include bladder catheterizations and bowel management regimens.
Multidisciplinary care for children and adults with Spina Bifida
Because spina bifida affects so many body systems it is important that professionals from different specialities be consulted to provide up-to-date, comprehensive medical, psychological and social evaluation, support and treatment. There are many spina bifida clinics throughout Europe, the USA and other developed countries which bring the appropriate specialists together to provide the necessary care. However, many people with spina bifida in eastern europe and developing countries suffer from difficult care conditions. Moreover, there are lot of efforts to be done to guarantee the appropriate transition from childhood to adulthood for people with spina bifida and the establishment of multidisciplinary clinics for adults as well.
Management of Myelomeningocele Study (MOMS)
In the USA, selected medical centers continue to perform fetal surgery for treatment of myelomengocele through a National Institute protocol (Management of Myelomeningocele Study, or MOMS). Fetal surgery is performed in utero (within the uterus) and involves opening the mother's abdomen and uterus and sewing shut the abnormal opening over the developing baby's spinal cord. Some doctors believe he earlier the defect is corrected, the better the baby's outcome. Although the procedure cannot restore lost neurological function, it may prevent additional losses from occurring.
Originally planned to enroll 200 expectant mothers carrying a child with myelomeningocle, the Management of Myelomeningocele Study was stopped after the enrollment of 183 women, because of the benefits demonstrated in the children who underwent prenatal surgery.
There are risks to the fetus as well as to the mother. The major risks to the fetus are those that might occur if the surgery stimulates premature delivery, such as organ immaturity, brain hemorrhage, and death. Risks to he mother include infection, blood loss leading to the need for transfusion, gestational diabetes, and weight gain due to bed rest.
Still, the benefits of fetal surgery are promising, and include less exposure of the vulnerable spinal nerve tissue and bones to the intrauterine environment, in particular the amniotic fluid, which is considered toxic. As an added benefit, doctors have discovered that the procedure affects the way the fetal hindbrain develops in the uterus, allowing certain complications—such as Chiari II and hydrocephalus—to correct themselves, thus, reducing or, in some cases, eliminating the need for surgery to implant a shunt.