A patch made of stem cells from donor placentas has been used to treat fetuses in the womb with a severe form of spina bifida as part of a world-first trial. The novel approach seems to have reversed a brain complication associated with the congenital condition at least as effectively as the go-to treatment, but is expected to enable more children to walk over the long term.

The mother of one of the babies, who is now 4 years old, says she expected that her son Toby would require a wheelchair when he was diagnosed with the condition in the womb. “But Toby is healthy [and] has hit all of his milestones – he’s walking, running and jumping – and has no problems with bladder control, which is rare for people with the condition,” she says.

Spina bifida – which affects about 1 in every 2,800 births in the US every year – occurs when a baby’s spine and spinal cord do not fully develop in the womb. In the most severe form of the condition, called myelomeningocele, the spinal cord and its surrounding tissue protrude out of a gap in the vertebrae, which often impairs mobility and bowel and bladder control. The cause of spina bifida is unknown, but folic acid deficiency during pregnancy raises the risk.

One of the standard treatments involves surgery in the womb that tucks the spinal cord and the surrounding tissue back into the vertebrae, before sewing up the skin to form a tight seal. “But many children still end up unable to walk and there’s [usually] no improvement in bowel or bladder control,” says Diana Farmer at the University of California, Davis.

This led Farmer and her colleagues to wonder if the addition of stem cells could help by promoting the growth and repair of spinal tissue. To find out, they recruited six pregnant women carrying fetuses with myelomeningocele.

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Gene therapy has been successfully used to treat a number of diseases, including immune deficiencies, hereditary blindness, hemophilia and, recently, Huntington’s disease, a fatal neurological disorder.

An advance reported in the journal Neuron adds to the technique’s growing track record of evidence supporting the view that it could unlock powerful, personalized therapies: researchers found that released markers of activity (RMAs) ⎯ engineered proteins designed to cross the blood-brain barrier and persist in the blood for hours at a time, providing a reliable and noninvasive way to get information about gene expression in the brain ⎯ work just as well in monkeys as they do in mice.

Alongside precision, RMA technology is also capacious and adaptable: Different serum markers can be designed to track multiple genes across different brain regions. ScienceMission sciencenewshighlights.

Researchers at the University of Colorado Anschutz have developed a simple, one-question screening tool that could help doctors quickly identify hoarding behaviors in patients with memory loss and other brain disorders. Early detection, they said, could lead to early intervention, helping to reduce safety risks, relieve caregiver stress and improve the quality of life for both patients and families.

The new tool was examined in a study published this month in The Journal of Neuropsychiatry and Clinical Neurosciences. The study was co-led by Peter Pressman, MD and Julia Schaffer, BA. The senior author is David Arciniegas, MD, professor of neurology at CU Anschutz.

“This was really born of shared observations in the memory clinic,” said Pressman, associate professor of neurology at Oregon Health & Science University who conducted the research while at CU Anschutz. “We noticed that hoarding was very common in these patients but it was not part of any screening protocols.”