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Meningitis can be a frightening diagnosis. Our expert guide breaks down the different types—bacterial, viral, and fungal—and ...
Researchers in New Zealand have demonstrated a minimally invasive technology that has effectively aided in restoring movement ...
An ultra-thin spinal implant that delivers gentle electric currents has restored movement and touch sensation in rats ...
It shows that with electrical stimulation and training, the spinal cord can regain control over paralyzed muscles even years after an injury. “If we rush too fast, there’s going to be mistakes.” ...
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Hongkongers with spinal cord injuries may regain mobility with help of new lab - MSNNew laboratory at Polytechnic University to start clinical trials for advanced therapy products after facility is fully licensed Hongkongers with spinal cord injuries may have a chance to regain ...
Unlike the brain and spinal cord, peripheral nerve cells, whose long extensions reach the skin and internal organs, are ...
Spinal cord injury-induced paralysis of the respiratory muscles causes low oxygen in the blood, increases the body’s drive to breathe and drives any functioning respiratory muscles to work harder. The ...
Their results, published this week in the Journal of Neurotrauma, indicate that these lab-grown cells have the potential to one day help paralyzed patients breathe without a ventilator. ... In a study ...
In one group – that had just recently been injured – the implant successfully bridged the gap in their spinal cord, allowing 100 percent of the mice to regain full use of the leg after a ...
Over a century later Morgan’s lab in particular has led many breakthroughs, including a 2018 study that found genes that aid spinal cord healing in lamprey are also present in mammals. MBL Associate ...
Interneurons are particularly attractive candidates for the injured spinal cord, because they relay signals between sensory and motor neurons. However, these cells are a diverse bunch, and it has ...
Researchers from Drexel University College of Medicine and the University of Texas at Austin improved respiratory function in rodents with spinal cord injuries after successfully transplanting a ...
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