NIH Grant Will Help Understanding How Connections Rewire After Spinal Cord Injury
By Sykes24Tracey
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By Beth Miller
Newswise Restoring function after spinal cord injury, which damages the connections that carry messages from the brain to the body and back, depends on forming new connections between the surviving nerve cells. While there are some delicate surgical techniques that reconnect the nerves, researchers are also looking at ways to restore the connections themselves at a cellular level.
With a five-year, nearly $1.7 million grant from the National Institutes of Health, Shelly Sakiyama-Elbert, PhD, professor of biomedical engineering in the School of Engineering & Applied Science at Washington University in St. Louis, is using novel methods to take a closer look at how these nerve cells grow and make new connections to reroute signals between the brain and the body that could restore function and movement in people with these debilitating injuries.
Sakiyama-Elbert, also associate chair of the Department of Biomedical Engineering, is widely known for her groundbreaking work in tissue engineering techniques. Her research expertly blends biology, chemistry and biomedical engineering to focus on developing biomaterials for drug delivery and cell transplantation to treat peripheral nerve and spinal cord injury.
In the new research, funded by the National Institute of Neurological Disorders and Stroke, she and her lab members want to understand how these nerve cells, or neurons, form connections and rewire after a spinal cord injury, looking closely at which particular cells, or interneurons, are forming these new connections.
There have been a lot of studies where researchers have shown recovery in partial spinal cord injury models, but no one understands at a cellular level which cells are responsible for rewiring or forming the new connections, Sakiyama-Elbert said. If we want to make regeneration more efficient and potentially translatable to humans where it is more challenging, we need to understand whats actually going on at a cellular level.
Once we determine which cells are making connections, we can determine how to transplant more of those cells or try to stimulate tissue-specific stem cells to make those types of neurons and form these types of connections, Sakiyama-Elbert said.
While much is known about motor neurons, less is known about these interneurons in culture or how to direct their connection with other neurons. Sakiyama-Elbert is developing new tools that will allow her to isolate very pure groups of different types of interneurons and then study what encourages them to grow and form new connections.
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NIH Grant Will Help Understanding How Connections Rewire After Spinal Cord Injury
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