New Approach to Stroke Treatment Could Minimize Brain Damage

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A new treatment for a common type of stroke may soon be possible, thanks to a discovery by an international team of researchers led by the University of British Columbia.

A new treatment for a common type of stroke may soon be possible, thanks to a discovery by an international team of researchers led by the University of British Columbia.

In a study published today in the Journal of Experimental Medicine, researchers successfully used a new approach that significantly minimized brain damage caused by stroke in mouse models. The new approach works by targeting hemichannels—pathways that allow for the flow of chemical ions and small molecules—that are expressed by astrocytes, cells that play a protective role for neurons in the brain.

When stroke occurs, these hemichannels open and can leak toxic molecules into the space outside the astrocytes, causing inflammation and damage to neurons.

“Our study definitively confirms that hemichannels are detrimental in stroke, and that we can block them to minimize damage to the brain,” said lead author Moises Freitas-Andrade, who conducted this study as a postdoctoral research fellow at UBC and currently is a research fellow at The Ottawa Hospital Research Institute. “It’s a different approach to stroke treatment. A lot of previous research has focused on trying to protect neurons, but here we sought a way to enhance the astrocyte’s ability to protect neurons in stroke.”

Read more at University of British Columbia (UBC)

Image: Left image: In this image, the researchers used a molecule called Gap19 to block the hemichannels, which resulted in smaller stroke damage. Right image: This image shows the size of a stroke in a mouse’s brain without treatment by Gap19.  Credit: UBC