this post was submitted on 03 Oct 2024
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Very interesting. I've also seen research suggesting that the application of stem cells to damaged neural tissue within the spinal cord could repair it, so the idea that you could use a similar approach to actual brain health isn't such a big leap. But still, wow. I wonder how long it would take for the immature cells to develop into "adult mode" that's fully integrated into the patients cortex. In order to replace the entire brain, you'd have to do it in like, 8 parts, with years of recovery time in between each surgery. Also there would exist the potential for the new cells to develop into like, a second, smaller brain, if the connections sour or if the new material isn't stimulated the "right" way.
Wow, that's wild.