A self-assembling gel that stimulates nerve regeneration has shown promise as a treatment for paralysis in mice
A self-assembling gel injected at the site of spinal cord injuries in paralysed mice has enabled them to walk again after four weeks.
The gel mimics the matrix that is normally found around cells, providing a scaffold that helps cells to grow. It also provides signals that stimulate nerve regeneration.
Samuel Stupp at Northwestern University in Chicago and his colleagues created a material made of protein units, called monomers, that self-assemble into long chains, called supramolecular fibrils, in water.
When they were injected into the spinal cords of mice that were paralysed in the hind legs, these fibrils formed a gel at the injury site.
The researchers injected 76 paralysed mice with either the fibrils or a sham treatment made of salt solution, a day after the initial injury. They found that the gel enabled paralysed mice to walk by four weeks after the injection, whereas mice given the placebo didn’t regain the ability to walk.
The team found that the gel helped regenerate the severed ends of neurons and reduced the amount of scar tissue at the injury site, which usually forms a barrier to regeneration. The gel also enhanced blood vessel growth, which provided more nutrients to the spinal cord cells.
“The extent of functional recovery and solid biological evidence of repair we observed using a model that truly emulates the severe human injury makes the therapy superior to...
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ReplyDeleteAll they need is to label it a fauxcine, and the world will request it NOW!
ReplyDeleteFor God's sake,don't say this would be an effective treatment for COVID!! It'll be banned immediately!
ReplyDeleteWhy isn't Fauci doing what he loves and performing these experiments on children?
ReplyDelete