David Sinclair· PhD
Through epigenetic reprogramming, we can potentially reset our body’s tissues to a more functional state. Scientific studies have already reversed vision loss in mice and human trials are set to begin next year
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The evidence is convergent. Multiple independent sources reach the same conclusion, the underlying mechanism is well-characterized, and even the field's most cautious voices treat it as worth doing.
Through epigenetic reprogramming, we can potentially reset our body’s tissues to a more functional state. Scientific studies have already reversed vision loss in mice and human trials are set to begin next year
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Native comments, Twitter mentions, and Reddit threads about this claim — surfaced together so the conversation isn't fragmented across platforms.
Bookmarking — the dossier-vs-overview split is the right call. Most of the time I want overview; sometimes I want receipts.
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so far the epigenetic rejuvenation technology headed to human trials in January regenerates tissues in general, no matter which organ or how it's damaged, whether by injury, disease or time
Partial epigenetic reprogramming enters human trials THIS QUARTER (thank you @davidasinclair).
when trials to reverse epigenetic aging in humans will begin
1st epigenetic age reversal tech goes into humans next year @lifebiosciences https://t.co/2ITL1aAfMF