[SEO]

 As we see (http://www.google.com/trends?q=Rejuvenation) the Internet users are interested in rejuvenation. Let's talk and discover more about it. I am young and I don't need it, but someday may be this info will work for me  

[SEO]

  Oh, such a bad surprise !  The rejuvenation* is not impossible now (2011). Well, elderly SEO and Non-SEO guys, let's hope that it will be possible soon (2012)! 

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* "Rejuvenation is the hypothetical reversal of the aging process."^{http://en.wikipedia.org/wiki/Rejuvenation_%28aging%29}

[swaggy]

We all likes to be forever young and I can say that rejuvenation medical therapy is really good for those people who wants to stay fresh and look younger than their age.

[Gay]

 I think that there is still no rejuvenation therapy. Rejuvenation is just a dream, just a dream...

[SEO]

Maybe soon - not just a dream. Read more: http://abcnews.go.com/Health/girl-ages-unravel-secret-eternal-youth/story?id=19974247

[MSL]

Blood from human teens rejuvenates body and brains of old mice

 I am not surprised, because I already read something similar. At first to show you the similar information (knowledge): "...connecting the circulatory systems of young and old animal, leads to the rejuvenation of the old animal, including restoration of proper stem cell function. Similar experiments show that grafting old muscles into young hosts leads to their complete restoration, whereas grafting young muscles into old hosts does not. These experiments show that aging is mediated by systemic environment, rather than being an intrinsic cell property."^{https://en.wikipedia.org/wiki/Rejuvenation_(aging)#Modern_developments https://en.wikipedia.org/wiki/Wikipedia:Text_of_Creative_Commons_Attribution-ShareAlike_3.0_Unported_License}
 And now the link to this new one about "Blood from human teens rejuvenates body and brains of old mice": https://www.newscientist.com/article/2112829-blood-from-human-teens-rejuvenates-body-and-brains-of-old-mice.

[admissioninfo123]

Thanks a lot for sharing the excellent iNFORMATION

[SEO]

You're welcome!

Best regards: the anti-spam administration of seo-forum-seo-luntan.com!

[SEO]

Are stem cells the key to anti-aging treatments?

Are stem cells the key to anti-aging treatments? By Dr. Manny Alvarez. Published August 30, 2017:

http://www.foxnews.com/health/2017/08/30/are-stem-cells-key-to-anti-aging-treatments.html

[MSL]

Rejuvenated by around 30 years

"Multi-omic rejuvenation of human cells by maturation phase transient reprogramming

Abstract
Ageing is the gradual decline in organismal fitness that occurs over time leading to tissue dysfunction and disease. At the cellular level, ageing is associated with reduced function, altered gene expression and a perturbed epigenome. Somatic cell reprogramming, the process of converting somatic cells to induced pluripotent stem cells (iPSCs), can reverse these age-associated changes. However, during iPSC reprogramming, somatic cell identity is lost, and can be difficult to reacquire as re-differentiated iPSCs often resemble foetal rather than mature adult cells. Recent work has demonstrated that the epigenome is already rejuvenated by the maturation phase of reprogramming, which suggests full iPSC reprogramming is not required to reverse ageing of somatic cells. Here we have developed the first 'maturation phase transient reprogramming' (MPTR) method, where reprogramming factors are expressed until this rejuvenation point followed by withdrawal of their induction. Using dermal fibroblasts from middle age donors, we found that cells temporarily lose and then reacquire their fibroblast identity during MPTR, possibly as a result of epigenetic memory at enhancers and/or persistent expression of some fibroblast genes. Excitingly, our method substantially rejuvenated multiple cellular attributes including the transcriptome, which was rejuvenated by around 30 years as measured by a novel transcriptome clock. The epigenome, including H3K9me3 histone methylation levels and the DNA methylation ageing clock, was rejuvenated to a similar extent. The magnitude of rejuvenation instigated by MTPR appears substantially greater than that achieved in previous transient reprogramming protocols. In addition, MPTR fibroblasts produced youthful levels of collagen proteins, and showed partial functional rejuvenation of their migration speed. Finally, our work suggests that more extensive reprogramming does not necessarily result in greater rejuvenation but instead that optimal time windows exist for rejuvenating the transcriptome and the epigenome. Overall, we demonstrate that it is possible to separate rejuvenation from complete pluripotency reprogramming, which should facilitate the discovery of novel anti-ageing genes and therapies."

Source: https://elifesciences.org/articles/71624.