Chinese Association of Idaho State University (CAISU)
NMN and NAD Reverse Aging of Blood Vessels in New Study
Harvard professor Dr. David Sinclair reports that the NAD boosting nmn powder compound reverses aging in blood vessels and restores muscle strength in a new study published March 22nd. [This article first appeared on LongevityFacts. Author: Brady Hartman. ]
Using the NAD boosting molecule NMN, Dr. David Sinclair’s team reversed blood vessel and muscle aging in mice, while boosting their exercise endurance. As Dr. Sinclair says.The team says the achievement paves the way for similar therapies for humans and published the results of their study on March 22 in the journal Cell.
David A. Sinclair, Ph.D. is best known for his research on the NAD molecule and its role in increasing health in aging bodies. Dr. Sinclair is a professor in the Department of Genetics and a Co-Director of the Paul F. Glenn Laboratories for the Biological Mechanisms of Aging at Harvard Medical School (HMS) as well as a Professor at the University of New South Wales, Sydney.
In a video accompanying the new study, published by Harvard News, Dr. David Sinclair describes the compound NMN boosts levels of NAD in the bodies of aging mice, and how that restores muscle function.Vascular aging leads to a deterioration in many organs and tissues throughout the human body, as Dr. David Sinclair says:
Dr. David Sinclair also describes the how aging of the cells lining our blood vessels leads to a decline in our vascular systems and muscles, saying:
The new study suggests that this loss of blood flow is a key driver behind age-related muscle loss and frailty. Even if we exercise, our muscles shrink as we get older, as Dr. David Sinclair says.
The declining levels of NAD in our bodies cause this aging process. However, using NMN to boost levels of NAD stimulates a sirtuin protein called SIRT1, as Dr. David Sinclair describes.Finally, the researcher describes how giving the compound NMN to mice boosted their levels of NAD, producing remarkable results, as Dr. David Sinclair says,