You might think that the occasional gray hair, fine line and wrinkle starting to stare back at you in the mirror is a sign that time is starting to have its impact felt, but these visible changes as we age are just a symptom of what has been going on at a cellular level inside your body for decades. We all know that you can’t change time, but recent advances in our understanding of aging at a cellular level mean that in the not too distant future we will be able to change the impact that time has on our cells.
And it’s about time. Right now, despite the decades and billions of dollars that have gone and continue to go into attempting to understand and solve the diseases associated with advancing age like Alzheimer’s disease, Parkinson’s disease and cardiovascular disease, we have not made the progress we should.
Researchers are now starting to ask the question – what if we change track and seek to understand the aging process? By slowing aging, we not only spend decades longer in good health, but we push the diseases associated with old age down the road–possibly avoiding them all together.
Why We Decline with Age
With better questions come better answers, progress, and breakthroughs. Nearly a decade ago, in the absence of a single theory regarding aging, scientists reached a consensus on nine key areas of our cells that decline in function as we age. These key areas are called the nine hallmarks of aging, and they all have something in common. If you make them worse, you age faster. If you make them better, you slow the aging process down.
Identifying the hallmarks of aging has given researchers cellular targets to focus on, and has unleashed an incredible amount of human capital focused on solving, or at least reducing, the ravages of aging on our bodies. Researchers armed with tens of billions of dollars in research grants and private equity are now racing to find the answers. And the prize is huge–resolving the aging process, deferring the diseases of older age and extending the time we spend in middle age in good health by decades will transform humanity and will both disrupt and create a trillion dollar industry overnight.
Progress is being made at an accelerating rate, and there are now therapies that have been proven in mice models that are now making their way into clinical studies. Rapamycin, a pharmaceutical that is typically used for organ transplant recipients, because of its ability to help the body avoid rejecting the organ, is now understood to extend life in mice by up to 60%. Senolytics, molecules that help the body identify and remove senescent cells that increasingly accumulate as we age and literally poison the healthy cells that surround them, have extended life in mice by up to 30%. Metformin, a drug used to treat Type 2 diabetes has been identified to significantly reduce cancer rates and extend life.
And these are just a few of the compounds that have been identified that shift the effect of time on our bodies. These and more molecules being developed right now, plus strategies for healthy aging that have been identified from the blue zones around the world where people live to 100 and beyond at a much higher rate than the rest of us, are amongst the many healthy aging strategies that I featured in my book, “Harnessing the Nine Hallmarks of Aging, to Live Your Healthiest Life.”
As a pharmacist with 30 years of experience, I have spent the last decade working in the biotechnology arena associated with anti-aging, translating the complex world of anti-aging science to make it available for the rest of us. By understanding the nine hallmarks of aging–adopting simple strategies from the blue zones, and sharing the breakthrough molecules that have not been available to humans in previous generations– I’ve put together a step-by-step, healthy aging strategy. We can all adopt this strategy and, in the process, significantly alter our aging trajectory and making healthy aging much more of a certainty.
Real the original article here: https://www.the360mag.com/reversing-the-aging-process-at-a-cellular-level/