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Archive for the ‘life extension’ category: Page 560

Nov 26, 2016

New Technique Can Potentially Help Slow And Reverse An Important Cause Of Aging

Posted by in categories: biotech/medical, engineering, life extension

Led by Nikolay Kandul, senior postdoctoral scholar in biology and biological engineering in the laboratory of Professor of Biology Bruce Hay, the team developed a technique to remove mutated DNA from mitochondria, the small organelles that produce most of the chemical energy within a cell. A paper describing the research appears in the November 14 issue of Nature Communications. There are hundreds to thousands of mitochondria per cell, each of which carries its own small circular DNA genome, called mtDNA, the products of which are required for energy production. Because mtDNA has limited repair abilities, normal and mutant versions of mtDNA are often found in the same cell, a condition known as heteroplasmy.

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Nov 26, 2016

Researchers put mouse embryos in suspended animation

Posted by in categories: biotech/medical, life extension

Hitting the pause button on development in embryos has implications for understanding aging.


UC San Francisco researchers have found a way to pause the development of early mouse embryos for up to a month in the lab, a finding with potential implications for assisted reproduction, regenerative medicine, aging, and even cancer, the authors say.

The new study—published online November 23, 2016 in Nature —involved experiments with pre-implantation mouse embryos, called blastocysts. The researchers found that drugs that inhibit the activity a master regulator of called mTOR can put these early embryos into a stable and reversible state of suspended animation.

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Nov 26, 2016

Scientists to ‘reset’ blood proteins in attempt to slow ageing process

Posted by in categories: biotech/medical, life extension

Progress towards making a blood scrubber to calibrate the pro aging factors in blood. Irina Conboy has spent the last 20 years working on parabiosis and signalling factors in blood and this is yet another step forward for their research.

Whilst many are seeking the secret sauce in young blood the data suggests it is much more likely the case that old blood contains too many pro-aging factors eg, TGF-beta, TNF-a, IL-6, CD38 etc… The aim is now to filter old blood and calibrate such factors in order to promote a pro-youthful signalling environment. If only this device was small enough to wear or implant.


In what could be a fresh chapter in the never-ending story of the search for eternal youth, scientists are to tinker with people’s blood in the hope of slowing down the ageing process and preventing age-related diseases.

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Nov 25, 2016

Life Extension Meetup

Posted by in category: life extension

29th November in Berlin there is a meetup for LE enthusiasts.


Announcing our year-end meetup in Berlin.

Join our casual get together of like-minded people. We chat about extending our healthy lifespans and the latest developments in this exciting field.

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Nov 25, 2016

Some Adaptive Immune Cells Become More Innate-Like in the Aged Immune System

Posted by in categories: biotech/medical, life extension

Destroying and replacing the immune system is one of the approaches to treat the aging process.


Fightaging! provides some commentary about the immune system in relation to aging. Addressing the decline of the immune system is one of the approaches SRF is interested in and is a cornerstone of rejuvenation biotechnology.

“Understanding exactly how aging progressively harms the intricate choreography of the immune response is a massive project, and nowhere near completion. It is possible to judge how far along researchers are in this work by the side effect of the quality of therapies for autoimmune disease, which are malfunctions in immune configuration, and largely incurable at the present time. From a practical point of view, and as mentioned above, the best prospects for effective treatments in the near future involve destroying and recreating the immune system. That works around our comparative ignorance by removing all of the problems that researchers don’t understand in addition to ones that they do.”

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Nov 25, 2016

The road is long but we can get there

Posted by in categories: biotech/medical, life extension

This gives a very simple summary of the process of drug development.


The development process from Pre-Clinical testing to an approved product we can use is a long one. A global average of 17 years with the US being 12 years is the historical norm for new drugs and therapies to be developed.

#aging #crowdfundthecure

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Nov 24, 2016

Happy Thanksgiving from SENS Research :D

Posted by in categories: biotech/medical, life extension

Happy Thanksgiving! This year during your holiday meal, share what you are thankful for and think about how to pay it forward on #GivingTuesday.

We are working hard to treat age-related diseases so that we all get to enjoy more wonderful days together like this. We need your help to do it.

#sens

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Nov 24, 2016

Predicting the Order of Arrival of the First Rejuvenation Therapies

Posted by in categories: biotech/medical, life extension

Speculation about what order rejuvenation biotechnologies will arrive.


The first rejuvenation therapies to work well enough to merit the name will be based on the SENS vision: that aging is at root caused by a few classes of accumulated cell and tissue damage, and biotechnologies that either repair that damage or render it irrelevant will as a result produce rejuvenation. Until very recently, no medical technology could achieve this goal, and few research groups were even aiming for that outcome. We are in the midst of a grand transition, however, in which the research and development community is finally turning its attention to the causes of aging, understanding that this is the only way to effectively treat and cure age-related disease. Age-related diseases are age-related precisely because they are caused by the same processes of damage that cause aging: the only distinctions between aging and disease are the names given to various collections of symptoms. All of frailty, disease, weakness, pain, and suffering in aging is the result of accumulated damage at the level of cells and protein machinery inside those cells. Once the medical community becomes firmly set on the goal of repairing that damage, we’ll be well on the way to controlling and managing aging as a chronic condition — preventing it from causing harm to the patient by periodically repairing and removing its causes before they rise to the level of producing symptoms and dysfunction. The therapies of the future will be very different from the therapies of the past.

The full rejuvenation toolkit of the next few decades will consist of a range of different treatments, each targeting a different type of molecular damage in cells and tissues. In this post, I’ll take a look at the likely order of arrival of some of these therapies, based on what is presently going on in research, funding, and for-profit development. This is an update to a similar post written four years ago, now become somewhat dated given recent advances in the field. Circumstances change, and considerable progress has been made in some lines of research and development.

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Nov 23, 2016

Ageing Societies 2016

Posted by in categories: business, economics, finance, health, life extension

Longevity a challenge or an opportunity?

This autumn, The Economist Events will bring global leaders from business, finance and health care together with policymakers to explore the opportunities of an ageing world.

Together they will discuss how best to adapt financial products and realign business and public policies in ways that will drive economic growth and mitigate problems that ageing societies could otherwise bring.

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Nov 22, 2016

BGRF scientists publish seminal paper and announce project to develop biomarkers of aging

Posted by in categories: biotech/medical, information science, life extension, robotics/AI

New biomarkers for aging is good news for researchers!


“Given the high volume of data being generated in the life sciences, there is a huge need for tools that make sense of that data. As such, this new method will have widespread applications in unraveling the molecular basis of age-related diseases and in revealing biomarkers that can be used in research and in clinical settings. In addition, tools that help reduce the complexity of biology and identify important players in disease processes are vital not only to better understand the underlying mechanisms of age-related disease but also to facilitate a personalized medicine approach. The future of medicine is in targeting diseases in a more specific and personalized fashion to improve clinical outcomes, and tools like iPANDA are essential for this emerging paradigm,” said João Pedro de Magalhães, PhD, a trustee of the Biogerontology Research Foundation.

The algorithm, iPANDA, applies deep learning algorithms to complex gene expression data sets and signal pathway activation data for the purposes of analysis and integration, and their proof of concept article demonstrates that the system is capable of significantly reducing noise and dimensionality of transcriptomic data sets and of identifying patient-specific pathway signatures associated with breast cancer patients that characterize their response to Toxicol-based neoadjuvant therapy.

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