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The deadlines set for “singularity” are also seen by some as an attempt to scare and coerce governments into implementing the movement’s social and technological “agenda”. However, when the names of major tech corporations of the world like Google, Nokia and Tesla are associated with the transhumanist ideology, it is difficult to dismiss the premise and prospects of this new revolutionary socio-technological movement.


For several centuries, political movements have emanated from nationalist or religious convictions, socio-political and economic theories or even environmental concerns. However, issues of science and technology have rarely driven mainstream socio-political discourse as scientists have hardly ever indulged in propounding societal constructs for the future.

However, a technology-oriented intellectual movement may soon become the focus of political debate as 21st century science stands at the brink of reshaping human identity itself.

By the turn of the millennium, Transhumanism rose as a futurist social movement, led by some of the leading researchers and heads of global tech corporations (mostly based in the super-rich Silicon Valley), but has only recently gained greater media coverage and popularity apart from inspiring the plotlines for many Hollywood films.

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KrioRus charges $36,000 to cryonize a corpse, or half that for just the head. The process is fairly straightforward: First, cryonicists drain the blood of the “patient,” and pump in a solution resembling antifreeze. The body goes into a cooling chamber beneath KrioRus’s 2,000-square-foot hangar in Sergiyev Posad, a suburb north of Moscow, for roughly a week. Then it’s immersed, head first, in a double-walled dewar of liquid nitrogen, where it hangs indefinitely until scientists figure out how to revive it. In this way, KrioRus has cryopreserved 61 people and 31 pets, including a cat, a goldfinch, and a chinchilla. At least 487 others have signed up.


“Maybe in five, 30, or 300 years, there will be a way to wake her again,” Riabinina says.

Riabinina’s story is among several that Italian photographer Giuseppe Nucci documents in -196: The Pioneers of Resurrection. His ethereal, atmospheric images respectfully capture the quest for immortality in Russia, home to a visionary gaggle of cosmists, cryonicists, and transhumanists who believe in a deathless future. They preach resurrection, wear high-tech cyber-suits, and deep-freeze the corpses of loved ones they hope to meet again.

“We are all scared of death,” Nucci says. “The idea that humans will one day defeat it is fascinating.”

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What does it mean to be human in world of increasingly powerful technology? This is a question video games have grappled with, most recently in the “Deus Ex” franchise and the upcoming E3 show-stealing “Cyberpunk 2077.”

Daedalic’s “State of Mind” approaches the topic in a different, more philosophical way. Guns and body mods aren’t the order of the day. Rather, “State of Mind” is a narrative adventure that considers how far the human race will go to trade dystopia for utopia.

Creative lead Martin Ganteföhr is an avid follower of transhumanist theory, and how humanity will evolve over the coming decades as scientists pursue the singularity. Transhumanism explores the intersection of people and technology, with the ultimate goal giving all people access to technology that leads to an egalitarian utopia.

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Investigators at Harvard Medical School have identified the key cellular mechanisms behind vascular aging and its effects on muscle health, and they have successfully reversed the process in animals.

The scientists used a chemical compound that’s an NAD+ booster called NMN which plays a critical role in repairing cellular DNA as well as maintaining cell vitality to test what would happen.

Could reversing the aging of blood vessels hold the key to restoring youthful vitality? If the old adage “you are as old as your arteries” reigns true then the answer is yes, at least in mice.

According to a new study by Harvard Medical School researchers, they have identified the cellular mechanisms that cause the aging of vascular arteries as well as the effects of such aging on the health of muscles. The Medical team was also able to successfully reverse this aging process.

What these findings seem to indicate is that there’s a glitch in the normal crosswalk between both muscles and blood vessels and keeping both tissues healthy. The scientists were also able reverse the demise of blood vessels and muscle atrophy in the aging mice by using the synthetic precursors of two molecules naturally present in the body. This boosted their exercise endurance in the process.

The Medical team is excited because such a breakthrough will now pave the way to identifying new therapies for humans.

Study senior investigator David Sinclair, professor in the Department of Genetics at Harvard Medical School and co-director of the Paul F. Glenn Center for the Biology of Aging at Harvard Medical School stated “we’ve discovered a way to reverse vascular aging by boosting the presence of naturally occurring molecules in the body that augment the physiological response to exercise.”

Because there are some very important differences in biology between humans and mice there’s a possibility that this treatment may not have the same effect in humans. Nonetheless, the research team plans to follow through with human clinical trials because the results of this experiment were important enough to prompt the research team in doing so.

Sinclair, who is also a professor at the University of New South Wales School of Medical Sciences in Sydney, Australia stated, “the approach stimulates blood vessel growth and boosts stamina and endurance in mice and sets the stage for therapies in humans to address the spectrum of diseases that arise from vascular aging.”

One of the side effects of aging is reduced blood flow and the compromise of oxygenation of organs and tissue because our tiniest blood vessels began to wither and die. Cardiac and neurologic conditions, muscle loss, impaired wound healing and overall frailty, and among other things are the results of vascular aging. As these blood vessels die there’s a loss of blood flow to organs and tissues which causes toxins build-up and a loss of oxygen.

For quite some time scientists have known the essential role that endothelial cells, which line blood vessels, play in the health and growth of blood vessels that supply oxygen-rich and nutrient-loaded blood to organs and tissues. Unfortunately, as with all things on the human body, these endothelial cells age having a detrimental effect on the body. New blood vessels fail to form, blood vessels atrophy, and the overall blood flow to most parts of the body diminishes. This has a powerful impact on muscles, which heavily rely on robust blood supply to function because they’re heavily vascularized.

Typically we exercise in hopes of slowing down sarcopenia, but unfortunately even that doesn’t last forever. Gradually our muscles grow weaker and begin to shrivel as part of the aging process.

What precisely curtails the blood flow and precipitates this unavoidable decline? Why does even exercise lose its protective power to sustain muscle vitality? Is this process reversible? There were some of the leading questions Sinclair and team had.

The Experiment/Results:

Sinclair and his team discovered through a series of experiments that the flow of blood is reduced as endothelial cells start to lose a critical protein known as sirtuin1, or SIRT1. SIRT1 delays aging and extends life in yeast and mice as shown in previous studies.

Research done previously by Sinclair and others has shown that NAD+ boosts the activity of SIRT1. SIRT1 loss is a result of the loss of NAD+, which is a key regulator of protein interactions and DNA repair that was identified more than a century ago. As NAD+ declines with age so does the protein SIRT1.

The results showed that the critical interface that enables the conversation between endothelial cells in the walls of blood vessels and muscle cells is provided by NAD+ and SIRT1.

SIRT1 signaling is activated and generates new capillaries, the tiniest blood vessels in the body that supply oxygen and nutrients to tissues and organs in young mice muscles. As the mice aged, however, the study found that muscle tissue was left nutrient-deprived and oxygen-starved as a result in the diminishment of NAD+ and SIRT1.

The researchers hope that their findings may pave the way to therapeutic advances that hold promise for the millions of older people for whom regular physical activity is not an option.

Abhirup Das, the studies first author, who conducted the work as a post-doctoral fellow in Sinclair’s lab, currently a visiting scholar in genetics at Harvard Medical School and a post-doctoral research fellow at the University of South New Wales School of Medical Sciences, said that “we reasoned that declining NAD+ levels reduce SIRT1 activity and thus interfere with aging mice’s ability to grow new blood vessels.

The researchers then set their sights on the NAD+, which is a critical coenzyme for enzymes that fuel reduction-oxidation reactions, carrying electrons from one reaction to another, and as a cosubstrate for other enzymes such as the sirtuins and poly(adenosine diphosphate-ribose) polymerases.

The scientists used a chemical compound that’s an NAD+ booster called NMN (no not m&m!) which plays a critical role in repairing cellular DNA as well as maintaining cell vitality to test what would happen.

One of the results showed that treatment from NMN caused endothelial cells from humans and mice to have strong growth capacity and reduced cell death.

The team then wondered what would happen to a group of mice that were 20 months old—the rough equivalent of 70 in human years given NMN. After a 2 month time span the results showed that NMN treatment restored the number of blood capillaries and capillary density to those seen in younger mice. Blood flow to the muscles also increased and was significantly higher than blood supply to the muscles seen in same-age mice that didn’t receive NMN.

That wasn’t the most surprising result to the researchers however. What they discovered was that the aging mice showed in comparison to the entreated mice that they regained the capacity to exercise by 56 and 80% more. The untreated mice could only run 240 meters, or 780 feet, on average whereas the mice treated with NMN could run 430 meters, or about 1,400 feet, on average. This treatment could be an answer to humans who have lost the capacity to exercise due to other disabilities or age-related diseases.

The next step for the researchers was to explore methods for boosting the activity of SIRT1. To do this the researchers added a second compound NaHS, sodium hydrosulfide, which is known to be a precursor of SIRT1.

For four weeks a group of mice that were 32-month-old mice—the rough equivalent to 90 in human years—receiving the combo treatment. The results were significant! Not only were the mice able to run longer and faster but they were able to outperform the untreated mice by a longshot. The treated mice ran 1.6 times further than the untreated mice.

Study co-author James Mitchell, associate professor of genetics and complex diseases at the Harvard T. H. Chan School of Public Health stated that “these are really old mice so our finding that the combo treatment doubles their running capacity is nothing short of intriguing.”

This observation underscores the notion that age plays a critical role in the crosstalk between blood vessels and muscles and points to a loss of NAD+ and SIRT1 as the reason behind loss of exercise effectiveness after middle age,” Das said.

One of the ultimate goals for the team is to eventually move forward in developing small-molecule, NMN-based drugs that mimic the effects of exercise—enhanced blood flow and oxygenation of muscles and other tissues. Though they must first replicate their findings first. Such therapies could potentially help with new vessel growth of organs that suffer tissue-damaging loss of blood supply and oxygen, a common scenario in heart attacks and ischemic strokes, the team said.

Harvard Medical School Report

Here’s a full chapter out exploring my novel The Transhumanist Wager as part of a new book out called Ayn Rand and the Posthuman: http://link-springer-com-443.webvpn.jxutcm.edu.cn/…/978-3-3… #transhumanism


In his novel The Transhumanist Wager, Zoltan Istvan recreates certain elements of Ayn Rand’s work, in order to advance an argument for transhumanism. Istvan sees the transhuman…

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My new 45 minute interview out on #transhumanism via Fringe FM:


Zoltan Istvan Gyurko (@zoltan_istvan) is an American transhumanist, journalist, entrepreneur and Libertarian futurist who ran for President of the United States in 2016 to raise awareness for transhumanism. In 2017, Istvan announced his intent to run for Governor of California in the 2018 election as a member of the Libertarian Party – see his website: zoltanistvan.com for more.

Formerly a reporter for the National Geographic Channel, Istvan now writes futurist, transhumanist, libertarian and secular themed articles for major publications including Vice’s Motherboard, Wired, The Huffington Post., TechCrunch and Newsweek. Istvan also regularly appears on television and video channels discussing futurist topics and is one of the world’s most influential transhumanists – believing transhumanism will grow into a mainstream social movement in the next decade.

Istvan is also the author of The Transhumanist Wager, a philosophical science fiction novel.

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Here’s my speech and panel participation from yesterday at the Annual Danish Top Executive Annual Summit via VL-dognet 2018: It was covered by Danish Jyskebank TV. My panel included a minister, an ambassador, a country company head, a television host, and Sophia the Robot. I had a great time at the wonderful event (hosted at a castle), and the Danish people are very nice. The Vice President of the EU spoke a few sessions before me. My solo speech that started my afternoon session was on the future of politics and transhumanism. It’s the first 10 minutes of the video:

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I, for one, still dream of flourishing in the future through advances in science and technology, but hopefully one that addresses societal inequities, retains the richness and diversity of our natural systems and indigenous cultures, rather than the somewhat simple and sterile futures depicted by many science fiction writers and futurists. Timothy Leary liked to remind us to remember our hippie roots, with their celebration of diversity and nature, and I hear him calling us again.


What used to be the province of acid-tripping tie-dye wearers has been co-opted by Silicon Valley—and we must be responsible about how we wield this new reality.

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http://www.thepathmag.com/can-you-actually-hack-your-dna-to-slow-down-aging/

Many technologies / interventions progressing down the development pathways in the coming years — but there are a lot of free, common sense adjustments you can make today: