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What Is Venturism & How Does It Interact With Cryonics?

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Death has always been humanity’s greatest enemy. For centuries, we’ve fought it with medicine, technology, and sheer willpower. Yet, it always wins.

Every week you will read how people have gone to extreme lengths to try and achieve increased longevity. But what if death doesn’t have to be the end? What if it’s just a problem waiting for the right solution?

Venturism is a philosophy built on the simple idea that death doesn’t have to be permanent. It’s the hope that through science, technology, a lot of money and a little optimism, life can be preserved and maybe some day, restored.

At the heart of Venturism is cryonics. It’s the practice of preserving the body (or just the brain) at ultra-low temperatures after death. Great news for me as my body is trash!

While the idea of cryonics may sound like science fiction on its own, Venturism gives it a deeper purpose – a moral responsibility to preserve life for a better future.

So, let’s explore what Venturism is, define its core principles, and explain why cryonics is the most logical step toward achieving its ambitious (some would say ridiculous) goals.

A Deeper Explanation Of Venturism

Venturism focuses on extending and preserving human life. It rejects the idea that death is inevitable and instead sees it as a challenge, and one that can be solved with the right tools, mindset, and effort.

The term Venturism comes from the word “venture,” reflecting its forward-looking, optimistic approach to life. It’s about taking risks, embracing possibilities, and never settling for the status quo.

As you can see, while the roots of Venturism are quite generic to the expansion of human existence, it can quite specifically relate to the cryonics movement.

Venturists believe it’s not just possible to fight (and maybe beat) death, but that it is necessary. If life can somehow be preserved and enhanced, then we have a duty to do just that, which is where Venturism and cryonics meet.

The Core Principles of Venturism

Venturism is guided by four core principles. These principles give it both a philosophical foundation and a practical roadmap for action:

  1. The ethical duty to preserve life

For Venturists, life is the highest value. It’s not just something to be enjoyed or appreciated, it’s something to be protected as the overall goal. Preserving life, even after legal death, is a moral obligation.

The key idea behind all this, the central principle is this: if we have the tools to save a life, we should use them.

Cryonics is one of those tools. It’s not a guarantee of revival, but it offers a chance that future technology could restore the life that would otherwise be lost forever. For Venturists, not using that chance would be unethical.

  1. Technological Optimism

Ventureim is built on a deep faith in science and technology. It recognizes that humanity has consistently pushed the boundaries of what’s possible, from curing diseases to landing on the moon. The future holds even greater potential.

Venturists believe that technologies like nanotechnology, artificial intelligence, and regenerative medicine will one day allow us to repair the damage caused by aging, disease, and even death.

Cryonics fits perfectly into that group’s vision. By preserving the body and brain today, we give future scientists the opportunity to restore life tomorrow.

For me, you see echoes of this mindset in popular culture and beyond. For example, the book and film “The Da Vinci Code”, touches on the topic of the illuminati, a group of enlightened individuals who fought against the cult of God and argued for scientific progress instead.

Venturism is evidently the same idea. It’s based on science to the exclusion of all else, with a specific focus not just on the process, but the single goal of extending the life and the possibilities of doing so.

  1. Death as a Process, Not an Event

Traditional views of death see it as a final, irreversible event. Once the heart stops beating and the brain shuts down, that’s it.

But Venturists see death differently.  They embrace the concept of something referred to as ‘information-theoretic death’. This idea says that death is only final when the brain’s structure and the information it holds is destroyed beyond repair. As long as the brain can be preserved, the person isn’t truly dead.

Again, we see this in popular culture. We have all seen programmes and films, where brains have been preserved long after the body has died. Extracted and rebooted, they are sentient and can interact through electronic voices.

Stepping back again in popular culture, look at Mary Shelley’s Frankenstein. It’s reconstructed life after death, it’s a form of rebirth linked to the idea of cryonics.

Cryonics is what potentially makes this preservation potentially possible in reality. By cooling the body and using cryoprotectants to prevent cellular damage, cryonics keeps the brain’s structure intact. This means the memories, personality, and identity of a person could still be recovered in the future.

For Venturists, cryonics isn’t about freezing a corpse it’s about preserving the self for later resurrection.

  1. A Vision for the Future

Venturism is inherently optimistic. It imagines a future where death is no longer inevitable. Instead, it’s a future where diseases are cured, aging is reversed, and life can be extended indefinitely.

This isn’t just wishful thinking. The pace of scientific progress makes it a real possibility. Technologies that once seemed impossible, such as organ transplants, vaccines, artificial intelligence, are now everyday realities. Cryonics is just the next step.

Just look at the incredible advances of AI in the past three years, since the pandemic. Everyone can now use AI chat in a way that was not possible, and although basic, these are semi-thinking and semi-sentient digital organisms.

Imagine what will be possible in three decades rather than three years.

How Venturism And Cryonics Are Interconnected

Cryonics is the practical application of Venturism’s principles. It’s the tool that turns the philosophy into a structured action.

This is where they overlap and connect:

  1. Preserving Life in the Present

Venturism’s ethical duty to preserve life aligns perfectly with cryonics. When someone is declared legally dead, their life doesn’t have to end. Cryonics offers a way to preserve the body and brain until science finds a solution.

It’s not about creating false hope, it’s about seizing an opportunity. As Venturists see it, a small chance of revival is better than no chance at all (although, like me, I’m sure a lot of people would be slightly concerned by the idea of waking up in 200 years – forced upon you – into a world and situation you have no control over, knowledge of, or ability to change your situation).

  1. Technological Hope

Cryonics depends on future advancements in science and technology. Venturists believe that these advancements are inevitable. Whether it’s nanobots repairing cells at the molecular level or AI-driven medical breakthroughs (which are already happening), the tools to restore life are definitely coming.

By choosing cryonics, Venturists are betting on the future and they believe it’s a bet worth taking.

  1. Redefining Death

Cryonics preserves the brain’s structure, keeping the information of the self intact. This aligns with Venturism’s belief that death is a process, not an event. The idea is simple: if the brain can be preserved, the person can be restored. Cryonics makes this preservation possible, turning Venturism’s philosophy into a tangible reality.

Preserving the brain isn’t such a far-fetched fantasy. The latest research has found that in some instances, the brain still shows activity several hours after death.

That’s both incredible, hopeful, and terrifying all rolled into one. It brings forward the possibility that after the body has died, the person in the brain is still conscious and thinking for some time, maybe even aware that they are dead.

But whatever the real situation, it shows that the brain and the body in some ways already naturally, are not the same, they can be uncoupled and separated and the brain still functions.

  1. A Community of Support

Venturism isn’t just an abstract philosophy, it’s a community. Organizations like the Society for Venturism actively support cryonics patients and their families. They provide resources, advocacy, and even financial assistance for those who want to pursue cryonics but can’t afford it.

This community reflects Venturism’s core belief: preserving life is a shared responsibility.

Addressing The Critics

Of course, cryonics and Venturism have their critics. Some call it science fiction. Others see it as a futile or even unethical pursuit. But Venturists have answers to these concerns, although whether you agree with them or see it as an elitist justification for rich people pursuing a future life is another topic.

  • Many technologies started as speculation. Flight, organ transplants, and artificial intelligence were once considered impossible. Progress begins with possibilities.
  • Venturists argue that preserving life is a moral responsibility. If we have the tools to fight death, why wouldn’t we use them?
  • While cryonics can be expensive, Venturist organizations work to make it more accessible. They believe everyone deserves the chance to preserve their life, regardless of financial status.

Venturism doesn’t claim to have all the answers. But it offers a perspective and a path that challenges us to rethink what’s possible.

So How Does Venturism In Practice

Ventureism isn’t just a set of ideas—it’s a philosophy in action. Here’s what that looks like in easy to understand terms:

  1. Community Support – Venturist organizations provide emotional and practical support for cryonics patients and their families.
  2. Advocacy – Venturists raise awareness about cryonics and life-extension technologies

Overall, this is where sites and organisations like this one come into play. I hope this outline has been helpful to you on where these two crucial topics relating to the future of humanity overlap and unite.

Cryonics: The Hopeful Gamble of Life After Death?

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Imagine a future where death isn’t the end. A future where medical breakthroughs revive those frozen in time to live again. This isn’t just science fiction – it’s the promise of cryonics. While controversial and unproven, cryonics has captured imaginations and sparked debates about life, death, and the ethical use of technology.

So, what exactly is cryonics? And how does it differ from cryogenics, the established science of utilising freezing temperatures?

It’s a topic that has always fascinated me. So, I’m writing here to give you an overview and highlight some confusion around it.

Cryonics vs. Cryogenics: Clearing Up The Confusion

Let’s get one thing straight: cryonics and cryogenics are not the same. The confusion often stems from their shared root word, “cryo,” which means cold. While both involve extreme cold, their purposes and scientific foundations are worlds apart.

Cryogenics is the science of producing and studying extremely low temperatures, usually below -150°C (-238°F). It’s a well-established field with practical applications. Think liquid nitrogen for preserving biological samples, superconductors in MRI machines, or cooling rocket fuels for space exploration. It’s well-established and most people know about it, even if they don’t relate the topic to the word cryogenics.

Cryonics, on the other hand, purely speculative. It links to cryogenics in that the fundamental centre of its theory is around using low temperatures to freeze a person in that moment. It focuses on preserving human (or animal) bodies after legal death in the hope that future science will revive them.

So, while cryonics depends on cryogenics for freezing and storage, it’s more like a gamble on what the future might achieve. Unlike cryogenics, which is rooted in proven science, cryonics ventures into uncharted and highly debated territory.

How Does Cryonics Work?

The idea behind cryonics is simple – to preserve the body at a low enough temperatures to halt decay, and then wait for a time when advanced technologies can bring it back to life. Although that simple statement sounds, well simple, it’s actually incredibly difficult to achieve (and impossibly so at the moment).

Here’s how it theoretically could work:

Step 1: Declaring Legal Death

Cryonics can only begin once a person is declared legally dead. This means not only that their heart has stopped, but also that their brain cells are still viable for a short time. Timing is critical. The sooner the process begins, the better the chances of preserving the brain’s structure and information.

Step 2: Rapid Cooling

Immediately after death, the body is cooled with ice to slow decomposition. Blood is removed and replaced with a cryoprotectant solution, basically an antifreeze-like substance that will prevent ice crystals from forming inside cells. Without this step, ice crystals would rupture cell membranes, causing irreversible damage.

This process is called vitrification. Instead of turning into ice, the body’s fluids solidify into a glass-like state, minimizing damage during freezing.

Step 3: Long-Term Storage

Once vitrified, the body is cooled further, eventually reaching a minimum of -196°C (-320°F), and stored in large tanks filled with liquid nitrogen. These tanks are designed to keep bodies in a stable, cryogenic state for potentially an indefinite period of time.

And that’s where the story pauses. There’s currently no way to revive a body from this state, but proponents of cryonics believe that’s a problem for future scientists to solve.

If that all sounds like hope and science fiction, well at the moment, it basically is – although the theories are sound.

In summary:

  • Cryonics is rooted in science
  • It’s currently purely speculative
  • No human has ever been through the process
  • We don’t know if revival is possible
  • If the brain or body can be revived then what will it look like?

The Science And Challenges Of Cryonics

Cryonics sounds promising, but it’s fraught with challenges—scientific, ethical, and practical.

  1. Scientific Hurdles

The biggest issue is that freezing causes damage, even with cryoprotectants. Cells and tissues can still suffer from cracks or even chemical toxicity. More importantly, reviving a body isn’t just about thawing it out. The process would require repairing cellular damage, restoring brain function, and curing whatever caused death in the first place. In short, it’s a massive process that requires scientific and medical abilities we are hundreds of years away from developing.

  1. No Revival Yet

To date, no human or animal has been successfully revived after being cryopreserved. Cryonics relies on speculative future technologies, such as nanotechnology, to repair and rejuvenate the body’s cells. While nanotechnology is advancing rapidly, especially with the growth of AI, it’s far from capable of such feats.

  1. Energy and Cost

Maintaining bodies at cryogenic temperatures requires a constant supply of liquid nitrogen and energy. This makes cryonics both resource-intensive and expensive. Preserving a single body can cost tens or even hundreds of thousands of dollars. In any foreseeable future, this is purely a rich person’s dream, in the same way that private space travel is.

  1. Unanswered Questions

Even if revival becomes possible, there are just so many unknowns. Will a revived person retain their memories and personality? How will society handle an influx of people from the past? In what form will these people be maintained, or can function? These questions remain purely speculative.

The Ethical and Philosophical Debate

Cryonics doesn’t just raise scientific challenges – it also dives deep into ethical and philosophical waters. Here are some of the key debates:

  1. Hope or Exploitation?

Supporters see cryonics as a beacon of hope, a great shining light in the future that is offering a second chance at life. Critics argue that it exploits people’s fear of death, offering false promises without scientific backing. Is it ethical to charge people for something that’s far from guaranteed?

  1. Defining Death

Cryonics challenges our understanding of death. If future technology can reverse the damage caused by freezing, does that mean death is no longer permanent? And if so, when does death truly “end”? We already have become recently aware that the brain can function for many hours after the body is believed to be dead, so what does this further pushing of that limit do?

  1. Religious and Societal Views

Many religious and cultural traditions view death as a natural or spiritual transition, not something to be reversed. Cryonics’ attempt to cheat death can clash with these beliefs, sparking resistance or scepticism. In the long run though, should it become viable, then religious scepticism will vanish as people overwhelmingly seek the potential for a second life and therefore reject the entire theory of religion and the spirit passing on as provably false.

The Current State of Cryonics

While still incredibly niche, cryonics is gaining traction. Several companies and organizations offer cryonics services, including:

  • Alcor Life Extension Foundation: Based in Arizona, Alcor is one of the most well-known cryonics organizations. They’ve preserved over 190 people as of today.
  • Cryonics Institute: Located in Michigan, they offer more affordable cryopreservation services.
  • KrioRus: A Russian organization offering cryonics services for humans and pets.

Globally, only a few hundred people have chosen cryonics so far, though these companies report that tens of thousands have signed up for potential future preservation. High costs and scepticism will keep it out of reach for most though.

Why Do People Choose Cryonics?

Cryonics appeals to a specific mindset, although that mindset could be argued to exist in all of us to some degree.

Here are the main reasons people choose it:

  1. Fear of death

For many, cryonics offers hope in the face of mortality. The idea of extending life, even by centuries, is enough to convince some to take the leap.

  1. Belief in future technology

Cryonics attracts optimists who trust in scientific progress. They believe technologies like nanotechnology, artificial intelligence, and advanced medicine will one day solve the problems of revival. These are themes being pushed hard right now by people like Elon musk in relation to AI and space travel, increasingly placing the discussion out in the open.

  1. A leap of faith

Ultimately, cryonics is a gamble. For those who can afford it, the cost may seem worth the chance, however small, of a second life. But what would that life look like and when would it happen?

The Speculative Future Of Cryonics

What would it take to make cryonics work? The answer lies in breakthroughs across multiple fields. At the moment just by glancing at the following, you can see that it’s massively out of reach in any near term, or medium term, realistic future.

Nanotechnology

Proponents envision molecular machines capable of repairing cells and tissues at the atomic level. These machines could potentially reverse freezing damage, cure diseases, and even rejuvenate aging bodies.

Artificial Intelligence

AI could play a critical role in mapping and restoring neural connections in the brain. This would be key to preserving memories and personality. However, even the accessibility of AI, people are still incredibly sceptical of it and it’s proven to be unreliable for even basic tasks.

Medical Advances

Future medicine might eliminate diseases that are currently incurable, making it possible to restore health to those preserved today.

Societal Challenges

Even if revival becomes possible, practical concerns remain. How will society reintegrate people from the past? Will they have legal rights? What about overpopulation? What happens if the body can’t be saved but the brain can.

A Futuristic Gamble Worth Betting On?

Cryonics is not cryogenics. While it uses proven cryogenic technologies for preservation, its ultimate goal of reviving the dead is purely speculative. No one knows if it will work, when it might be possible, or what it might cost society.

We also have to consider who might come back. Imagine if Hitler was resurrected, or in a thousand years, Stalin or Putin were? It’s not just bringing people back that is the issue, it’s about who we bring back. Who decides who is good and who is bad?

Yet, for some, the promise of cryonics is worth the gamble. It’s a leap of faith rooted in the hope that death may not be the final chapter. Whether it’s a bold step toward the future or a costly illusion, only time will tell.

For now, cryonics remains a fascinating intersection of science, philosophy, and human curiosity. One thing is certain: it keeps the dream of life alive, even in the face of death, which to some is compelling and comforting.