Lifeboat Foundation: Safeguarding Humanity
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Category: education – Page 167

If pairing wine with food is an art, then consider this episode a masterpiece. The guys drink their way around town, from donut shops to Thai food in a tattoo parlor.

Weed MARIJUANA Travel Steak Culture Cannabis Munchies meatballs Documentary Hip-Hop seafood Pasta Brooklyn DABBING cooking moonshine duck feast wine rap Queens Tattoos history Italian food NEW YORK CITY Red Hook BBQ Fine Dining Smoking Tattooing friendship concert Thai Food Donuts vice_videos: premiere spirits sauce Natural Wine barbeque food pairings clams chicken parm chiense food carrol gardens.

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Longevity Vision Fund has exited stealth with plans to invest $100 million in startups with aspirations to extend healthy lifespans. The fund, which is linked to the founder of XPrize, will pump the money into biotechs and other longevity startups based around the world in seed to series B rounds.

Sergey Young, the founder of Longevity Vision, unveiled the fund at an event in London this week. Young is the cofounder of Peak State Ventures and an innovation board member at XPrize Foundation, a nonprofit known for running competitions to incentivize advances in fields including suborbital space flight.

At Peak State, Young and his colleagues invest in fields well outside of longevity, including property and education. But Young has established a foothold in the longevity space, leading to him becoming development sponsor of Longevity XPrize and a longevity partner at Bold Capital Partners.

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Almost everything you hear about artificial intelligence today is thanks to deep learning. This category of algorithms works by using statistics to find patterns in data, and it has proved immensely powerful in mimicking human skills such as our ability to see and hear. To a very narrow extent, it can even emulate our ability to reason. These capabilities power Google’s search, Facebook’s news feed, and Netflix’s recommendation engine—and are transforming industries like health care and education.

Our study of 25 years of artificial-intelligence research suggests the era of deep learning is coming to an end.

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There is a noble frontier in the making that is growing internationally at speeds yet to be comprehended. And this frontier goes by the name “Transhumanism,” which is the pursuit to overcome aging and all biological limitations via advanced science and technology. What started as nothing more than a fringe concept among futurist circles has now become a global movement consisting of philosophers, political activists, scientists, and technologists.

But when it comes to Transhumanism here in the United States, there was one particular event in mind that helped introduce this movement into the national dialogue. That event is now famously known as the “Immortality Bus tour,” for which was led by then-presidential candidate Zoltan Istvan, representing the U.S. Transhumanist Party.

In this documentary, then-presidential candidate Zoltan Istvan travels across the country, spreading the word of Transhumanism—for the overcoming of aging using advanced science and technology!

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Monash researchers have unlocked a key process in all human cells that contributes to diseases like cancer and neurodegenerative diseases as well as ageing. The discovery reveals how cells efficiently get rid of cellular junk, which when it accumulates, can trigger death and the health problems associated with getting older.

Autophagy is the ‘clean-up crew’ of the cell—used by cells to break-down debris like broken proteins, bits of cell , viruses or bacteria. To capture this trash, cells use specialised membranes to trap the cargo for recycling into new parts and energy. Without efficient autophagy cells become choked by their own damaged components, which can contribute to the development of a range of diseases, including diabetes, muscular dystrophy, Parkinson’s and Alzheimer’s disease.

Dr. Michael Lazarou’s laboratory from the Monash Biomedicine Discovery Institute have today published data in Nature Communications that debunks previously held beliefs about how cells target their trash. Cells target different types of cargo by using ‘autophagy receptors’, which can bind the cargo as well as the ensnaring membranes. Until recently these autophagy receptors were thought to recruit the membranes to the cargo, but research led by Dr. Benjamin Padman from the Lazarou lab now shows that this is not the case.

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  • In an age where innovative technologies like gene and cell therapy are transforming how we think about medical treatments, some CEOs are wondering what’s being left on the table.
  • Business Insider spoke to three companies developing new uses for old drugs, and they told us now might be a good time to rethink what we consider innovation.
  • Simply changing how drugs are dosed or delivered could open up the doors to more uses for existing medications in tough-to-treat conditions like female sexual arousal dysfunction or antibiotic-resistant infections.

The key to tackling hard-to-treat diseases could have less to do with flashy new technologies than with finding new uses for old drugs.

A range of smaller drugmakers are exploring the back catalogs of big pharma companies to discover old drugs that could be used in new ways, they told Business Insider. They’re seeking treatments for conditions including a rare lung disease, antibiotic-resistant infections, and female sexual arousal disorder. Along the way, they’re seeking to redefine what we think of as medical innovation.

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According to the World Health Organisation, up to a half-million people around the world suffer a spinal cord injury each year. Often caused by road traffic crashes, accidents or violence, the loss of motor control or paralysis significantly impacts quality of life and requires years of treatment and care. Spinal cord injury is also associated with lower rates of school enrollment and economic participation, and carries substantial individual and societal costs.

Current methods for spinal cord injury treatment involve cumbersome brain-machine interfaces, with many cables linking the patient and a computer to restore limited motor functions. Other methods to map , such as magnetoencephalography, require very large machinery and particularly low-temperature working conditions.

To improve the quality of life of those suffering a spinal cord injury, ByAxon is bringing together a consortium of researchers from across Europe (Spain, Italy, France and Germany) to devise a new generation of spinal cord treatments. The four-year project started in January 2017 and is seeking to create implants that restore sensory functions.

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