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Jul 2, 2019
Ai Can Write Its Own Computer Program
Posted by Quinn Sena in categories: materials, robotics/AI
For many, it’s the material of nightmares: machines capable of continuously refining themselves. What if they turn malevolent? Will they enslave humanity? Fortunately, given the current status of machine learning research, we will not have to worry about such a scenario for quite some time.
Jul 2, 2019
Mind-Uploading: The Impending Meta-System Transition of Humanity
Posted by Quinn Sena in categories: biological, engineering, genetics, nanotechnology, neuroscience
The most probable mainstream non-invasive way to transfer human consciousness in the intermediate future, with initial stages in the 2030s, could be the convergence of optogenetics, nanotechnologies, neuroengineering, Cloud exocortex and an array of neurotechnologies allowing to connect our wetware directly to the Cloud.
Initially, each of us will have a personal exocortex in the Cloud, the third non-biological “de-cerebral” hemisphere, which will be in constant communication with the other two biological brain hemispheres.
At some point, this “third hemisphere,” will have a threshold information content and intimate knowledge of your biology, personality and other physical world attributes in order to seamlessly integrate with your persona as a holistic entity.
Jul 2, 2019
Soon, satellites will be able to watch you everywhere all the time
Posted by Quinn Sena in category: satellites
Jul 2, 2019
The Rejuvenation Market in Singapore
Posted by Steve Hill in categories: biotech/medical, economics, finance, government, life extension
With its growing aging population, Singapore has a looming crisis, but could also be primed to become a major player in the rejuvenation biotechnology industry.
Singapore has one of the fastest-aging populations in the world. Senior citizens 65 years old or older are expected to make up almost half of Singapore’s population by 2050. Unfortunately, this swelling population is spending more time living with sickness, even though they live longer. While average lifespans have been extended, healthspans have not. [1] Singaporeans have an impressive average life expectancy of 84.8 years, but an average Singaporean born in 2017 is predicted to spend the last ten and a half years in sickness, compared to how a Singaporean born in 1999 is likely to spend only nine twilight years in deteriorating health.
This is becoming a massive concern for the Singaporean government because of the financial strain that this is imposing on Singapore’s budget. Having the world’s second-lowest birth rate coupled with a rapidly aging population means that the ratio of working adults to senior citizens is quickly shrinking. In 2007, there were 6.9 working adults for every senior citizen. By 2030, there will be 2.3 working adults per senior citizen.
Jul 2, 2019
The cryonics dilemma: will deep-frozen bodies be fit for new life?
Posted by Paul Battista in categories: cryonics, life extension, neuroscience
350 corpses stored in liquid nitrogen await immortality. But detractors say the brain’s complexity is a major stumbling block.
Jul 2, 2019
21CM Cryopreservation Eval Page Foundation
Posted by Paul Battista in categories: biotech/medical, cryonics, life extension, neuroscience
21st Century Medicine (21CM) is a cryobiology research company whose core mission is to develop a cryopreservation protocol sufficiently benign that whole, donated human organs could be vitrified (stored below −130 degrees Celsius without ice formation) and rewarmed when needed for transplantation –an incredibly ambitious goal that has so far eluded medical researchers. 21CM’s scientists are the original pioneers of whole organ vitrification and have been diligently working on the technique for decades. A significant milestone of their progress toward that goal is their demonstration work on rabbit kidneys. Two of their most relevant publications are “Cryopreservation of organs by vitrification: perspectives and recent advances” (Fahy, Wowk, Wu, Phan, Rasch, Chang & Zendejas 2004) and “Physical and biological aspects of renal vitrification” (Fahy, Wowk, Pagotan, Chang, Phan, Thomson & Phan 2009). These papers are a fantastic resource for anyone interested in just how difficult it is to cryopreserve large organs (and by extension whole animals) for long-term storage with the intent on later recovery of biological function. In short, it is incredibly difficult but progress is slowly being made.
The state-of-the-art whole organ vitrification techniques developed by 21CM are the basis of the human cryopreservation protocols used by some cryonics companies (e.g. Alcor). This is made clear in Alcor’s 2004 publication in the New York Academy of Sciences “The Arrest of Biological Time as a Bridge to Engineered Negligible Senescence” (Lemler, Harris, Platt & Huffman 2004).
Continue reading “21CM Cryopreservation Eval Page Foundation” »
Jul 2, 2019
A genetic “cheat code” that activates dormant DNA
Posted by Quinn Sena in categories: biotech/medical, genetics
Circa 2011
Scientists have found a gene that can ‘lock’ and ‘unlock’ certain sections of your genetic code, allowing other genes to be expressed in your body. If you are under enough stress, this gene springs into action.
So you think you have access to all your DNA just by being born? Think again. You have to earn it, people. You have to work to get there. You have to suffer. Epigeneticists have proved this to be so, but they also might have a cheat code.
Jul 2, 2019
First life with ‘alien’ DNA
Posted by Quinn Sena in categories: bioengineering, biotech/medical, genetics
Circa 2014
An engineered bacterium is able to copy DNA that contains unnatural genetic letters.
Jul 2, 2019
MIT’s Nano-Magnets Can Clean Up Oil Spills
Posted by Quinn Sena in categories: government, nanotechnology, robotics/AI, sustainability
Oil spill cleanup technology is a surprisingly innovative field—we learned as much in the wake of the BP Gulf disaster, when everyone from conservation biologists to barbers to Kevin Costner rushed to sell the government on their wild, sometimes literally hairy oil-sucking solutions. We had rubber goop that turned oil solid, massive bags of hair, and MIT’s previous entry into the cleanup fray, robotic oil-eating submarines.
But now the renowned science lab has a better idea: nano-magnets.
MIT researchers have developed a new technique for magnetically separating oil and water that could be used to clean up oil spills. They believe that, with their technique, the oil could be recovered for use, offsetting much of the cost of cleanup.