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Category: biotech/medical

Memory loss is a truly devastating part of dementia, but this invention aims to fix that by bypassing the damage, and repairing long term memory.

Alzheimer’s and dementia are complex diseases, and there’s currently no effective treatment. Given the unpleasant nature of the disease, there’s an urgent need for results. Instead of taking the usual biological route, one team has constructed a prosthetic made up of a small electrode array — which can help re-encode short term memory into long term.

Built using decades of research, the device operates using a new algorithm based on accumulated neural data. New sensory information is normally translated into a quick memory and transported as an electrical signal through the hippocampus, potentially for long term storage. If this region is damaged then the process is disturbed, and new experiences fail to be encoded. Alzheimer’s patients can often remember childhood events, but struggle with recent experiences; specifically because of this hippocampal damage.

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My new and first article for The Daily Dot. It’s about transhumanism and the Immortality Bus tour:

BY ZOLTAN ISTVAN

Even though I was born after the 1960s, I’ve always been fascinated with that era. Some people credit Ken Kesey’s cross country bus trip aboard colorfully painted “Further” as helping to create a generation of hippies. Of course, my Immortality Bus (shaped to look like a coffin) wants to stir up the national consciousness as well, aiming to usher in its own cultural shift. Whereas the ‘60s were about peace, love, drugs, and sex, I believe the next decade will be about virtual reality, implants, transhumanism, and overcoming death with science. For futurists like myself, that’s quite an intoxicating mix.

The fact is that a lot of radical tech, science, and medicine are already here in America. Consider that today the paralyzed can walk via exoskeleton suits, the blind can see via bionic eyes, and the limbless can grab a bottle of water and drink with artificial limbs that connect to their nervous system. Additionally, lifespans are increasing for people all around the planet. Science is rapidly making the world a better place, and it’s starting to eliminate suffering and hardship for billions of people.

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“Dr Brouchkov, the head of the Geocryology Department at Moscow State University, first injected himself with the bacteria two years ago.

He claims he has not had flu since, and that he has also been able to work harder and longer without getting tired.”

A RUSSIAN scientist claims he has cracked the secret of ETERNAL LIFE after injecting himself with primordial GERMS.

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Could discovering how neural stem cells protect themselves from damage lead to treatment that helps combat aging?

We now know that stem cells in the brain do in fact divide, and that this regenerative capacity begins to falter with age. The majority of our cells don’t divide, and the bulk of division falls to stem cell niches dotted across our body. Stem cell populations do age, but they’re more resistant than ‘normal’ cells are, and they produce higher levels of telomerase — enabling them to divide for years.

How do brain stem cells remain free of damage?

Neural stem cells aren’t perfectly protected from aging, but they’re generally a hardier bunch. Scientists from the University of Zurich have now discovered that part of this aging resistance in neural stem cells is due to a ‘diffusion barrier’. When they divide, these cells produce a barrier which filters out damaged proteins to one side, allowing the new cell to be damage-free.

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As implants and bio-hacking gain popularity, could tweaking the body’s circuits become a mainstay in future medicine?

Bioelectronics offer everything from precise diabetes treatment to appetite reduction. In a world where most of us have a phone glued to our hand at all times, combining ‘wetware’ with hardware is starting to make real sense.

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BioViva USA, Inc. has become the first company to treat a person with gene therapy to reverse biological aging, using a combination of two therapies developed and applied outside the United States of America. Testing and research on these therapies is continuing in BioViva’s affiliated labs worldwide.

BioViva CEO Elizabeth Parrish announced Biobthat the subject is doing well and has resumed regular activities. Preliminary results will be evaluated at 5 and 8 months with full outcome expected at 12 months. The patient will then be monitored every year for 8 years.

Gene therapy allows doctors to treat disease at the cellular level by inserting a gene into a patient’s cells instead of using the regular modalities of oral drugs or surgery. BioViva is testing several approaches to age reversal, including using gene therapy to introduce genes into the body.

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Scientists funded by the NIH BRAIN Initiative hope to diagram all of the circuits in the brain. One group will attempt to identify all of the connections among the retina’s ganglion cells (red), which transmit visual information from bipolar cells (green) and photoreceptors (purple) to the brain. (credit: Josh Morgan, Ph. D. and Rachel Wong, Ph. D./University of Washington)

The National Institutes of Health and the Kavli Foundation separately announced today (Oct. 1, 2015) commitments totaling $185 million in new funds supporting the BRAIN Initiative — research aimed at deepening our understanding of the brain and brain-related disorders, such as traumatic brain injuries (TBI), Alzheimer’s disease, and Parkinson’s disease.

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The word on every tech executive’s mouth today is data. Curse or blessing, there’s so much data lying around – with about 2.5 quintillion bytes of data added each day – that it’s become increasingly difficult to make sense of it in a meaningful way. There’s a solution to the big data problem, though: machine learning algorithms that get fed countless variables and spot patterns otherwise oblivious to humans. Researchers have already made use of machine learning to solve challenges in medicine, cosmology and, most recently, crime. Tech giant Hitachi, for instance, developed a machine learning interface reminiscent of Philip K. Dick’s Minority Report that can predict when, where and possibly who might commit a crime before it happens.

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