Lifeboat Foundation: Safeguarding Humanity
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Category: biotech/medical – Page 2804

The US military is looking for ways to insert microscopic devices into human brains to help folks communicate with machines, like prosthetic limbs, with their minds. And now, DARPA’s saying scientists have found a way to do just that—without ripping open patients’ skulls.

In the DARPA-funded study, researchers at the University of Melbourne have developed a device that could help people use their brains to control machines. These machines might include technology that helps patients control physical disabilities or neurological disorders. The results were published in the journal Nature Biotechnology.

In the study, the team inserted a paperclip-sized object into the motor cortexes of sheep. (That’s the part of the brain that oversees voluntary movement.) The device is a twist on traditional stents, those teeny tiny tubes that surgeons stick in vessels to improve blood flow.

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Great story; I hope it helps many talented game developers realize what you mean to kids; and especially those children who fight cancer.

A lot of people are coming together right now to help a teenager who is fighting cancer in a local hospital. It’s not just his family or doctors and nurses either. Complete strangers are giving their all to help him accomplish his high-tech dream.

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A team of researchers from Germany have developed what could become a revolutionary treatment for male infertility — they build spermbots. The key is a tiny metal helix that attaches to individual sperm cells, allowing them to move more effectively. You can think of it like a prosthetic tail for sperm.

Male fertility issues are usually not related to having an unusually low sperm count, but to having sperm with low motility. That is, they don’t get around very well. Each sperm has a copy of half of a man’s genome in the “head” portion. The tail is actually a flagella with banks of energy-producing mitochondria to power its movement. If either the tail or power source don’t work correctly, a sperm cell will have trouble reaching and fertilizing an egg.

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A new method of closing wounds has been discovered by researchers from University of St. Andrews and Harvard Medical School.

In the future, your wounds might not be closed by stitches or staples. Instead, they will be fixed with lasers.

Rose Bengal Dye, a common dye used by optometrists, can be used in tandem with a laser to suture wounds; however, notably, the dye will only go as deep as the laser does, which makes it somewhat less than effective for wounds that penetrate many layers of skin, but it does eliminate the need for staples and traditional sutures or stitching in relation to a number of different injuries.

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Cool new story and video on transhumanism:

SANTA CLARA (CBS SF) –During Super Bowl 50, the world saw the Denver Broncos throttle the Carolina Panthers. The game’s MVP Von Miller dominated Cam Newton in a display of super human strength and skill.

You may not know it, but a growing number of engineers, biohackers and entrepreneurs hopes one day we’ll all be super human as well.

A bionic eye may not that far away.

Continue reading “Engineers, Entrepreneurs Hoping To Re-Engineer Humans For Skill, Strength” | >

A DARPA-funded research team has created a novel neural-recording device that can be implanted into the brain through blood vessels, reducing the need for invasive surgery and the risks associated with breaching the blood-brain barrier. The technology was developed under DARPA’s Reliable Neural-Interface Technology (RE-NET) program, and offers new potential for safely expanding the use of brain-machine interfaces (BMIs) to treat physical disabilities and neurological disorders.

In an article published in Nature Biotechnology, researchers in the Vascular Bionics Laboratory at the University of Melbourne led by neurologist Thomas Oxley, M.D., describe proof-of-concept results from a study conducted in sheep that demonstrate high-fidelity measurements taken from the motor cortex—the region of the brain responsible for controlling voluntary movement—using a novel device the size of a small paperclip.

This new device, which Oxley’s team dubbed the “stentrode,” was adapted from off-the-shelf stent technology—a familiar therapeutic tool for clearing and repairing blood vessels—to include an array of electrodes. The researchers also addressed the dual challenge of making the device flexible enough to safely pass through curving blood vessels, yet stiff enough that the array can emerge from the delivery tube at its destination.

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