Lifeboat Foundation: Safeguarding Humanity
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Way cool.

Ideally, injectable or implantable medical devices should not only be small and electrically functional, they should be soft, like the body tissues with which they interact. Scientists from two UChicago labs set out to see if they could design a material with all three of those properties.

The material they came up with, published online June 27, 2016, in Nature Materials, forms the basis of an ingenious light-activated injectable device that could eventually be used to stimulate nerve cells and manipulate the behavior of muscles and organs.

“Most traditional materials for implants are very rigid and bulky, especially if you want to do electrical stimulation,” said Bozhi Tian, an assistant professor in chemistry whose lab collaborated with that of neuroscientist Francisco Bezanilla on the research.

Continue reading “Injectable biomaterial could be used to manipulate organ behavior” | >

DARPA Vector Logo.eps

During a disaster situation, first responders benefit from one thing above anything else: accurate information about the environment that they are about to enter. Having foreknowledge of specific building layouts, the locations of impassable obstacles, fires or chemical spills can often be the only thing between life or death for anyone trapped inside. Currently first responders need to rely on their own experience and observations, or possibly a drone sent in ahead of them sending back an unreliable 2D video feed. Unfortunately neither option is optimal, and sadly many victims in a disaster situation will likely perish before they are discovered or the area is deemed safe enough to be entered.

But a team at the Defense Advanced Research Projects Agency (DARPA) has developed technology that can offer first responders the option of exploring a disaster area without putting themselves in any risk. Virtual Eye is a software system that can capture and transmit video feed and convert it into a real time 3D virtual reality experience. It is made possible by combining cutting-edge 3D imaging software, powerful mobile graphics processing units (GPUs) and the video feed from two cameras, any two cameras. This allows first responders — soldiers, firefighters or anyone really — the option of walking through a real environment like a room, bunker or any enclosed area virtually without needing to physically enter.

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Narrated by actor Edward James Olmos, this video describes one of the body’s critical anti-cancer defences – the telomeres. These caps on the ends of our chromosomes shorten each time a cell divides and, when they become too short, trigger the cell to self-destruct. When a cell grows too rapidly, it and all of its descendants normally suffer this fate. Such growths are sometimes called “pre-cancer”. Since our stem cells need to be able to divide without this constraint in order to replace cells lost across the body, they produce the enzyme telomerase to re-extend their telomeres. Unfortunately, a small number of pre-cancerous cells manage to activate their own copies of the telomerase gene, escaping the limit on their growth. SENS Research Foundation is developing therapies to completely block telomere extension in pre-cancerous cells, ensuring the body’s existing defences can function as intended.

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