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Category: neuroscience – Page 1,288

Synapses in the brain mirror the structure of the visual world

The research team of Prof. Sonja Hofer at the Biozentrum, University of Basel, has discovered why our brain might be so good at perceiving edges and contours. Neurons that respond to different parts of elongated edges are connected and thus exchange information. This can make it easier for the brain to identify contours of objects. The results of the study are now published in the journal Nature.

Individual visual stimuli are not processed independently by our brain. Rather neurons exchange incoming information to form a coherent perceptual image from the myriad of visual details impinging on our eyes. How our visual perception arises from these interactions is still unclear. This is partly due to the fact that we still know relatively little about the rules that determine which neurons in the brain are connected to each other, and what information they exchange. The research team of Prof. Sonja Hofer at the Biozentrum, University Basel studies neuronal networks in the brain. She has now investigated in the mouse model what information individual neurons in the visual cortex receive from other neurons about the wider .

How to hack your gut to ward off Parkinson’s and obesity

The wonder of your gut: Experts explain why a healthy digestive system can trigger weight loss, fight depression, and ward off Parkinson’s.

  • Jasenka Zubcevic works in Physiological Sciences, and Christopher Martynuik in Toxicology at the University of Florida
  • They have been investigating how gut bacteria affect all other body parts
  • Here they explain everything we know thus far about the gut

By Jasenka Zubcevic and Christopher Martynuik For The Conversation

Reprogramming Cells to Seek and Destroy Brain Cancer

A new therapy for brain cancer.

A new type of cell that can seek and destroy brain cancer and then dispose of themselves has just been successfully tested in mice. The cells are able to home in on brain tumors and reduce them to between 2 to 5% of their original size[1].

This new approach could potentially give doctors a new weapon against aggressive cancers like brain cancer (glioblastoma), which normally kills in 12–15 months.

Interestingly, it only took the researchers four days to create and deploy these cells in the mice, which is an amazing accomplishment.

Biosensors could give soldiers superhuman fighting abilities

According to the report, the US Air Force, Marine Corps, Navy and other special forces are looking to improve troops’ performance by looking at their bodies at a genetic level (stock)

Earlier this year the AirForce successfully tested a helmet that can monitor brain activity and tell if the pilot is feeling stressed or panicked.

One research project is using a laptop-camera lens to find out if a person’s haemoglobin is oxygenated. This can then be used to work out a person’s heart rate.

Prototype exoskeleton suit would improve Soldiers’ physical, mental performance

ABERDEEN PROVING GROUND, Md. — Thanks to a new “suit” being developed by the DOD-funded Warrior Web program, future Soldiers will be able to march longer, carry heavier gear and improve mental sharpness.

The suit has pulleys and gears designed to prevent and reduce musculoskeletal injuries caused by the dynamic events typically experienced in the Warfighter’s environment.

Scientists and engineers from the U.S. Army Research Laboratory have been testing variations of the suit for more than three years at the Soldier Performance and Equipment Advanced Research, or SPEAR, facility at Aberdeen Proving Ground.

US military reveals ‘Matrix’ projects to plug brains into a computer

US military reveals $65m funding for ‘Matrix’ projects to plug human brains directly into a computer…

The US military has revealed $65 of funding for a programme to develop a ‘brain chip’ allowing humans to simply plug into a computer.

They say the system could give soldiers supersenses and even help treat people with blindness, paralysis and speech disorders.

The goal is ‘developing an implantable system able to provide precision communication between the brain and the digital world,’ DARPA officials said.

U.S. Department of Defense Has Enlisted Six Teams to Develop New Brain-Computer-Interface Technologies

DARPA’s quest for high-bandwidth brain-computer interfaces (BCIs) has a new partner in Paradromics, which will be leading one of the agency’s six BCI-development consortia. This is just one of the projects working to develop a breakthrough BCI right now.

The U.S. Department of Defense has created six consortia to develop brain-computer interface (BCIs) technologies and is backing them up with a $65 million investment. On July 10, the Department chose Paradromics Inc., and neural interface company, to lead one of the six groups.

Rice team developing flat microscope for the brain

HOUSTON – (July 12, 2017) – Rice University engineers are building a flat microscope, called FlatScope TM, and developing software that can decode and trigger neurons on the surface of the brain.

Their goal as part of a new government initiative is to provide an alternate path for sight and sound to be delivered directly to the brain.

The project is part of a $65 million effort announced this week by the federal Defense Advanced Research Projects Agency (DARPA) to develop a high-resolution neural interface. Among many long-term goals, the Neural Engineering System Design (NESD) program hopes to compensate for a person’s loss of vision or hearing by delivering digital information directly to parts of the brain that can process it.

Rejuvenation is good for society

The benefits of rejuvenation biotechnologies would extend to the whole human society. #aging

Rejuvenation isn’t good just for individuals and the people close to them. It is good for society as a whole, for a number of reasons. These reasons—which I will now proceed to discuss—should be enough make rejuvenation research a top priority for humanity in its entirety.

Ever heard anyone lamenting that the great minds of history are no longer with us? That we could certainly do with all the Einsteins, Montalcinis, Fermis, Curies, etc, living longer? And have you ever felt saddened when a great mind of our time died? You probably did, or at the very least know someone who did.

Just imagine how much faster would science and progress march if our greatest physicists, doctors, engineers, philantrophists, etc, could live an indefinitely long life. Remember that we’re not talking about a longer life spent in decrepitude and sickness: We’re talking about a 200-year-old Einstein with the experience of two centuries but the physical and mental agility of a 25-year-old. If he was still alive, maybe he could’ve figured out how to unify general relativity with quantum mechanics—something that has been eluding all efforts for decades. Every time a great person (or any person, for that matter) dies, their particular experience is lost forever. Never mind that there are other experts, or that similar knowledge is found in books; it’s not even remotely the same. Rejuvenation would allow us to benefit from the knowledge and wisdom of the best among us for centuries on end.

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