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Prosthetics has come a long way from its humble beginnings – the crude wooden legs of yore are a far cry from the technological marvels we can create to replace our limbs today. However, there is one thing that, with all our know-how, we haven’t yet been able to incorporate in them: a sense of touch. A research team from Stanford University aims to fix this shortcoming, and has developed technology that can “feel” when force is exerted upon it, then transmit the sensory data to brain cells – in essence, they’ve created an artificial skin.
By 'tickling' select membrane channels you can effectively control neurons, by activating or deactivating cells. You can do this using electrical currents, like we see very well illustrated in brain-computer interfaces; light (the field of optogenetics); and sound (sonogenetics). Yes, sound. This was only recently demonstrated by researchers at Salk's Molecular Neurobiology Laboratory who used ultrasounds to control neurons in the nematode Caenorhabditis elegans.
A team at MIT in collaboration with the Riken Brain Science Institute in Japan activated the lost memories of mice, suggesting memory deficiencies like amnesia have more to do with accessing data, than storage itself. Though far from applicable to humans, the research does show that it's possible, in theory at least, to help patients with retrograde amnesia (who'd lost their memories following a trauma or brain injury) live a normal life once more.
You've heard all about controlling robotic arms or prosthesis with thoughts, but what about genes? In a deceptively simple experiment, bioengineers in Switzerland combined a classical brain-computer interface with a biological implant, which effectively allowed a genetic switch to be operated by brain activity. Imagine wearing a "funny" cap fitted with electrodes and a tiny implant, then controlling your mood by thinking the perfect "pure" thoughts that would cause a cascade of feel good chemicals. The same could be made for painkillers, so you can deliver just the right amount. Really, there's a lot of potential floating around this thing.
Either when someone’s late for a date or you need to queue in line, our patience becomes tested. Some people handle the waiting better than others, leading us to the idea that patience is a virtue that differs from person to person. But what is it exactly that helps us remain patient, and why do […]
In a remarkable feat of science, scientists at Harvard University have surpassed seemingly insurmountable technological challenges have managed to take over the behavior of a lab worm. Using precisely targeted laser pulses at the worm’s neurons, scientists were able to direct it to move in any directions they wanted, and even trick it in thinking […]
When the brain deems an experience meaningful enough, it will transfer that information from short-term storage, where typically information like where you put your car keys or the phone number of a person you just met gets stored temporarily, to your long-term memory, offering the possibility to be accessed at a later time. Neurologists claim […]
