'Smartware' clothing could signal impending epileptic seizures - 0 views
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They are currently working on 'smartware', fabrics that treat chronic wounds that result from diabetes and leg ulcers. Their 'senseware' technology, which is motion sensors found inside textiles, can give medical professionals the tools they need to detect the onset of epileptic seizures. The centre's 'bioware' technology is embedded materials and surfaces found in the home and on the body.
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"They are currently working on 'smartware', fabrics that treat chronic wounds that result from diabetes and leg ulcers. Their 'senseware' technology, which is motion sensors found inside textiles, can give medical professionals the tools they need to detect the onset of epileptic seizures. The centre's 'bioware' technology is embedded materials and surfaces found in the home and on the body."
Artificial spleen cleans up blood : Nature News & Comment - 0 views
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A device inspired by the spleen can quickly clean blood of everything from Escherichia coli to Ebola, researchers report on 14 September in Nature Medicine1.
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Blood infections can be very difficult to treat, and can lead to sepsis, an often-fatal immune response. More than 50% of the time, physicians cannot diagnose the cause of an infection that has prompted sepsis, and so they resort to antibiotics that attack a broad range of bacteria2. This approach is not always effective, and can lead to antibiotic resistance in bacteria.
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To test the device, Ingber and his team infected rats with either E. coli or Staphylococcus aureus and filtered blood from some of the animals through the biospleen. Five hours after infection, 89% of the rats whose blood had been filtered were still alive, compared with only 14% of those that were infected but not treated.
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Sticky Nanobeads Can Strip Bacteria, Viruses From Blood - D-brief | DiscoverMagazine.com - 0 views
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Bioengineers at Harvard’s Wyss Institute have developed a blood filter that quickly grabs toxins, such as E.coli or Ebola, from the bloodstream using protein-coated nanobeads and magnets. In early tests, the biomechanical treatment removed more than 90 percent of toxins from infected human blood within a few hours.
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dubbed an “artificial spleen,” instead mechanically clears pathogens from the bloodstream, thereby reducing reliance on heavy doses of antibiotics. Its trick lies in magnetic nanobeads coated with a modified human protein. This protein binds to sugar molecules on the surfaces of more than 90 different bacteria, viruses and fungi, as well as to the toxins released by dead bacteria.
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Researchers then tested their device by cleaning 5 liters of human blood spiked with a variety of pathogens. The device cleared blood at a rate of 1 liter per hour, and again removed over 90 percent of the pathogens.
Scientists Aim To 'Print' Human Skin - Slashdot - 0 views
Ыtudents develop thought-controlled, hands-free computer for the disabled - 0 views
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The student team, Ori Ossmy, Ofir Tam and Ariel Rozen, developed the prototype application for their bachelor's degree project under the supervision BGU Prof. Mark Last, Dr. Rami Puzis, Prof. Yuval Lovitz and Dr. Lior Rokah. As part of a recent demonstration, a student composed and sent a hands-free e-mail using only thought combined with the adaptive hardware. The students and BGU team plan to continue research working with the disabled.
BGU Students Develop Thought-Controlled, Hands-Free Computer For The Disabled - 0 views
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BGU software engineering students have developed innovative technology that could enable people to operate a computer without using a keyboard or mouse - only their brainwaves. While there have been previous attempts to develop devices to read brainwaves and operate specific programs, they were cumbersome and not feasible outside of a laboratory setting. The BGU technology features a helmet equipped with 14 EEG connect points that sense brain activity. According to Dr. Rami Puzis, "The technology is designed to assist those who are physically disabled who might otherwise be unable to manipulate a computer mouse or keyboard." The student team, Ori Ossmy, Ofir Tam and Ariel Rozen, developed the prototype application for their bachelor's degree project under supervision at BGU by Prof. Mark Last, Dr. Rami Puzis, Prof. Yuval Elovich and Dr. Lior Rokah. As part of a recent demonstration, a student composed and sent a hands-free e-mail using only thought combined with the adaptive hardware. The students and BGU team plan to continue research working with the disabled.
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