Nanomedicine
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ScienceIt's never a good thing when donated human blood – or even the blood in our bodies – is infected with bacteria. Scientists at the University of California San Diego, however, are developing a means of removing such blood-borne microbes using tiny ultrasound-powered robots.
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Most medical micro-robots are limited to one method of movement and might not handle complex terrain. Now, a team from the Max Planck Institute for Intelligent Systems has developed a “millirobot” that can walk, crawl, jump, climb, roll, swim and carry loads like a microrobotic Mario.
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The latest nanoparticle innovation, driven by advanced computer modeling technologies, targets a broad range of devastating viruses and not only binds to them, but destroys them as well.
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It’s a classic movie trope, distract the guards while our hero sneaks past. A team of researchers at the University of Michigan has deployed the same tactic to reduce inflammation in the body, by using nanoparticles that distract immune cells from negatively inflaming an injury site.
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In what they are calling a world first, nanoengineers have delivered tiny drug-bearing motors into the stomachs of mice where the devices moved around via bubble propulsion, which changed the pH of the stomach to allow the successful dispatch of bug-clobbering antibiotics.
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The super-small objects known as nanoparticles are playing a big role in combating cancer. Now, researchers have enlisted the petite powerhouses in a new way that helps them recruit the body's immune system into fighting tumors while also teaching it to be on the lookout for cancer's return.
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Current snake antivenom might not be saving lives as efficiently as it could, given that they’re difficult and expensive to produce, distribute and administer. Now, researchers have developed a synthetic alternative with a long shelf-life that can neutralize venom from several species of snakes.
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A team at Tel Aviv University's (TAU's) Center for Nanoscience and Nanotechnology have developed an alternative to the invasive needle electrodes used in electromyotherapy, in the form of an electronic "tattoo" that unobtrusively monitors muscle activity.
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Brazilian researchers are working on a method of cancer drug delivery to the affected cells that is more precise and sparing of healthy cells. They use silica and folate, a vitamin that is naturally attracted to tumors. The idea is to make chemotherapy less harmful and more efficient.
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By combining X-rays with nanoparticles, a team of researchers from the Centre for Nanoscale BioPhotonics (CNBP) in Australia has found a way of combating cancer deep inside the body using a simple chemical.
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ScienceEngineers at the University of California, San Diego are developing a technique that uses an oscillating electric field to separate nanoparticles from blood plasma.
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Building on previous work, researchers at Duke University have developed a new technology that wraps nanoshells in a thin film of drug-infused hydrogel, adding additional firepower to the already promising targeted cancer treatment.
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