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Researchers have developed sugar-coated gold nanoparticles to both image and destroy biofilms. In a study, they used the nanoparticles on the teeth and wounded skin of rats and mice, eliminating biofilms in as little as one minute and outperforming common antimicrobials.
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Bioengineers have developed biocompatible self-assembling “piezoelectric wafers,” which can be made rapidly and inexpensively to enable broad use of implantable muscle-powered electromechanical therapies.
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Chase Cornelison's research at UMass Amherst explores the proliferating power of cancer cells to treat spinal cord injuries and restore function following brain damage, promising research that has earned an NIH Trailblazer Award. Source: News Medical.
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The technique used in this preclinical study could aid tissue regeneration following severe accidents, surgical resections, or progressive muscle loss due to age or genetic disease.
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NIBIB-funded researchers at NYU Langone Health worked with Facebook AI researchers to develop a method to speed up MRI scans.
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NIBIB-funded researchers have developed a way to use artificial intelligence to speed up MRI imaging without sacrificing quality.
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Researchers have reported a new form of electronics known as 'drawn-on-skin electronics,' allowing multifunctional sensors and circuits to be drawn on the skin with an ink pen.
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Bioengineers have created a 3D-printed scaffold designed to regenerate complex tissues composed of multiple layers of cells with different biological and mechanical properties.
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A team created an adaptable, wearable and stretchable fabric embroidered with conductive threads that provides excellent signal-to-noise ratio for enhanced MRI scanning.
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Paralyzing damage in spinal cord injury is often caused by the zealous immune response to the injury. NIBIB-funded engineers have developed nanoparticles that lure immune cells away from the spinal cord, allowing regeneration that restored spinal cord function in mice.