Researchers have developed a coating that could reduce biofouling on ships by up to 50%. Their coating could double a ship’s deployment at sea and reduce maintenance and fuel costs.
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Researchers have developed a flexible ceramic 3-D printed bone implant. Called ‘Hyperelastic Bone,’ the implant can regenerate bone tissue growth, ultimately becoming part of the patient’s own bone.
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In a new study, researchers have demonstrated a method of regenerating bone using 3-D printed ceramic scaffolds. This technique could possibly replace traditional bone grafts and help those with bone injuries or deformities.
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Researchers showed bioscaffolds out of graphene foam mixed with animal cells could eventually replace cartilage destroyed by osteoarthritis. The military may also use the research to treat musculoskeletal injuries in the field.
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Researchers at MIT have fabricated small flexible magnetic structures using a 3-D printer and ink fused with magnetic particles. The structures could be used to remotely control biomedical devices for drug delivery or for pumping blood, among other functions.
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Researchers also have conducted studies on the amount of urine in an average swimming pool. The results show that you’re probably not in any danger.
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Researchers have developed a glass composite that could be used in fabricating intricate objects. “Glassomer,” a material made of a polymer and quartz, could be useful in a wide variety of industrial applications.
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Researchers have developed a technology to power tiny implantable devices that could be used to monitor medical conditions or treat diseases from inside the human body. The technology uses radio waves, rather than batteries, to power and communicate with the devices.
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Researchers have developed a tiny sensor that can be inserted into a patient’s gum or on a tooth to detect gum disease and monitor health by analyzing saliva. This device could eventually replace the traditional pinprick to analyze a patient’s blood.
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Researchers have successfully used a 3-D printer to print an electronic circuit on human skin. The technology could help soldiers on the battlefield to detect chemical or biological agents, and the medical field for treating wounds and constructing skin grafts.
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