Borophene, a relatively new nanomaterial, is beginning to make its way into biomedical applications. Researchers at The Pennsylvania State University showed that synthesizing borophene with chiral structures allows it to interact with mammalian cells in distinct ways.
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The inherent brittleness of bioceramics makes them difficult to shape using traditional subtractive manufacturing methods. Electrospinning has emerged as an alternative to additive manufacturing to produce nanoscale, composite bioceramic parts.
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Exposure to high-energy radiation is a main health concern for future human space travel. Researchers at the University of Maryland, Baltimore County investigated the effects of high-energy radiation on hydroxyapatite, an important bone material.
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To date, efforts to develop retinal prostheses have achieved limited success. But the turn toward flexible rather than rigid platforms for these devices is leading to significant advances in the research community.
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In vitro studies have demonstrated the potential of graphene oxide to help treat Alzheimer’s disease by preventing the buildup of harmful amyloid-β aggregates. Researchers in Sweden and Denmark used yeast as a model system to explore graphene oxide’s potential in vivo.
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Bioactive glass offers numerous benefits as a coating material for metallic implants, but achieving strong adhesion between the glass and implant is a challenge. University of Barcelona researchers explored several strategies for improving the adhesion strength of bioactive glass coatings deposited using atmospheric plasma spraying.
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Continuous glucose monitoring systems can help alleviate the mental burden of diabetes management, but there are limitations to powering current systems. Researchers at ETH Zurich developed a self-sufficient glucose monitoring system that not only registers excess glucose but initiates the release of insulin into the blood. They successfully tested the device in mice.
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To celebrate the milestone of the 20th volume of the International Journal of Applied Ceramic Technology, the editorial team assembled a selection of journal papers representing the excellent work from the advanced ceramics community. The focus this month is bioceramics.
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Video: Translating bioceramic research from the lab to the clinic—a discussion with William Bonfield
To fulfill the growing demand for bioceramics and bioactive glasses, scientists will need to not only innovate new materials but translate them to market. In an interview, William Bonfield, recipient of the 2021 Larry L. Hench Lifetime Achievement Award, shares advice for others looking to translate their innovations into clinical settings.
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To enable effective cancer detection and treatment, ceramic and glass biomaterials have been heavily investigated. A recent review paper provides an overview of the main ceramics and glasses being explored for this purpose.
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