Current methods for repairing skeletal muscle have limited success. Researchers from the United States and China evaluated the potential of bioactive glass to stimulate muscle regeneration, with promising results.
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Bioglass brittleness limits the implantation of bioglass encapsulated RFID tracking devices in animals that butt heads for dominance. Florida A&M University researchers used force distribution models to develop a sturdier bioglass capsule design.
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Using electron microscopy, a team of scientists investigated the nanomechanics of nacre—and their results show precisely how this biomaterial gains superior strength upon lockdown.
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Enamel is the hardest tissue in the body—but it cannot self-repair when damaged. Due to its complex structure, creating enamel in the laboratory is difficult, but a new technique proposed by researchers in China may make growing enamel a reality.
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An international team of scientists developed a unique 3D printing process to fabricate bioceramic structures—reminiscent of hot dogs—that frankly could be a fantastic solution to repair large bone defects.
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Scientists at Rice University and Texas Heart Institute developed the first materials-based solution to repair electrical conduction defects in hearts—surgically sewing carbon nanotube fibers directly onto hearts to transmit electrical signals across damaged tissue.
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Most bioglasses, especially the popular 45S5, form weak scaffolds prone to cracking because they do not sinter to full density. Researchers looked to understand the factors hindering densification.
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For hydrogels to promote tissue formation, they must be suitably porous to allow transplanted cells to move around. Researchers from the University of California, Los Angeles, created clay-enhanced hydrogels to increase pore size.
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Fatty acids, although biodegradable and biocompatible, experience poor dispersibility and stability under physiological conditions, hindering their application as drug-carrying materials. Researchers at Georgia Tech and Shandong University created silica-based nanocapsules that safely carry drug-containing fatty acids to a targeted destination.
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More than 360 people from 31 countries traveled to Toronto to attend GFMAT-2 and Bio-4 on July 21–26. This year marks the first time the two conferences were held jointly.
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