Growing human organs for therapeutics and transplantation
Researchers share their first steps towards growing fully transplantable human organs in a pig host
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Researchers share their first steps towards growing fully transplantable human organs in a pig host
Porous silica nanoparticles impregnated with nanoceria offer novel way to treat osteoporosis
Researchers have produced cellulose nanofiber (CNF) synthesized silk naturally through a simple tweak to silkworms’ diet. Mixing CNF with commercially available food and feeding the silkworms resulted in a stronger and more tensile silk
Complex three-dimensional nanostructures could find use in quantum computing and magnetic field sensing
Additive manufacturing offers the possibility of tailoring polyethylene implants to individual patients and improving tissue regrowth
Researchers bioprinted miniature human kidneys in the lab, paving the way for new treatments for kidney failure and possibly lab-grown transplants
New hydrogel-based materials that can change shape in response to psychological stimuli, such as water, could be the next generation of materials used to bioengineer tissues and organs, according to a team of researchers
Hydrogel dressings, which have advanced in recent years, are good at promoting wound healing and can better meet the demands of different situations. Many are antibacterial, biodegradable, responsive, and injectable and can fill irregularly shaped wounds
Bioprinting approach solves the issue of gravity and distortion by printing within a yield-stress support bath that holds the bioinks in place until they are cured
Hematopoietic stem cells (HSCs) have great potential in treating incurable cancers, autoimmune diseases and inherited blood disorders. However, just 1 in 2500 cells in the blood marrow are HSCs, a scarcity that limits their use in medical procedures
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