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The evolution of orthopedic implants has long been driven by the need for materials that balance mechanical support with biological compatibility. Traditional metallic implants, such as titanium and stainless steel, provide robust structural integrity but often necessitate secondary surgeries for removal and can impede natural bone remodeling due to stress shielding. Magnesium (Mg)-based bioresorbable implants represent a transformative alternative, leveraging the element’s inherent biocompatibility and degradability to support bone regeneration while eliminating the need for explantation.

Published in biomaterials science
Self-healing biomaterials hold great potential for revolutionizing orthopedic prostheses by addressing some of the major challenges in current prosthetic technology. Here are the key aspects:
Published in biomaterials science
Sonntag, 12 März 2023 23:32

Bio metamaterials for orthopedics

Bio metamaterials are advanced materials engineered to mimic the complex properties of natural biological tissues. Designed at the micro- or nanoscale, these materials achieve superior performance in terms of biocompatibility, strength, and functionality, making them highly suitable for orthopedic applications such as bone implants, joint replacements, and tissue scaffolds.
Published in biomaterials science