Chinese researchers develop new implant material to accelerate bone healing

2024-12-05 Global Times Editor:Li Yan
Chinese researchers have achieved a major breakthrough in orthopedic treatment with a new implant material designed to accelerate bone healing and minimize infections. (Photo/Science and Technology Daily)

Chinese researchers have achieved a major breakthrough in orthopedic treatment with a new implant material designed to accelerate bone healing and minimize infections. (Photo/Science and Technology Daily)

Chinese researchers have achieved a major breakthrough in orthopedic treatment with a new implant material designed to accelerate bone healing and minimize infections. This innovation could revolutionize the way bone diseases are treated, the Science and Technology Daily reported on Wednesday.

The University of Science and Technology of China (USTC) revealed this milestone in orthopedic treatments, according to the report. In collaboration with the Third Xiangya Hospital of Central South University, USTC researchers have developed a cobalt-infused titanium-based bone implant using plasma immersion ion implantation technology.

This innovative material enhances bone regeneration while mitigating infections without the need of external recombinant proteins or antibiotics, offering a promising solution to bone-related diseases. The findings were recently published in Advanced Science.

Treating orthopedic infections and restoring bone function continue to pose major challenges in modern medicine. Traditional reliance on long-term antibiotic use has led to rising antimicrobial resistance, while biofilm-induced inflammation hampers tissue healing, making the infections particularly difficult to treat.

The research team's one-step process integrates cobalt into titanium implants, resulting in materials with superior biophysical compatibility. These implants modulate immune responses, facilitating the healing of infectious bone defects and promoting tissue regeneration. The study shows the implants effectively disrupt bacterial biofilm formation, reducing the adhesion rate of methicillin-resistant Staphylococcus aureus (MRSA) by over 80 percent, exhibiting outstanding antibacterial properties.

Moreover, the implants foster an immune microenvironment favorable for bone reconstruction by inducing macrophage polarization toward tissue-healing phenotypes. They also exhibit a tendency to reduce TRAP enzyme activity, which supports bone regeneration. According to the Science and Technology Daily, the researchers highlighted how cobalt influences bone immune responses, directing bone marrow mesenchymal stem cells toward osteogenic differentiation. It offers strong experimental support for advancing bone repair materials.

Researchers believe the genomic data from the study offered insights into how cobalt-titanium alloys regulate macrophage polarization, thereby validating the therapeutic potential of cobalt-titanium alloy in bone repair and immune modulation.

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