Scientists Use Bioactive Materials to Make Enhanced Orthopedic Implants

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Scientists Use Bioactive Materials to Make Enhanced Orthopedic Implants
Scientists Use Bioactive Materials to Make Enhanced Orthopedic Implants

Bioactive coatings play a vital role in the success of implants such as those for knees or hips, because their properties induce a biological response that is good for the health. PhD student Imran Deen and Professor Federico Rosei from Institut national de la recherche scientifique (INRS) are working on a coating that mimics bone tissue.

“Traditional metal, ceramic, or polymer implants have limited bioactive properties. The healing process can be lengthy and have a higher risk of rejection. Developing a new generation of implant materials that promote compatibility and integration is crucial,” said Professor Rosei.

Bioactive materials

The research team is working on a cutting-edge coating based on three bioactive materials. Chitosan, found in shrimp shells, has antimicrobial properties. Collagen, the organic component of bone, facilitates cell migration and growth. And copper-doped phosphate glass stimulates blood vessel formation and bone reconstruction.

“The ability to deposit such coatings allows for the potential to make implants with tailored biological properties. It holds promise for biomedical applications, as these coatings can provide better implant-host interactions,” said Ph.D. student Imran Deen.

An innovative deposition method

The team uses electrophoretic deposition to make the coating. The implant acts as an electrode on which bioactive material particles are deposited, forming a layer. The method does not damage the structure and properties of bioactive materials. And unlike other deposition processes currently used, it can be used at standard ambient temperature and pressure on complex shapes without expensive equipment.

The process is also versatile since the deposition can be easily adapted to specific applications. For example, the technique can be applied to hydrophilic and antimicrobial coatings, bone surface reconstruction, or coatings that are biologically and chemically inert. The product could be used to produce coronary or venous stents, in bone transplants, or in medical environments to prevent the transmission of bacteria, and thus biological infections.

The next step is to conduct additional studies to validate the proof of concept, particularly biologically. Before this type of coating is used in clinical applications, cell proliferation at the surface of the coating needs to be measured and in vivo tissue adhesion assessed.

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