Surface engineering of orthopedic implants for better clinical adoption

Abstract

Musculoskeletal disorders are on the rise, and despite advances in alternative materials, treatment for orthopedic conditions still heavily relies on biometal-based implants and scaffolds due to their strength, durability, and biocompatibility in load-bearing applications. Bare metallic implants have been under scrutiny since their introduction, primarily due to their bioinert nature, which results in poor cell–material interaction. This challenge is further intensified by mechanical mismatches that accelerate failure, tribocorrosion-induced material degradation, and bacterial colonization, all contributing to long-term implant failure and posing a significant burden on patient populations. Recent efforts to improve orthopedic medical devices focus on surface engineering strategies that enhance the interaction between cells and materials, creating a biomimetic microenvironment and extending the service life of these implants. This review compiles various physical, chemical, and biological surface engineering approaches currently under research, providing insights into their potential and the challenges associated with their adoption from bench to bedside. Significant emphasis is placed on exploring the future of bioactive coatings, particularly the development of smart coatings like self-healing and drug-eluting coatings, the immunomodulatory effects of functional coatings and biomimetic surfaces to tackle secondary infections, representing the forefront of biomedical surface engineering. The article provides the reader with an overview of the engineering approaches to surface modification of metallic implants, covering both clinical and research perspectives and discussing limitations and future scope.

Graphical abstract: Surface engineering of orthopedic implants for better clinical adoption

Article information

Article type
Review Article
Submitted
16 júl 2024
Accepted
08 okt 2024
First published
09 okt 2024

J. Mater. Chem. B, 2024, Advance Article

Surface engineering of orthopedic implants for better clinical adoption

S. Tripathi, A. Raheem, M. Dash, P. Kumar, A. Elsebahy, H. Singh, G. Manivasagam and H. S. Nanda, J. Mater. Chem. B, 2024, Advance Article , DOI: 10.1039/D4TB01563K

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