Litcius/Paper detail

Femtosecond Laser‐Texturing the Surface of Ti‐Based Implants to Improve Their Osseointegration Capacity

William A. Lackington, Peter Schweizer, Mariya Khokhlova, Claudia Cancellieri, Stefanie Guimond, Anne‐Lise Chopard‐Lallier, Joëlle Hofstetter, Patrik Schmutz, Xavier Maeder, Markus Rottmar

2022Advanced Materials Interfaces24 citationsDOIOpen Access PDF

Abstract

Abstract In modern oral maxillofacial surgery, long‐term implant stability is intrinsically linked to the quality of osseointegration. While the osseointegration capacity of implants can be improved by modifying their surface properties, commonly used techniques, including sandblasting and acid etching, are stochastic processes offering virtually zero capacity to control the uniformity and reproducibility of micro‐ and nano‐scale surface features. In this study, titanium‐aluminium‐vanadium (TiAlV) implant surfaces are modified using femtosecond (fs) laser‐texturing, and its influence on physicochemical properties, on blood–implant interactions, and on the osseointegration potential is investigated in vitro. Laser‐texturing enables the production of designer surfaces with micro‐scale features defined in size and arrangement. While state of the art TiAlV surfaces prepared by sandblasting with biphasic calcium phosphate (BCP) show significant grain refinement at the near surface, fs laser‐texturing preserves the grain size and enhances the microstrain and oxide layer thickness but also leads to 15% lower bulk fatigue in comparison to BCP treatment. Blood coagulation is similar on laser‐textured and BCP surfaces, as is mineralization by human bone progenitor cells, albeit with a decreasing trend for laser‐textured surfaces. Laser‐texturing thus presents as a promising approach to create highly reproducible designer surfaces with biological performance comparable to state‐of‐the‐art implants.

Topics & Concepts

OsseointegrationMaterials scienceLaserTitaniumFemtosecondImplantBiomedical engineeringComposite materialNanotechnologyOpticsMetallurgyMedicineSurgeryPhysicsBone Tissue Engineering MaterialsDental materials and restorationsLaser Applications in Dentistry and Medicine