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Multi-Scale Surface Treatments of Titanium Implants for Rapid Osseointegration: A Review

Qingge Wang, Peng Zhou, Shifeng Liu, Shokouh Attarilar, L.W. Ma, Yinsheng Zhong, Liqiang Wang

2020Nanomaterials226 citationsDOIOpen Access PDF

Abstract

The propose of this review was to summarize the advances in multi-scale surface technology of titanium implants to accelerate the osseointegration process. The several multi-scaled methods used for improving wettability, roughness, and bioactivity of implant surfaces are reviewed. In addition, macro-scale methods (e.g., 3D printing (3DP) and laser surface texturing (LST)), micro-scale (e.g., grit-blasting, acid-etching, and Sand-blasted, Large-grit, and Acid-etching (SLA)) and nano-scale methods (e.g., plasma-spraying and anodization) are also discussed, and these surfaces are known to have favorable properties in clinical applications. Functionalized coatings with organic and non-organic loadings suggest good prospects for the future of modern biotechnology. Nevertheless, because of high cost and low clinical validation, these partial coatings have not been commercially available so far. A large number of in vitro and in vivo investigations are necessary in order to obtain in-depth exploration about the efficiency of functional implant surfaces. The prospective titanium implants should possess the optimum chemistry, bionic characteristics, and standardized modern topographies to achieve rapid osseointegration.

Topics & Concepts

OsseointegrationMaterials scienceTitaniumNanotechnologySurface modificationWettingAnodizingSurface roughnessImplantTitanium alloyBiomedical engineeringSurface finishEtching (microfabrication)Composite materialMetallurgyChemical engineeringSurgeryLayer (electronics)MedicineEngineeringAluminiumAlloyBone Tissue Engineering MaterialsDental Implant Techniques and OutcomesDental materials and restorations