PMID: 30692582DOI: 10.1038/s41598-018-37123-3Jan 30, 2019Paper

Nano-to-Submicron Hydroxyapatite Coatings for Magnesium-based Bioresorbable Implants - Deposition, Characterization, Degradation, Mechanical Properties, and Cytocompatibility

Scientific Reports
Qiaomu TianHuinan Liu
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Abstract

Magnesium (Mg) and its alloys have shown attractive biocompatibility and mechanical strength for medical applications, but low corrosion resistance of Mg in physiological environment limits its broad clinical translation. Hydroxyapatite (HA) nanoparticles (nHA) are promising coating materials for decreasing degradation rates and prolonging mechanical strength of Mg-based implants while enhancing bone healing due to their osteoconductivity and osteoinductivity. Conformal HA coatings with nano-to-submicron structures, namely nHA and mHA coatings, were deposited successfully on Mg plates and rods using a transonic particle acceleration (TPA) process under two different conditions, characterized, and investigated for their effects on Mg degradation in vitro. The nHA and mHA coatings enhanced corrosion resistance of Mg and retained 86-90% of ultimate compressive strength after in vitro immersion in rSBF for 6 weeks, much greater than non-coated Mg that only retained 66% of strength. Mg-based rods with or without coatings showed slower degradation than the respective Mg-based plates in rSBF after 6 weeks, likely because of the greater surface-to-volume ratio of Mg plates than Mg rods. This indicates that Mg-based plate and screw devi...Continue Reading

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Citations

Comprehensive In Vitro Testing of Calcium Phosphate-Based Bioceramics with Orthopedic and Dentistry Applications

Nov 14, 2019·Materials·Radu AlbulescuCristiana Tanase

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Bioresorbable composites based on hybrid phosphate-silicate coatings on Mg0.8Ca alloy

Dec 15, 2020··M. B. SedelnikovaT. V. Tolkacheva

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Methods Mentioned

BETA
x-ray spectroscopy
X-ray
infrared spectroscopy

Software Mentioned

PANAlytical
NIS
HighScore
ImageJ

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