Feasibility Study of Strontium-Containing Calcium Phosphate Coatings on Micro-Arc Oxidized AZ31
Satish S. Singh, John Ohodnicki, Abhijit Roy, Mitali Patil, Boeun Lee, Prashant N. Kumta

TL;DR
Strontium-doped calcium phosphate coatings on magnesium alloy AZ31 improve corrosion resistance and support better cell growth, making them promising for bone tissue scaffolds.
Contribution
A novel aqueous-based method to deposit Sr2+-substituted calcium phosphate coatings on micro-arc oxidized AZ31 is developed and evaluated.
Findings
Sr-doped calcium phosphate coatings on AZ31 show enhanced corrosion resistance compared to uncoated AZ31.
Strontium incorporation improves MC3T3-E1 cell proliferation on the coated surfaces.
Micro-arc oxidation pretreatment enhances coating homogeneity and adhesion.
Abstract
What are the main findings? Strontium (Sr)-doped calcium phosphate (CaP) coatings deposited on micro-arc oxidation pretreated AZ31 exhibit increased corrosion resistance. Sr content within the CaP coatings positively influences the attachment and proliferation of MC3T3-E1 cells. What is the implication of the findings? Sr-doped CaP coatings have the potential to control the in-vitro corrosion of bone tissue scaffolds. Incorporation of Sr within the CaP coatings increases the overall cytocompatibility of the MAO pretreated AZ31. Calcium phosphate coatings are known for their osteoconductive prowess. In this work, calcium phosphate coatings were studied on a model biodegradable magnesium alloy of AZ31, primarily to provide improved corrosion protection and, more importantly, to confer in vitro cytocompatibility to the AZ31 alloy. Correspondingly, an aqueous-based approach was…
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Taxonomy
TopicsMagnesium Alloys: Properties and Applications · Corrosion Behavior and Inhibition · Bone Tissue Engineering Materials
