Features of calcium phosphate plasma‐sprayed coatings: An in vitro study

Abstract

Factors involved with the plasma-spray coating procedure, such as starting powder compound (fluorapatite, hydroxylapatite, magnesium-whitlockite, or tetra-calcium phosphate), powder particle distribution 1–45 or 1–125 (μm), powder port gun (port 2 or 6), and post–heat treatment of 1 h at 600°C, were examined for their effects on crystallinity and solubility/stability of the coating. From solubility tests, X-ray diffractometry, and scanning microscopy studies, the solubility and crystallinity were found to be dependent on Ca/P ratio, particle distribution, and post-heat treatment. The post-heat treatment influenced the degree of both crystallinity and solubility. The plasma-spray powder port factor for the hydroxylapatite coatings was not significant. Incubation in buffer of the coatings introduced precipitation at the surfaces of all non–heat-treated coatings except fluorapatite. No precipitation could be observed in any of the heat-treated coatings. © 1994 John Wiley & Sons, Inc.