Abstract
Musculoskeletal disorders is one of most important health problems human population is facing includes. Approximately 310 thousand of hip protheses have been used in 45 years and older patients in total according to the recent studies have been done. [1, 2]. Many factors, including poor osseointegration or relaxation of the implant due to stress, limit the life of the load-bearing implants [3]. To overcome these difficulties and to protect metal implants inside the body, the surfaces of the implants were coated with silver ion doped hydroxyapatite/bioglass. In this study, silver doped hydroxyapatite ceramic powder and 6P57 bioglass were synthesized. Two different coating suspensions, 100% bioglass and 70% Ag-HAp / 30% bioglass, were prepared in methyl alcohol with a solid content of 1% by weight.
Two layers were coated on the external fixator nails by using electrospray method with the bioglass and Ag-Hap/Bioglass suspensions respectively. The coated implants were cut with an equal surface area and kept in human blood plasma for different time. The scanning electron microscopy (SEM, Zeiss Supra 50VP and Zeiss Evo 50EP) and stereo microscope (Zeiss Axiocam Stemi 2000-C) were used to characterize microstructure and thickness of coated surface. Energy dispersive X-ray Spectroscopy was used characterized of chemical composition of coating. Changing of pH value of plasma was measured by pH meter (Hanna HI83414). In addition, the ICP method was used to determine the elements contained in the plasma fluid after dissolution. As a result of this study, physical and chemical changes occurring on the coating surface in different time periods are presented in detail