Abstract
Surgical site infection related to orthopaedic implants is one of the serious complications. In the previous works, we developed a novel thermal spraying technology combined silver with hydroxyapatite (HA) in order to resolve such problems, and reported the property and antibacterial effect of them in vitro. However, no previous reports have investigated in vivo. Therefore, we monitored serum silver level in rats to clarify in vivo kinetics of silver released from the coating.
HA loaded with 3 wt % of silver oxide (HA-Ag) and plain HA powder were sprayed on surface of titanium disks (20 mm diameter × 1 mm thick) by the flame spraying, which is a kind of thermal spraying method with acetylene torch. All these test pieces were obtained from Japan Medical Materials Corporation (JMM, Osaka, Japan). Both samples were implanted singly into the back subcutaneous pockets of male Sprague-Dawley rats (150–200 g). Rats were housed individually and given ad libitum access to food and water. After 24 h, 48 h, 7 d, 14 d and 28 d, the rats were sacrificed, and then the blood was drawn from common iliac vein. All procedures were operated under anesthesia. These blood samples were spun down and serum silver levels were measured by an inductively coupled plasma mass spectrometry.
The average serum silver level in HA-Ag group had increased to more than 40 ppb until 48 h after implantation, and then decreased rapidly to normal level. There were significant differences (p < 0.05) between HA-Ag and HA group, at each measurement period.
This is the first report to elucidate the serum silver level in rats implanted HA-Ag coatings. To date, reported coating technologies have included direct-loading antibacterial agents or heavy metals including silver with prosthesis base. The combine technology HA with silver would be effective in not only antibacterial but also osteoconductive respect. Our experimental results highlight the following 2 features: the serum silver levels peaked relatively early, and the levels reduced immediately to normal level after the peak. Therefore, we speculate that the released silver would not be accumulated generally, which not contribute long-term toxicity, and the coating would be suitable for prevention of early surgical site infections.
This study provides novel and important information on in vivo release- property for HA-Ag coating, and suggests this coating is effective against not late but rather early infection related to orthopaedic implants.
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