Abstract
INTRODUCTION: Titanium and its alloys are the most popular choice of materials for the reconstruction of craniofacial defects. They have lighter weight and are nonferromagnetic, which makes them an advantage in cranial defect reconstruction. Although the formed oxide layer makes them corrosion-resistant, levels of titanium in blood have been seen in trace amounts. This is the first study as per authors' knowledge that a study of such kind has been conducted. MATERIALS AND METHODS: A pilot study was carried out at a tertiary level hospital, considering the inclusion and exclusion criteria in patients who were planned for the reconstruction of the residual defect using titanium mesh. Preoperative and 03- and 06-months postoperative blood samples were collected and analyzed for estimating the levels of titanium ions in blood by inductively coupled plasma-optical emission spectroscopy (ICP-OES). RESULTS: Friedman's two-way analysis of variance by ranks was considered for testing of hypothesis summary, owing to the smaller sample size. The analysis suggested an increase in levels was minimal. Considering the asymptotic significances (two-tailed significance), a significance level was 0.050, which directed us to reject the null hypothesis. Pairwise comparison suggested the presence of negative values indicating steady increase in levels. Cluster analysis indicated that although minimal there is a cluster of difference in the values at all three stages. Continuous field information was used to determine the level with regard to the level of titanium at the three stages of study. CONCLUSION: The study revealed that the levels of titanium ions increase on prolonged contact with living tissues. The trace elements have to be analyzed at regular intervals. This first-of-the-time study if extended to larger sample size would reveal interesting facts.