13. Comparison of In-Vitro Conditioning of Two Types of Mandibular Bone Plates in Modified Simulated Body Fluid Characterization with Scanning Electron Microscope and Energy Dispersive X-Ray
1. Rabia Anwar 2. Muhammad Kaleem 3. Fahad Saqib Lodhi
1. Asstt. Prof. of Dentistry, AMC, Abbottabad 2. Assoc. Prof. of Dental Materials, NUST, Islamabad
3. Asstt. Prof. of Community Medicine, FMC, Abottabad
ABSTRACT
Objectives: In this study the conditioning of two mandibular mini plates was done in modified simulated body fluid at 370C.
Study Design: An experimental study
Place and Duration of Study: This study was conducted at in the laboratory of National University of Science and Technology from March to Mach 2013.
Materials and Methods: The two brands of mini bone plates were selected, one imported from Germany while other was manufactured in local industry. The modified simulated body fluid (m-SBF) was prepared by dissolving reagent in deionised water. The conditioning was done at 1, 7, 14, 21 and 28 days. The surface changes produced after conditioning were analyzed under scanning electron microscope (SEM). The energy dispersive X-ray (EDX) analysis was also used to identify compositional variations of the MPP and MPG surfaces.
Results: The SEM revealed almost similar changes in body fluid environment in both plates however the surface of
MPG was anodized while no anodization was done on MPPs while in EDX analysis the main elements found were Ti (Titanium) and O (Oxygen) in MPP and MPG. O was more initially then gradually decreases with passage of time in case of MPG while in MPP the O was in low concentration in early conditioning time and then it decreased. Conclusions: The surface of MPG was anodized while no anodization was done on MPPs.
Key Words: Scanning electron microscope, bone plate, conditioning, simulated body fluid
Citation of article: Anwar R, Kaleem M, Lodhi FS. Comparison of In-Vitro Conditioning of Two Types of Mandibular Bone Plates in Modified Simulated Body Fluid Characterization with Scanning Electron Microscope and Energy Dispersive X-Ray Spectroscopy. Med Forum 2015;26(11):52-55.