Medicine and Health Sciences Commons^™

Biomaterial Properties Of Titanium In Dentistry, Soni Prasad, Mark Ehrensberger, Monica Prasad Gibson, Hyeongil Kim, Edward A. Monaco, Jr.

School of Dentistry Faculty Research and Publications

Background

Among various dental materials and their successful restorative uses, titanium provides an excellent example of integrating science and technology involving multiple disciplines of dentistry including biomaterials, prosthodontics and surgical sciences. Titanium and its alloys have emerged as a material of choice for dental implants fulfilling all requirements biologically, chemically and mechanically. Several excellent reviews have discussed the properties of titanium and its surface characteristics that render it biocompatible. However, in most patients, titanium implants are used alongside several other metals. Presence of different metals in the same oral environment can alter the properties of titanium. Other influencing factors include …

Investigation Of Force Decay In Aesthetic, Fibre-Reinforced Composite Orthodontic Archwires, Jacob E. Spendlove, David W. Berzins, Jessica E. Pruszynski, Richard W. Ballard

School of Dentistry Faculty Research and Publications

Background/Objectives: Because polymer-based materials typically exhibit viscoelastic properties, the objective was to determine if commercially available, aesthetic, fibre-reinforced composite archwires maintain continuous forces without undergoing force decay when deflected continuously.

Materials/Methods: Quasi force decay was evaluated by comparing three-point bending profiles of nickel–titanium (NiTi) and fibre-reinforced composite archwires (BioMers) prior to and after 30 days of continuous deflection of either 1 or 2mm. Paired t-tests or non-parametric signed rank tests were used to statistically compare pre- and post-deflection bending forces. A control group consisting of wires not subject to the 30-day constant deflection was tested to check whether the initial …