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Research Article

Some Biomechanistic Concerns on Newly Developed Implantable Materials

Yoshiki Oshida, Takashi Miyazaki, Toshikhiko Tominaga

Correspondence Address :

Yoshiki Oshida
Professor Emeritus
Indiana University School of Dentistry
Full-time Adjunct Professor
University of California San Francisco School of Dentistry
408 Wovenwood, Orinda CA
USA, Email: yoshida@iu.edu

Received on: September 17, 2018, Accepted on: September 25, 2018, Published on: October 02, 2018

Citation: Yoshiki Oshida, Takashi Miyazaki, Toshikhiko Tominaga (2018). Some Biomechanistic Concerns on Newly Developed Implantable Materials

Copyright: 2018 Yoshiki Oshida, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

  • Abstract

Abstract
Osseointegration and its strongly related stability of placed implants are very important in terms of their success and survival rates. Biomechanical compatibility is one of the crucial requirements for successful implantology among biological compatibility as well as macroand micro-morphological compatibility. In this paper, we pay a special attention on newly developed implantable materials, which might cause a possible risk of implant failure due to a large mismatching with receiving vial bone in biomechanical environment.

Keywords: Biomechanical compatibility, Yield strength, Modulus of elasticity, Strain field continuity, Discrete stress field, Commercially Pure Titanium (CPT), Ti-based Alloys (TA), Zirconium Oxide (ZO) implant