Ti-6al-4v Intervertebral Fusion Cage with Compatible Stiffness, Enhanced Fatigue Life, and Osteogenic Differentiation

Yu-Jie Wu, Chi-Yun Wang, Kuei-Chih Feng, R.R. Chien, Haidee Mana-Ay, Shyang-Yih Kung, Kuang-Hua Hou, Chi-Shun Tu, Pin-Yi Chen, Po-Liang Lai

研究成果: 期刊稿件文章同行評審

摘要

<div data-language="eng" data-ev-field="abstract">The 3D-printed Ti-6Al-4V intervertebral fusion cage is fabricated to be biocompatible with improved stiffness, fatigue life, and osteogenic differentiation, which are greatly enhanced by heat treatment and surface modification. The flexible cage&rsquo;s life, which exceeds the standard dynamic fatigue requirement of 5x106 cycles based on the ASTM F2077 and F2267 test methods, is achieved by heat treatment at 800 &#8451; in argon atmosphere, shot peening, and adjusting the &alpha; to &beta; phase ratio to increase mechanical toughness. Surface modification via sandblasting and chemical etching removes the surface oxide layer and forms submicron pores on the surface of the cage, which significantly boosts cell proliferation, differentiation, and osteoblast mineralization. This work exhibits a novel design of Ti-6Al-4V intervertebral fusion cage with biocompatible stiffness, enhanced fatigue life, and improved osteogenic differentiation achieved by reducing residual stress, modifying surface micro-pores, and optimizing microstructure.<br/></div> &copy; 2023, The Authors. All rights reserved.
原文美式英語
期刊SSRN
DOIs
出版狀態已出版 - 2023

指紋

深入研究「Ti-6al-4v Intervertebral Fusion Cage with Compatible Stiffness, Enhanced Fatigue Life, and Osteogenic Differentiation」主題。共同形成了獨特的指紋。

引用此