Characterization of ion release from a novel biomaterial, Molybdenum-47.5Rhenium, in physiologic environments.

James M Mok, Kornelis Poelstra, Kevin Ammar,Matthew McGirt, Jason Cormier,Robert Hart,Jordan Bauman,Pam Cowart, Ishan Sheth,Preet Singh,Jay Yadav

The spine journal : official journal of the North American Spine Society（2023）

Cited 2|Views15

No score

Abstract

The novel biomaterial MoRe demonstrated a lower metal ion release profile in both a physiologic and inflammatory environment and was well below the established PDE. Comparative testing of the cobalt-chromium and titanium alloys found higher levels of ion release in the inflammatory environment that exceeded the PDE for cobalt and vanadium.

Translated text

Key words

Biomaterial,Cobalt Chromium,Corrosion,Instrumented spinal fusion,Metal ion release,Metal toxicity,Metallosis,MoRe,Molybdenum,Molybdenum-47.5Rhenium,Rhenium,Spinal fusion implants,Spinal instrumentation,Titanium,Wear debris

AI Read Science

Must-Reading Tree

Example

Generate MRT to find the research sequence of this paper

Chat Paper

Summary is being generated by the instructions you defined