Amine plasma polymers deposited on porous hydroxyapatite artificial bone with bipolar pulsed discharges

Anjar Anggraini Harumningtyas, Tomoko Ito, Hidekazu Kita, Joe Kodama, Takashi Kaito, S. Hamaguchi
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Abstract

A recent in vivo study [Kodama et al., Sci. Rep. 11, 1 (2021)] showed that porous artificial bones coated with amine-containing polymers deposited by plasma-enhanced chemical vapor deposition (PECVD) significantly enhanced bone regeneration. This article reports the chemical and physical properties of amine plasma polymers (PPs) formed under the same deposition conditions, including the film stability for up to two months, the effects of sterilization on the chemical compositions of the films, and the penetration of amine PPs into the inner surfaces of interconnected microscopic pores of the amine PP-coated porous artificial bone. It was found that, immediately after the plasma polymerization process, approximately 20% of nitrogen atoms on the surface of the deposited amine PP formed primary amines. However, the value decreased to approximately 5% over one month if the sample was exposed to ambient air. The relative concentration of primary amines also decreased to a similar value after the sample was sterilized by autoclaving or ethylene oxide gas. Molecular dynamics simulations were used to examine possible formation mechanisms of nitriles in deposit films under the PECVD conditions and found that ion impact can significantly reduce the nitrile content.
用双极脉冲放电在多孔羟基磷灰石人工骨上沉积胺等离子聚合物
最近的一项体内研究[Kodama 等人,Sci. Rep. 11, 1 (2021)]表明,通过等离子体增强化学气相沉积(PECVD)沉积的含胺聚合物涂覆的多孔人工骨能显著促进骨再生。本文报告了在相同沉积条件下形成的含胺等离子聚合物(PPs)的化学和物理性质,包括长达两个月的薄膜稳定性、灭菌对薄膜化学成分的影响以及含胺PPs渗透到含胺PP涂层多孔人工骨互连微孔内表面的情况。研究发现,等离子聚合过程结束后,沉积的胺 PP 表面约有 20% 的氮原子形成伯胺。但是,如果将样品暴露在环境空气中,一个月后这一数值会降至约 5%。样品经过高压灭菌或环氧乙烷气体灭菌后,伯胺的相对浓度也下降到类似的值。利用分子动力学模拟研究了 PECVD 条件下沉积薄膜中腈化物的可能形成机制,发现离子撞击可显著降低腈含量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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