含有 10-MDP 功能化磷酸钙颗粒的复合材料。

Journal of dental research Pub Date : 2024-04-01 Epub Date: 2024-01-29 DOI:10.1177/00220345231225459
R A A da Silva, R B Trinca, H S Vilela, R R Braga
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引用次数: 0

摘要

磷酸酯单体 10-甲基丙烯酰氧癸基二氢磷酸酯(10-MDP)能够与羟基磷灰石结合,因此是几种自刻蚀粘合剂的主要成分。在这项研究中,二水磷酸二钙颗粒(DCPD;CaHPO4.2H2O)被 10-MDP 功能化,并用于配制一种无机物含量为 50 Vol%(DCPD:硅烷化玻璃钡比例为 3:1)、分散在 BisGMA/TEGDMA 基质中的实验复合材料。测试假设是,DCPD 功能化将改善复合材料的机械性能,同时不影响 Ca2+ 的释放。含有未官能化 DCPD 或仅含有增强玻璃的复合材料(在这两种情况下,树脂相中都混有或不混有 10-MDP)被用作对照组。对材料的转化度(DC;通过傅立叶变换红外光谱法)、吸水性(WS)和可溶性(SL;根据 ISO 4049 标准)、在水中浸泡 24 小时和 5 个月后的双轴抗弯强度(BFS)/模量(FM)以及在水中浸泡 28 天后的 Ca2+ 释放量(通过等离子体耦合光学发射光谱法)进行了测试。数据采用方差分析/Tukey 检验(α:5%)进行分析。DCPD 功能化不会干扰 DC。与使用非官能化颗粒配制的材料相比,含有官能化 DCPD 的复合材料的 WS 和 SL 明显较低。10-MDP 的存在(作为官能化剂或分散在树脂相中)降低了复合材料的初始 BFS 和 FM。在水中浸泡 5 个月后,含有功能化 DCPD 的复合材料和两种纯玻璃复合材料都能保持其机械性能,在统计上与 24 小时后观察到的情况相似。总之,用 10-MDP 对 DCPD 进行官能化可增强复合材料的抗水解降解能力,从而提高其在长时间储水后的机械稳定性。然而,颗粒-基质界面上的水分传输受阻导致 Ca2+ 释放量减少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Composite Containing Calcium Phosphate Particles Functionalized with 10-MDP.

The phosphate ester monomer 10-methacryloyloxydecyl dihydrogen phosphate (10-MDP) is capable of bonding to hydroxyapatite and, for this reason, is a key component of several self-etch adhesives. In this study, dicalcium phosphate dihydrate particles (DCPD; CaHPO4.2H2O) were functionalized with 10-MDP and used to formulate an experimental composite with 50 vol% inorganic content (3:1 DCPD:silanated barium glass ratio) dispersed in a BisGMA/TEGDMA matrix. The tested hypothesis was that DCPD functionalization would improve the composite's mechanical performance without compromising Ca2+ release. Composites containing nonfunctionalized DCPD or only reinforcing glass (in both cases, with or without 10-MDP mixed in the resin phase) were used as controls. Materials were tested for degree of conversion (DC; by Fourier transform infrared spectroscopy), water sorption (WS) and solubility (SL; according to ISO 4049), biaxial flexural strength (BFS)/modulus (FM) after 24 h and 5 mo in water, and 28-d Ca2+ release in water (by plasma-coupled optical emission spectroscopy). Data were analyzed using analysis of variance/Tukey test (alpha: 5%). DCPD functionalization did not interfere with DC. The composite containing functionalized DCPD showed significantly lower WS and SL in comparison with the material formulated with nonfunctionalized particles. The presence of 10-MDP (as a functionalizing agent or dispersed in the resin phase) reduced the composite's initial BFS and FM. After 5 mo in water, the composite with functionalized DCPD and both glass-only composites were able to maintain their mechanical properties at levels statistically similar to what was observed after 24 h. Ca2+ release was significantly reduced in both formulations containing 10-MDP. In conclusion, DCPD functionalization with 10-MDP increased the composite's resistance to hydrolytic degradation, improving its mechanical stability after prolonged water storage. However, the impaired water transit at the particle-matrix interface led to a reduction in Ca2+ release.

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