酸蚀对玻璃渗透氧化锆表面特性、强度及生物学反应的评估

Evaluation of Acid Etching on Surface Characteristics, Strength and Biological Response of Glass-Infiltrated Zirconia.

作者信息

Vu Van Thi, Oh Gye-Jeong, Lim Hyun-Pil, Yun Kwi-Dug, Kim Ji-Won, Park Sang-Won

机构信息

Department of Prosthodontics, Dental Science Research Institute, School of Dentistry, Chonnam National University, Gwangju, 61186, Republic of Korea.

RIS Foundation for Advanced Biomaterial, School of Dentistry, Chonnam National University, Gwangju, 61186, Republic of Korea.

出版信息

J Nanosci Nanotechnol. 2018 Mar 1;18(3):2223-2226. doi: 10.1166/jnn.2018.14973.

DOI:10.1166/jnn.2018.14973

PMID:29448750

Abstract

This study evaluated the effect of acid etching on surface characteristics, flexural strength and osteoblast cell response of glass-infiltrated zirconia. Zirconia specimens were divided into six groups: untreated zirconia (Z); glass-infiltrated zirconia (ZG); glass-infiltrated and sandblasted zirconia (ZGS); glass-infiltrated, sandblasted and 5 min acid-etched zirconia (ZGS-E5); glassinfiltrated, sandblasted and 15 min acid-etched zirconia (ZGS-E15); glass-infiltrated, sandblasted and 25 min acid-etched zirconia (ZGS-E25). Surface roughness, biaxial flexural strength and MC3T3-E1 cell proliferation were evaluated. When increasing etching time, surface roughness significantly increased while flexural strength decreased. Cell proliferation rate at day 3 on group ZGS-E15 and ZGS-E25 was significantly higher than that of other groups. Surface roughness and flexural strength of glass-infiltrated zirconia can be controlled by adjusting etching time. Rough surface made by acid etching following glass infiltration significantly enhanced osteoblast cell response. Glass infiltration improved strength of zirconia but severe acid etching slightly reduced strength of zirconia.

摘要

本研究评估了酸蚀对玻璃渗透氧化锆表面特性、抗弯强度和成骨细胞反应的影响。氧化锆标本分为六组：未处理的氧化锆（Z）；玻璃渗透氧化锆（ZG）；玻璃渗透并喷砂处理的氧化锆（ZGS）；玻璃渗透、喷砂处理并酸蚀5分钟的氧化锆（ZGS-E5）；玻璃渗透、喷砂处理并酸蚀15分钟的氧化锆（ZGS-E15）；玻璃渗透、喷砂处理并酸蚀25分钟的氧化锆（ZGS-E25）。评估了表面粗糙度、双轴抗弯强度和MC3T3-E1细胞增殖情况。随着蚀刻时间的增加，表面粗糙度显著增加，而抗弯强度降低。ZGS-E15组和ZGS-E25组在第3天的细胞增殖率显著高于其他组。通过调整蚀刻时间可以控制玻璃渗透氧化锆的表面粗糙度和抗弯强度。玻璃渗透后进行酸蚀形成的粗糙表面显著增强了成骨细胞反应。玻璃渗透提高了氧化锆的强度，但严重的酸蚀会略微降低氧化锆的强度。