Preparation and antibacterial evaluation of silver-doped zirconia for enhanced dental restoration performance.

Tadahiro Higashinakao, Hiroshi Kono, Mihiro Itotagawa, Yuki Sugiura, Yuta Otsuka, Masafumi Kikuchi
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Abstract

Because of its superior strength, esthetic properties, and excellent biocompatibility, zirconia is preferred for dental prosthetic such as crowns and bridges. However, zirconia crowns and bridges are susceptible to secondary caries owing to margin leakage. Silver is a well-known antibacterial agent, making it a desirable additive to zirconia crowns and bridges for secondary caries prevention. This study focuses on imparting zirconia composite with antibacterial properties to enhance its protective capacity in dental restorations. We used the sol-gel method to dope Ag into zirconia. Silver-doped zirconia powders were prepared at Zr:Ag molar ratios of 100:0,100:0.1, 100:0.5, 100:1, 100:3, and 100:5 (respective samples denoted as Ag-0, Ag-0.1, Ag-0.5, Ag-1, Ag-3, and Ag-5) and were subjected to firing at various temperatures (400 °C-1000 °C). We performed x-ray diffraction to investigate the crystal phase of these powders and x-ray fluorescence and field emission scanning electron microscopy to analyze their elemental composition and surface morphology, respectively. Moreover, we performed spectrophotometry to determine theL*a*b* color values, conducted dissolution tests, and quantified the Ag content through inductively coupled plasma optical emission spectroscopy. In addition, we studied the antibacterial activity of the samples. Analyses of the samples fired at ⩽600 °C revealed a predominantly white to grayish-white coloration and a tetragonal crystal phase. Firing at ⩾700 °C resulted in gray or dark gray coloration and a monoclinic crystal phase. The Ag content decreased after firing at 900 °C or 1000 °C. Ag-0.5 and above exhibited antibacterial activity against bothEscherichia coliandStaphylococcus aureus. Therefore, the minimum effective silver-doped zirconia sample was found to be Ag-0.5. This study allows the exploration of the antimicrobial potential of silver-doped zirconia materials in dental applications such as prosthdontical lining materials, promoting the development of innovative restorations with protective capacity against secondary caries.

制备掺银氧化锆并对其进行抗菌评估,以提高牙齿修复性能。
氧化锆具有卓越的强度、美观性和良好的生物相容性,因此是牙冠和牙桥等牙科修复体的首选材料。然而,由于边缘渗漏,氧化锆牙冠和牙桥很容易继发龋齿。银是一种众所周知的抗菌剂,因此是氧化锆牙冠和牙桥预防二次龋齿的理想添加剂。本研究的重点是赋予氧化锆复合材料抗菌特性,以增强其在牙科修复中的保护能力。我们采用溶胶-凝胶法将银掺入氧化锆中。掺银氧化锆粉末的 Zr 与 Ag 摩尔比分别为 100:0、100:0.1、100:0.5、100:1、100:3 和 100:5(样品分别称为 Ag-0、Ag-0.1、Ag-0.5、Ag-1、Ag-3 和 Ag-5),并在不同温度(400-1,000 °C)下进行烧结。我们用 X 射线衍射法研究了这些粉末的晶相,并用 X 射线荧光和场发射扫描电子显微镜分别分析了它们的元素组成和表面形态。此外,我们还用分光光度法测定了 L*a*b* 色值,进行了溶解试验,并通过电感耦合等离子体光发射光谱 (ICP-OES) 对银含量进行了定量。此外,我们还研究了样品的抗菌活性。在≤600 °C下烧制的样品分析表明主要呈白色至灰白色,晶体为四方晶相。焙烧温度≥700 °C时,样品呈灰色或深灰色,晶相为单斜晶相。在 900 °C 或 1,000 °C 煅烧后,Ag 含量下降。Ag-0.5 及以上的银对大肠杆菌和金黄色葡萄球菌都有抗菌活性。因此,掺银氧化锆样品的最低有效值为 Ag-0.5。这项研究有助于探索掺银氧化锆材料在牙科应用中的抗菌潜力,如作为牙科修复衬里材料,促进具有防止继发性龋齿能力的创新修复体的开发。
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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