Mechanical and Physical Properties of Experimental Antifungal Denture Base Resins

Oral health and dental studies Pub Date : 2018-08-29 DOI:10.31532/oralhealthdentstud.1.1.005

Kyle Maldonado, David S. Xu, Yapin Wang, Jian-feng Zhang, S. Hamdan, Z. Wen, P. Fidel, Mairi C. Noverr, Xiaoming Xu

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引用次数: 4

Abstract

Many denture wearers suffer from fungal infections, particularly Candida albicans, due to failure to properly clean or remove the prosthesis. These infections can cause denture stomatitis, which often leads to irritated or traumatized tissues. Current denture base materials do not have antifungal properties. We have recently synthesized several new antifungal compounds containing 1,4-diazabicyclo [2.2.2] octane (DABCO) (DC16NF, 1 DC11MAF, C2-DC11MAF) that have shown significant antifungal properties. The purpose of this study is to incorporate these novel antifungal compounds and test mechanical and physical properties of the resulting antifungal materials. The Clotrimazole was also incorporated into denture acrylics and used as a positive control. Samples were then prepared into discs and bars. All groups were tested for flexural strength, flexural modulus, water sorption, and solubility. The results showed that all experimental groups exhibited similar flexural strength as the control, except DC16NF, which had significantly lower strength than the control. DC16NF and DC11MAF both exhibited significantly lower flexural modulus compared to the control while C2DC11MAF exhibited similar flexural modulus as the control. All experimental groups exhibited higher water sorption than the control and a similar or lower solubility as compared to the control. These results suggest that the new antifungal denture base materials possess similar mechanical and physical properties as commercial denture materials, although the formulations can be further optimized. Received: May 14, 2018 Accepted: August 13, 2018 Published: August 29, 2018 Copyright: © 2018 Maldonado K, et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Corresponding author: Kyle Maldonado and Xiaoming Xu, Department of Comprehensive Dentistry and Biomaterials, Louisiana State University Health Sciences Center, USA. E-mail: Kylemaldonado90@gmail.com and xxu@lsuhsc.edu Citation: Maldonado K, Xu D, Wang Y, Zhang JF, Hamdan S, Wen ZT, Fidel PL, Noverr MC, Xu X. Mechanical and Physical Properties of Experimental Antifungal Denture Base Resins. Oral Health and Dental Studies. 2018; 1(1):5. Open Access

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实验性抗真菌义齿基托树脂的力学和物理性能

由于未能正确清洁或移除假牙，许多义齿佩戴者都会受到真菌感染，尤其是白色念珠菌。这些感染可导致假牙口腔炎，这通常会导致刺激或创伤组织。目前的义齿基托材料不具有抗真菌特性。我们最近合成了几种新的抗真菌化合物，这些化合物含有1,4-二氮杂双环[2.2.2]辛烷（DABCO）（DC16NF，1 DC11MAF，C2-DC11MAF），显示出显著的抗真菌特性。本研究的目的是结合这些新型抗真菌化合物，并测试所得抗真菌材料的机械和物理性能。氯三唑也被掺入义齿丙烯酸中，并用作阳性对照。然后将样品制备成圆盘和条状。所有组均测试了弯曲强度、弯曲模量、吸水性和溶解度。结果表明，除DC16NF强度明显低于对照组外，所有实验组均表现出与对照组相似的弯曲强度。与对照相比，DC16NF和DC11MAF都表现出显著较低的弯曲模量，而C2DC11MAF表现出与对照相似的弯曲模量。所有实验组都表现出比对照组更高的吸水性和与对照组相似或更低的溶解度。这些结果表明，新型抗真菌义齿基托材料具有与商业义齿材料相似的机械和物理性能，尽管配方可以进一步优化。接收时间：2018年5月14日接受时间：2018月13日发表时间：2018 2018年8月29日版权所有：©2018 Maldonado K等人。这是一篇根据知识共享署名许可证条款分发的开放获取文章，该许可证允许在任何媒体上不受限制地使用、分发和复制，前提是原作者和来源均应得到认可。通讯作者：Kyle Maldonado和Xiaoming Xu，美国路易斯安那州立大学健康科学中心综合牙科和生物材料系。电子邮件：Kylemaldonado90@gmail.com和xxu@lsuhsc.edu引文：Maldonado K，Xu D，Wang Y，Zhang JF，Hamdan S，Wen ZT，Fidel PL，Noverr MC，Xu X.实验性抗真菌义齿基树脂的力学和物理性能。口腔健康和牙科研究。2018年；1（1）:5.开放访问

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Oral health and dental studies

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