Synthesis and characterization of nisin-incorporated alpha-tricalcium phosphate for pulp capping – An in vitro study

Q3 Dentistry
V. Baskaran, M. Madhubala, T. Menon, S. Gopal, S. Venkatesan
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引用次数: 0

Abstract

Aim: The present study aimed to synthesize and characterize Nisin incorporated Alpha Tricalcium Phosphate (NTCP) and to evaluate nisin release from NTCP when used as a pulp capping agent. Methods: Alpha TCP(aTCP) powder was synthesized by the wet chemical method. Nisin was incorporated into this prepared aTCP at various ratios and grouped as follows: Group 1 - 1% wt%; Group 2 -2.5wt%; Group 3-5%wt%; Group 4- 7.5%wt%; Group 5 -10%wt% ; Group 6 -Nisin 100 mg; All these samples were characterized using Fourier Transmission Infrared Spectroscopy(FTIR) and Differential Scanning Calorimetry (DSC). For evaluation of nisin release from NTCP using HPLC, around fifteen freshly extracted non-carious human third molars were collected and mounted in gypsum blocks. A standard box-type class-I cavity (4.5x 4.5 mm) was prepared with the pulpal floor ending at deep dentin, The experimental materials were mixed with propylene glycol to prepare it as pulp capping material in paste form. Subsequently pulpal floor of all the cavities were lined with the respective materials. The entire samples were kept to set for 30 minutes in ambient temperature and subsequently immersed in water and stored in an incubator at 37oC. After 14 days of immersion, dentin lying directly below the sample was cut and powdered using mortar and pestle. The powdered dentin was then subjected to HPLC analysis. The peak time of nisin release from experimental groups was recorded. Results: FTIR results revealed Group 5 with highly appreciable corresponding bends of amine N-H, C-H stretching and phosphate peaks at 1100 and 554 close to Control TCP samples. DSC analysis showed that TCP did not change from 30oC to 80oC and sample 1, 2, 3,and 4, did not show any denaturation point. Sample 5 showed denaturation point slightly above the denaturation temperature of nisin. On HPLC analysis, samples 4 and 5 showed higher peaks of nisin release and traces of nisin release from all the groups. Conclusion: Within the limitations of this study, it can be concluded that NTCP can be synthesized successfully without any influence on the properties of each other material. 10% NTCP provides higher release into dentinal tubules when used as a pulp capping agent.
用于盖髓的乳酸链球菌素掺入α-磷酸三钙的合成和表征——体外研究
目的:本研究旨在合成和表征掺入乳酸链球菌素的磷酸三钙(NTCP),并评估其作为盖髓剂时的释放。方法:采用湿法合成α-TCP(aTCP)粉末。将尼辛以不同比例掺入该制备的aTCP中,并分组如下:第1组-1%wt%;第2组-2.5wt%;组3-5%wt%;第4组-7.5%wt%;第5组-10%wt%;第6组-尼辛100 mg;使用傅立叶透射红外光谱(FTIR)和差示扫描量热法(DSC)对所有这些样品进行了表征。为了使用HPLC评估乳链菌素从NTCP中的释放,收集了大约15颗新提取的非龋性人类第三磨牙,并将其安装在石膏块中。制备了一个标准的箱式I类牙床(4.5x4.5mm),牙床底端位于牙本质深处。将实验材料与丙二醇混合,制成糊状的盖髓材料。随后,用各自的材料对所有牙床的牙床底进行内衬。将整个样品在环境温度下放置30分钟,随后浸入水中,并在37℃的培养箱中储存。浸泡14天后,将位于样品正下方的牙本质切开,并使用研钵和研杵进行研磨。然后对粉末状的牙本质进行HPLC分析。记录实验组乳酸链球菌肽释放的峰值时间。结果:FTIR结果显示,第5组在1100和554处具有高度可观的胺N-H、C-H拉伸和磷酸盐峰的相应弯曲,接近对照TCP样品。DSC分析表明,TCP在30oC到80oC之间没有变化,样品1、2、3和4没有显示任何变性点。样品5显示的变性点略高于乳酸链球菌肽的变性温度。在HPLC分析中,样品4和5显示出来自所有组的乳酸链球菌肽释放的高峰和乳酸链球菌肽的痕量释放。结论:在本研究的范围内,可以得出结论,NTCP可以在不影响其他材料性能的情况下成功合成。当用作牙髓覆盖剂时,10%NTCP向牙本质小管提供更高的释放。
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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来源期刊
Endodontology
Endodontology Medicine-Anatomy
CiteScore
0.60
自引率
0.00%
发文量
0
审稿时长
28 weeks
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