两性离子材料、自组装肽和生物活性玻璃与含氟化物、钙和磷离子释放、牙釉质再矿化及显微硬度的含氟涂料结合的比较评估。

Comparative Evaluation of Zwitterionic Material, Self-assembling Peptide, and Bioactive Glass Incorporated with MI Varnish for Fluoride, Calcium, and Phosphorus Ion Release, Enamel Remineralization, and Microhardness.

作者信息

Patil Snehal V, Gugwad Sachin C, Devendrappa Shashikiran N, Gaonkar Namrata N, Hadakar Savita G, Waghmode Sonali K

机构信息

Department of Paedodontics and Preventive Dentistry, School of Dental Sciences, Krishna Vishwa Vidyapeeth (Deemed to be University), Malkapur, Maharashtra, India.

出版信息

Int J Clin Pediatr Dent. 2024 Apr;17(Suppl 1):S37-S42. doi: 10.5005/jp-journals-10005-2808.

DOI:10.5005/jp-journals-10005-2808

PMID:39185263

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11343987/

Abstract

BACKGROUND

White spot lesions occur when the pathogenic bacteria have broken through the enamel layer. White spot lesions (WSLs) can be treated using a complex approach. The most crucial step is to stop demineralization and biofilm formation and use assorted strategies for remineralization of lesions, thinning, microabrasion, erosion infiltration, adhesive composite resin restorations, and the bonded facets.

AIM

To evaluate and compare the fluoride, calcium, and phosphorus ion release, remineralizing efficacy, and microhardness of zwitterionic material, self-assembling peptide, and bioactive glass (BGA) incorporated with MI Varnish.

MATERIALS AND METHODS

The original study was conducted on 60 extracted premolars; the sample size calculated was 10 per group. All samples were divided into four groups-group A, MI Varnish (control), group B, MI Varnish + zwitterionic material, group C, MI Varnish + self-assembling peptide, and group D, MI Varnish + BGA. All these groups were further evaluated and compared for fluoride, calcium, and phorphorus ion release, remineralizing efficacy, and surface microhardness (SMH).

RESULTS

Zwitterionic material, when incorporated with MI Varnish showed high fluoride and calcium ion release and high remineralizing efficacy under polarized light microscopy (PLM). BGA, when incorporated with MI Varnish showed high phosphorus ion release and higher values in the evaluation of SMH, followed by zwitterionic material and self-assembling peptide.

CONCLUSION

MI varnish alone had remineralizing properties of WSLs, but when novel materials like zwitterionic ion, self-assembling peptide, and BGA are incorporated, its efficacy increases. Among all zwitterionic ions showed superior results for fluoride and calcium ion release and remineralization and BGA for phosphorus ion release and SMH.

HOW TO CITE THIS ARTICLE

Patil SV, Gugwad SC, Devendrappa SN, Comparative Evaluation of Zwitterionic Material, Self-assembling Peptide, and Bioactive Glass Incorporated with MI Varnish for Fluoride, Calcium, and Phosphorus Ion Release, Enamel Remineralization, and Microhardness. Int J Clin Pediatr Dent 2024;17(S-1):S37-S42.

摘要

背景

当致病细菌突破牙釉质层时，就会出现白斑病变。白斑病变（WSLs）可以采用综合方法进行治疗。最关键的步骤是停止脱矿和生物膜形成，并采用各种策略使病变再矿化、变薄、微磨除、侵蚀渗透、粘结复合树脂修复以及粘结面处理。

目的

评估并比较两性离子材料、自组装肽和生物活性玻璃（BGA）与MI树脂结合后的氟、钙和磷离子释放、再矿化效果以及显微硬度。

材料与方法

原研究选取60颗拔除的前磨牙；每组计算样本量为10颗。所有样本分为四组——A组，MI树脂（对照组）；B组，MI树脂 + 两性离子材料；C组，MI树脂 + 自组装肽；D组，MI树脂 + BGA。对所有这些组进一步评估并比较氟、钙和磷离子释放、再矿化效果以及表面显微硬度（SMH）。

结果

两性离子材料与MI树脂结合时，在偏光显微镜（PLM）下显示出高氟和钙离子释放以及高再矿化效果。BGA与MI树脂结合时，显示出高磷离子释放以及在SMH评估中的较高值，其次是两性离子材料和自组装肽。

结论

单独使用MI树脂对WSLs具有再矿化特性，但当加入两性离子、自组装肽和BGA等新型材料时，其效果会增强。在所有材料中，两性离子在氟和钙离子释放及再矿化方面显示出优异结果，而BGA在磷离子释放和SMH方面表现出色。

如何引用本文

帕蒂尔SV、古格瓦德SC、德文德拉帕SN，《两性离子材料、自组装肽和生物活性玻璃与MI树脂结合用于氟、钙和磷离子释放、牙釉质再矿化及显微硬度的比较评估》。《国际临床儿科牙科学杂志》2024年；17（S - 1）：S37 - S42。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e624/11343987/7359f2ebd26d/ijcpd-17-s37-g001.jpg

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两性离子材料、自组装肽和生物活性玻璃与含氟化物、钙和磷离子释放、牙釉质再矿化及显微硬度的含氟涂料结合的比较评估。

Comparative Evaluation of Zwitterionic Material, Self-assembling Peptide, and Bioactive Glass Incorporated with MI Varnish for Fluoride, Calcium, and Phosphorus Ion Release, Enamel Remineralization, and Microhardness.

作者信息

机构信息

出版信息

BACKGROUND

AIM

MATERIALS AND METHODS

RESULTS

CONCLUSION

HOW TO CITE THIS ARTICLE

背景

目的

材料与方法

结果

结论

如何引用本文

相似文献

本文引用的文献

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