Progress of LPS-induced apical lesion in rat immature mandibular molars

IF 0.6 Q4 DENTISTRY, ORAL SURGERY & MEDICINE Pediatric Dental Journal Pub Date : 2023-04-01 DOI:10.1016/j.pdj.2022.12.001

Chikako Nakajima , Maiko Fujita-Otani , Yuko Mikuni-Takagaki , Kuniomi Nakamura , Kouki Hidaka , Akira Kawata , Ryota Kawamata , Shigenari Kimoto

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Abstract

Introduction

The objective was to assess the process of apical periodontitis induced by injecting Porphyromonas gingivalis lipopolysaccharide (Pg LPS) that is followed by regeneration of roots in premature permanent tooth. A novel operation table was introduced to facilitate endodontic treatment of mandibular molars.

Materials and Methods

Pulp of mandibular first molars of 6-week Wistar rats were exposed by drilling, inoculated with 0.6 μg Pg LPS and sealed with glass ionomer cement. After 1 and 2 weeks rats were sacrificed and the molar roots compared with those of vehicle controls by protein array analysis and (histo) morphology/chemistry. Micro-CT imaging visualized the lesion, and non-decalcified frozen serial sections were HE stained and subjected to TRACP-5b/ALP activity staining and immunohistochemical staining.

Results

Quantitative induction of inflammation enabled us to examine the effects of LPS-injection: micro-CT images exhibited much larger radiolucent apical lesions than did controls; CD68 (M1+ M2±) cell surface marker was more intense in Pg-1w and then subsided while CD163 (M1- M2+) was more intense in Pg-2w. Staining of IL-4, which induces M2 polarization, and angiogenic markers, VEGF/CD34 was intense in Pg-1w than in controls.

Conclusion

The introduced apparatus facilitated accurate mandible operation with ease. Thus, stages of pulpal infection were reproduced quantitatively with a small amount of Pg LPS. Proteins expressed in the root apex where inflammation occurred and the lesion in the surrounding alveolar bone revealed the inflammation time course in the immature permanent teeth. This mandibular model turned out quite useful for clinical and pharmaceutical developments in the future.

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LPS诱导大鼠未成熟下颌磨牙根尖损伤的研究进展

前言:目的是评估注射牙龈卟啉单胞菌脂多糖(Pg LPS)致过早恒牙牙根再生的过程。介绍了一种新型的手术台，方便了下颌磨牙的根管治疗。材料与方法采用钻孔法暴露6周龄Wistar大鼠下颌第一磨牙牙髓，接种0.6 μg LPS，玻璃离子水门栓封闭。1周和2周后处死大鼠，用蛋白质阵列分析和(组织)形态学/化学方法将其与对照进行比较。显微ct成像显示病变，非脱钙冷冻连续切片进行HE染色，并进行TRACP-5b/ALP活性染色和免疫组织化学染色。结果定量诱导炎症使我们能够检验lps注射的效果:微ct图像显示比对照组更大的放射性根尖病变;CD68 (M1+ M2±)细胞表面标记物在Pg-1w时较强后减弱，而CD163 (M1- M2+)细胞表面标记物在Pg-2w时较强。诱导M2极化的IL-4和血管生成标志物VEGF/CD34的染色在Pg-1w中较对照组强烈。结论所介绍的器械可方便、准确地完成下颌骨手术。因此，用少量Pg LPS定量再现了牙髓感染的分期。炎症发生的根尖和周围牙槽骨病变的蛋白表达揭示了未成熟恒牙炎症的时间过程。这个下颌模型对未来的临床和药物开发非常有用。

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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