甲巯咪唑处理的白化大鼠骨髓间充质干细胞成牙分化及牙本质再生能力的评估(光镜研究)
Assessment of bone marrow-derived mesenchymal stem cells capacity for odontogenic differentiation and dentin regeneration in methimazole-treated albino rats (Light microscopic Study).
作者信息
Rabea Amany A
机构信息
Associate Professor of Oral Biology, Faculty of Oral and Dental Medicine, Future University in Egypt, Cairo, Egypt.
出版信息
Saudi Dent J. 2022 Jan;34(1):27-35. doi: 10.1016/j.sdentj.2021.09.019. Epub 2021 Sep 20.
BACKGROUND
Methimazole is an antithyroid drug. It has side effects on many tissues. Bone marrow-derived mesenchymal stem cells (BM-MSCs) are promising in the field of tissue regeneration.
OBJECTIVE
To investigate the capacity of BM-MSCs on odontogenic differentiation and dentin regeneration at different time intervals in methimazole treated rats.
METHODS
Twenty-eight male albino rats were classified as: got distilled water. obtained therapeutic dosage of methimazole as pro-drug "Neo-Mercazole®". received methimazole then solitary injection of BM-MSCs at day 21. obtained methimazole and single injection of BM-MSCs at the beginning of the experiment. Light microscope was used to examine specimens. Recently formed collagen and β-catenin-immunoreactivity area% were appraised histomorphometrically and statistically.
RESULTS
Histological examination of odontoblasts and dentin illustrated normal structure in Group I and nearly normal features in Group IV. Group II demonstrated discontinuation of odontoblastic layer and areas of different stainability in dentin. Group III showed an evidently wide layer of odontoblast-like cells and distinct dentinal tubules. Masson's trichrome results of dentin in Groups I &IV showed apparently equal areas of new and old collagen. Group II illustrated old collagen mainly. Group III explored new collagen only. β-catenin-immunoreactivity was strong in Groups I & IV, mild in Group II and moderate in Group III. Statistical results revealed that the highest mean of newly formed collagen area% was in Group III, followed by Group I, Group IV then Group II respectively. Regarding β-catenin-immunoreactivity area%, the highest mean was recorded in Group I, subsequently Group IV, next Group III then Group II.
CONCLUSIONS
Methimazole has destructive consequences. BM-MSCs have a time-based increased capacity for odontogenic differentiation and regeneration of dentin.
背景
甲巯咪唑是一种抗甲状腺药物。它对许多组织都有副作用。骨髓间充质干细胞(BM-MSCs)在组织再生领域具有广阔前景。
目的
研究在甲巯咪唑处理的大鼠中,不同时间间隔下BM-MSCs的成牙分化和牙本质再生能力。
方法
将28只雄性白化大鼠分为:接受蒸馏水。接受治疗剂量的甲巯咪唑作为前药“新唛卡唑”。接受甲巯咪唑,然后在第21天单独注射BM-MSCs。在实验开始时接受甲巯咪唑并单次注射BM-MSCs。用光学显微镜检查标本。通过组织形态计量学和统计学方法评估新形成的胶原蛋白和β-连环蛋白免疫反应区百分比。
结果
成牙本质细胞和牙本质的组织学检查显示,I组结构正常,IV组特征接近正常。II组显示成牙本质细胞层中断,牙本质中有不同染色性区域。III组显示有明显较宽的成牙本质样细胞层和明显的牙本质小管。I组和IV组牙本质的Masson三色染色结果显示新胶原和旧胶原的面积明显相等。II组主要显示旧胶原。III组仅发现新胶原。I组和IV组β-连环蛋白免疫反应强,II组轻度,III组中度。统计结果显示,新形成胶原面积百分比的最高平均值在III组,其次分别是I组、IV组和II组。关于β-连环蛋白免疫反应区百分比,最高平均值记录在I组,随后是IV组、III组和II组。
结论
甲巯咪唑有破坏性后果。BM-MSCs具有基于时间的成牙分化和牙本质再生能力增强。
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