Expression of Stro-1, Runx-2, Osterix, and Alp in Alveolar Bone Regeneration Process Following the Administration of Hydroxyapatite Gypsum Puger (HAGP) Scaffold

Malaysian Journal of Medicine and Health Sciences Pub Date : 2023-05-15 DOI:10.47836/mjmhs.19.3.19

A. Naini, Agus Sumono, R. Parnaadji, Nike Hendrijantini, Siti Khaerunnisa

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Abstract

Introduction: Tooth extraction before denture placement could result in trauma and damage to up to 50% of the alveolar bone, inducing bone resorption, and affecting the patient’s quality of life. Hydroxyapatite Gypsum Puger (HAGP) can be used as an alternative to bone graft material which degrades slowly, affecting the proliferation and activity of cells that are responsible for bone tissue engineering. This study aimed to analyze the regeneration mechanism of alveolar bone by administering the HAGP scaffold and observing the Stro-1, Runx-2, Osterix, and ALP expression. Methods: Laboratory experimental research was conducted and we used 150-355µm HAGP scaffold particles, applied in vivo inside alveolar sockets of the rats for 7, 14, and 28 days, followed by immunohistochemical examination of Stro-1, Runx-2, Osterix, and ALP expressions. Results: The HAGP scaffold group showed that the Stro-1 expression was significantly higher than the K(-) group, and the Runx-2 expression increased on day 7 and decreased on day 28 in the HAGP and K(-) groups. Osterix expression increased from day 7, 14, to day 28. The high expression of Osterix on day 28 means it took over the Runx-2 function. In ALP there was a significant increase on day 7. ALP expression was a sign of early osteoblast differentiation and production by cells, this extracellular matrix mineralization is an indicator of the osteogenic process. Conclusion: Alveolar bone regeneration mechanism in rats revealed that the expression of Stro-1, Runx-2, Osterix, and ALP was higher in the HAGP scaffold group compared to the control group on days 7,14, and 28.

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羟基磷灰石石膏(HAGP)支架在牙槽骨再生过程中Stro-1、Runx-2、Osterix和Alp的表达

导言:假牙放置前拔牙可造成高达50%的牙槽骨创伤和损伤，诱导骨吸收，影响患者的生活质量。羟基磷灰石石膏Puger (HAGP)可以作为替代骨移植材料，其降解缓慢，影响负责骨组织工程的细胞的增殖和活性。本研究旨在通过给药HAGP支架，观察Stro-1、Runx-2、Osterix和ALP的表达，分析牙槽骨再生机制。方法:采用室内实验研究，采用150 ~ 355µm HAGP支架颗粒，分别在大鼠牙槽槽内活体应用7、14、28 d，免疫组化检测Stro-1、Runx-2、Osterix和ALP的表达。结果:HAGP支架组Stro-1表达明显高于K(-)组，Runx-2表达在第7天升高，第28天降低。Osterix表达量从第7天、第14天增加到第28天。Osterix在第28天的高表达意味着它接管了Runx-2的功能。ALP在第7天显著升高。ALP的表达是细胞早期成骨细胞分化和生成的标志，这种细胞外基质矿化是成骨过程的一个指标。结论:大鼠牙槽骨再生机制显示，在第7、14、28天，HAGP支架组的Stro-1、Runx-2、Osterix和ALP的表达均高于对照组。

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来源期刊

Malaysian Journal of Medicine and Health Sciences Medicine-Medicine (all)

CiteScore

0.50

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0.00%

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期刊介绍： The Malaysian Journal of Medicine and Health Sciences (MJMHS) is published by the Faculty of Medicine and Health Sciences, Universiti Putra Malaysia. The main aim of the MJMHS is to be a premier journal on all aspects of medicine and health sciences in Malaysia and internationally. The focus of the MJMHS will be on results of original scientific research and development, emerging issues and policy analyses pertaining to medical, biomedical and clinical sciences.