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J Biomed Mater Res A. 2020 May;108(5):1035-1044. doi: 10.1002/jbm.a.36878. Epub 2020 Feb 10.
2
Comparison of Three Biphasic Calcium Phosphate Block Substitutes: A Histologic and Histomorphometric Analysis in the Dog Mandible.三种双相磷酸钙块状替代物的比较:犬下颌骨的组织学和组织形态计量学分析
Int J Periodontics Restorative Dent. 2019 May/Jun;39(3):315-323. doi: 10.11607/prd.3837.
3
Maxillary sinus augmentation using biphasic calcium phosphate: dimensional stability results after 3-6 years.使用双相磷酸钙进行上颌窦提升:3至6年后的尺寸稳定性结果
J Periodontal Implant Sci. 2019 Feb 26;49(1):47-57. doi: 10.5051/jpis.2019.49.1.47. eCollection 2019 Feb.
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Bone Graft Substitutes: Current Concepts and Future Expectations.骨移植替代物:当前概念与未来期望
J Hand Surg Am. 2019 Jun;44(6):497-505.e2. doi: 10.1016/j.jhsa.2018.10.032. Epub 2019 Jan 28.
5
Evaluation of Osteoconduction of Biphasic Calcium Phosphate Ceramic in the Calvaria of Rats: Microscopic and Histometric Analysis.双相磷酸钙陶瓷在大鼠颅骨中的骨传导性评估:微观和组织计量学分析
J Funct Biomater. 2019 Jan 17;10(1):7. doi: 10.3390/jfb10010007.
6
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J Orthop Trauma. 2019 Apr;33(4):203-213. doi: 10.1097/BOT.0000000000001420.
7
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J Craniofac Surg. 2018 May;29(3):584-593. doi: 10.1097/SCS.0000000000004300.
8
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J Biomed Mater Res B Appl Biomater. 2018 May;106(4):1546-1557. doi: 10.1002/jbm.b.33963. Epub 2017 Jul 29.
9
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10
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[不同烧结温度对双相磷酸钙陶瓷颗粒材料介孔结构及异位成骨的影响]

[Influence of different sintering temperatures on mesoporous structure and ectopic osteogenesis of biphasic calcium phosphate ceramic granule materials].

作者信息

Zhang Dong, Zong Xianlei, Guo Xiaoshuang, Du Hong, Song Guodong, Jin Xiaolei

机构信息

The 16th Department of Plastic Surgery, Plastic Surgery Hospital, Peking Union Medical College, Chinese Academy of Medical Sciences, Beijing, 100144, P.R.China.

出版信息

Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi. 2021 Jan 15;35(1):95-103. doi: 10.7507/1002-1892.202007074.

DOI:10.7507/1002-1892.202007074
PMID:33448206
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8171604/
Abstract

OBJECTIVE

To detect the difference in the osteogenesis ability of biphasic calcium phosphate (BCP) ceramic granular materials with different mesoporous diameters prepared at different sintering temperatures through and experiments, so as to provide evidence for screening BCP materials with better clinical application parameters.

METHODS

Three kinds of BCP (materials 1, 2, 3) were prepared by mixing hydroxyapatite (HA) and β-tricalcium phosphate (β-TCP) at a ratio of 8∶2 and sintered at 1 050, 1 150, and 1 250℃ for 3 hours, respectively. The internal porosity and the diameter, volume, and area of the mesopore were measured by Brunauer-Emmett-Teller test (BET); the composition of the material was evaluated by X-ray diffraction (XRD); the microscopic surface morphology of the material was observed by scanning electron microscopy (SEM). The 3rd generation bone marrow mesenchymal stem cells (BMSCs) from Sprague-Dawley rats were co-cultured with the materials 1, 2, and 3 for 7 days respectively (groups A, B, and C), and the cells adhesion on the materials was observed by SEM and phalloidine staining, respectively. Cell proliferation activity was measured by cell counting kit 8 method. , 9 muscle bags were made in dorsal muscles of 9 beagles, respectively. The muscle bags were randomly divided into 3 groups (3 per beagle in each group) and materials 1, 2, and 3 were placed into the muscle bags of groups A, B, and C, respectively. After 1, 2, and 3 months of operation, 3 beagles were anesthetized and the samples were stained with HE, Masson, and Safranin, and the bone formation area ratio in the BCP gap was calculated. Real-time fluorescence quantitative PCR (qRT-PCR) was performed to detect the expressions of bone-related genes [including alkaline phosphatase (ALP), osteopontin (OPN), and osteocalcin (OC)].

RESULTS

The BET test showed that with the increase of sintering temperature, the internal porosity of the particles did not change significantly, but the diameter, volume, and area of the mesopores gradually decreased. The XRD detection showed that the XRD waves of HA and β-TCP could be seen in all 3 kinds of materials; SEM showed that there were widely distributed macropores on the surface of 3 kinds of BCPs, and the interpores connected with the others. , BMSCs adhered and proliferated on the surfaces of 3 kinds of BCPs, and the cell biocompatibility of the materials in groups B and C was better than that in group A. , obvious osteoid tissue deposition could be observed in the intergranular space of 3 kinds of BCPs from 2 months after implantation. The bone formation area ratio of each group increased with time. The bone formation area ratio in group A was significantly higher than that in groups B and C at 2 and 3 months after implantation, and in group A than in group B at 1 month ( <0.05). qRT-PCR showed that the expressions of osteogenic related genes peaked at 2 months in group A, and gradually increased with time in groups B and C. The relative expressions of ALP and OPN mRNAs in group A were significantly higher than those in groups B and C at 1 month after implantation, the relative expression of OC mRNA in group A was significantly higher than that in groups B and C at 2 months after operation, the relative expression of ALP mRNA in groups B and C and the relative expression of OPN mRNA in group B were significantly higher than those in group A, all showing significant differences ( <0.05); there was no significant difference in the relative expression of each gene among the other groups at each time point ( >0.05).

CONCLUSION

The mesoporous diameter of BCP decreases with the increase of sintering temperature. Different mesoporous diameters lead to different ectopic osteogenesis of BCP materials. BCP material with mesoporous diameter of 12.57 nm has better osteogenic ability which can activate the osteogenic gene earlier. The mesoporous diameter is expected to be an adjustable index for optimizing the osteogenic capacity of BCP materials.

摘要

目的

通过体外和体内实验,检测不同烧结温度制备的具有不同介孔直径的双相磷酸钙(BCP)陶瓷颗粒材料成骨能力的差异,为筛选临床应用参数更佳的BCP材料提供依据。

方法

将羟基磷灰石(HA)与β-磷酸三钙(β-TCP)按8∶2比例混合制备3种BCP(材料1、2、3),分别于1 050、1 150和1 250℃烧结3小时。采用Brunauer-Emmett-Teller试验(BET)测定材料内部孔隙率及介孔直径、体积和面积;通过X射线衍射(XRD)评估材料组成;用扫描电子显微镜(SEM)观察材料微观表面形态。将第3代Sprague-Dawley大鼠骨髓间充质干细胞(BMSCs)分别与材料1、2、3共培养7天(A、B、C组),分别通过SEM和鬼笔环肽染色观察细胞在材料上的黏附情况。采用细胞计数试剂盒8法检测细胞增殖活性。选取9只比格犬,分别在其背部肌肉制作9个肌袋。将肌袋随机分为3组(每组每只比格犬3个),分别将材料1、2、3放入A、B、C组肌袋。术后1、2、3个月,分别麻醉3只比格犬,样本进行苏木精-伊红(HE)、Masson和番红染色,计算BCP间隙内骨形成面积比。采用实时荧光定量PCR(qRT-PCR)检测骨相关基因[包括碱性磷酸酶(ALP)、骨桥蛋白(OPN)和骨钙素(OC)]的表达。

结果

BET试验显示,随着烧结温度升高,颗粒内部孔隙率无明显变化,但介孔直径、体积和面积逐渐减小。XRD检测显示,3种材料均可见HA和β-TCP的XRD波峰;SEM显示,3种BCP表面均有大量分布的大孔,且孔隙相互连通。BMSCs在3种BCP表面均能黏附并增殖,B、C组材料的细胞生物相容性优于A组。植入2个月后,3种BCP颗粒间隙均可见明显类骨质组织沉积。各组骨形成面积比均随时间增加。植入后2、3个月时,A组骨形成面积比显著高于B、C组,1个月时A组高于B组(P<0.05)。qRT-PCR显示,A组成骨相关基因表达在2个月时达峰值,B、C组随时间逐渐升高。植入后1个月时,A组ALP和OPN mRNA相对表达量显著高于B、C组;术后2个月时,A组OC mRNA相对表达量显著高于B、C组;B、C组ALP mRNA相对表达量及B组OPN mRNA相对表达量均显著高于A组,差异均有统计学意义(P<0.05);各时间点其他组间各基因相对表达量差异均无统计学意义(P>0.05)。

结论

BCP介孔直径随烧结温度升高而减小。不同介孔直径导致BCP材料异位成骨不同。介孔直径为12.57 nm的BCP材料成骨能力更佳,能更早激活成骨基因。介孔直径有望成为优化BCP材料成骨能力的可调控指标。