Objective: To determine the cytokine levels in immunity evaluation of dental restoration membrane of xenogeneic acellular dermal matrix using cytometric beads array(CBA). Methods: The dental restoration membrane of xenogeneic acellular dermal matrix was selected as a test sample and implanted into Balb/C mice IL-6, IL-10, IL-17A, IL-23, TNF-α, IFN-γ, IFN-β, MCP-1 and GM-CSF were measured by CBA. The data of the test group and the control group were analyzed statistically. Results: Compared with the negative control group, there was no significant difference in the IL-10、IL-23、IFN-β content in the positive control group, while the IL-1α, IL-1β, IL-6, IL-17A, TNF-α, IFN-γ, MCP-1 and GM-CSF contents were significantly higher than the sham control group(P<0. 01). In the sample groups, except for the high dose group of MCP-1 and TNF-α, which was significantly higher than the sham operation group(P<0. 01 and P<0. 05, respectively). The contents of IL-6, IL-10, IL-17A, IL-23, TNF-α, IFN-γ, IFN-β, MCP-1, GM-CSF were not changed significantly(P>0. 05). Conclusion: The dental restoration membrane of xenogeneic acellular dermal matrix have no significant effect on cytokines, as show at the levels of cytokines measured using CBA method.
[1] 王璐, 许凤. 口腔修复膜材料在牙种植中引导骨再生的效应分析[J]. 中国医疗器械信息, 2018, 24(3): 146
WANG L, XU F. Effect of dental repair membrane materials on guided bone regeneration in dental implants[J]. China Med Device Inf, 2018, 24(3): 146
[2] 常云柱. 牙种植中引导骨再生使用口腔修复膜材料的效果观察[J]. 全科口腔医学电子杂志, 2018(5): 13
CHANG YZ. Observation on the effect of using oral restorative membrane materials to guide bone regeneration in dental implants[J]. General J Stomatol, 2018(5): 13
[3] 欧阳冰. 两种口腔修复膜引导牙种植患者骨再生的临床效果[J]. 中国民康医学, 2018, 30(1): 103
OU-YANG B. Clinical effect of two kinds of oral restoration membranes in guiding bone regeneration in dental implant patients[J]. Med J Chin People Health, 2018, 30(1): 103
[4] 薛媛, 但年华, 但卫华, 等. 口腔修复膜的研究进展及其应用[J]. 生物医学工程与临床, 2016, 20(1): 101
XUE Y, DAN NH, DAN WH, et al. Progress and application of dental restoration membrane[J]. BME Clin Med, 2016, 20(1): 101
[5] 周静, 邓蔡, 张进锋. 引导种植牙区骨再生的异种脱细胞真皮基质[J]. 中国组织工程研究, 2013, 17(25): 4715
ZHOU J, DENG C, ZHANG JF. Acellular dermal matrix used for guiding bone regeneration in the dental implant area[J]. Chin J Tissue Eng Res, 2013, 17(25): 4715
[6] RICARDO L, JENNA LD, ERIC HJ, et al. The effect of cell debris within biologic scaffolds upon the macrophage response[J]. J Biomed Mater Res A, 2017, 105(8): 2109
[7] UNAI M, RAQUEL RH, SUGOI RC, et al. Tissue-specific decellularization methods: rationale and strategies to achieve regenerative compounds[J]. Int J Mol Sci, 2020, 30, 21(15): 5447
[8] TIMOTHY JK, ILEA TS, STEPHEN FB. Methods of tissue decellularization used for preparation of biologic scaffolds and in vivo relevance[J]. Methods, 2015, 84: 25
[9] 陈亮, 邵安良, 魏利娜, 等. 应用Gal 抗原缺失小鼠评价可降解异种脱细胞真皮基质的免疫原性[J]. 药物分析杂志, 2019, 39(8): 1370
CHEN L, SHAO AL, WEI LN, et al. Evaluation of immunogenicity of biodegradable acellular dermis matrix in Gal antigen-deficient mice[J]. Chin J Pharm Anal, 2019, 39(8): 1370
[10] GB/T 16886. 20-2015 医疗器械生物学评价第20 部分: 医疗器械免疫毒理学试验原则和方法B/T 16886. 20-2015 医疗器械生物学评价第20 部分: 医疗器械免疫毒理学试验原则和方法[S]. 2015
GB/T 16886. 20-2015 Biological evaluation of Medical Devices–Part 20: Principles and Methods for Immunotoxicology Testing of Medical DevicesB/T 16886. 20-2015 Biological evaluation of Medical Devices–Part 20: Principles and Methods for Immunotoxicology Testing of Medical Devices[S]. 2015
[11] 郑锦标, 梁杰, 张培华. 脱细胞真皮基质的制备、作用机理、免疫原性及其在整形外科中的应用现状[J]. 广东医学院学报, 2008, 26(2): 208
ZHENG JB, LIANG J, ZHANG PH. Preparation, mechanism of action, immunogenicity, and application status of acellular dermal matrix in plastic surgery[J]. J Guangdong Med Coll, 2008, 26(2): 208
[12] 丁桂凤. Roitt 免疫学基础[M]. 北京: 高等教育出版社, 2005: 167
DING GF. Roitt’s Essential Immunology[M]. Beijing: Higher Education Press, 2005: 167
[13] 陈曦, 朱波, 陈正堂. IL-17/IL-17R 与恶性肿瘤[J]. 免疫学杂志, 2010, 26(4): 366
CHEN X, ZHU B, CHEN ZT. IL-17/IL-17R and cancer[J]. Immul J, 2010, 26(4): 366
[14] ANNA B, EMANUELE S, NICOLA B, et al. Biologics that inhibit the Th17 pathway and related cytokines to treat inflammatory disorders[J]. Expert Opin Biol Ther, 2017 , 17(11): 1363
[15] 田红岭, 侯玉柱, 王若雨, 等. IL-23 生理病理学意义及信号通路[J]. 免疫学杂志, 2014, 30(6): 555
TIAN HL, HOU YZ, WANG RY, et al. Physiological and pathological significance of IL-23 and its signaling pathways[J]. Immul J, 2014, 30(6): 555
[16] 曹雪涛, 叶天星, 杜平. 细胞因子和细胞因子网络的基础研究进展[J]. 国外医学(免疫学分册), 1990, 5: 230
CAO XT, YE TX, DU P. Basic research progress of cytokines and cytokine networks[J]. Foreign Med(Sect Immunol), 1990, 5: 230
[17] 杜娟, 程功, 吴煦. 流式液相蛋白定量技术在药物毒理学中的应用[C]. 2017[2020-2-13]//cpfd.cnki.com.cn/Article/CPFDTOTAL-2GDV201707001064.htm
DU J, CHENG G, WU X. Application of Flow Cytometry Protein Quantitative Technology in Drug Toxicology[C].//cpfd.cnki.com.cn/Article/CPFDTOTAL-2GDV201707001064.htm
[18] EDWARD M, RUDI V, HOMERO S. Cytometric bead array: a multiplexed assay platform with applications in various areas of biology[J]. Clin Immunol, 2004 Mar, 110(3): 252
[19] LUIS C, DONNA MM. Cytokine measurement using cytometric bead arrays[J]. Methods Mol Biol, 2012, 845: 425
[20] 杜晓丹, 方玉, 奚廷斐, 等. BSA 作为动物源性医疗器械细胞免疫检测阳性对照物的研究[J]. 药物分析杂志, 2010, 30(7): 184
DU XD, FANG Y, XI TF, et al. Study on BSA as a positive control for cellular immunity evaluation of animal-derived medical devices[J]. Chin J Pharm Anal, 2010, 30(7): 184
[21] 陈婧, 冯喜英, 关巍, 等. 单核细胞趋化蛋白-1 与肺部疾病关系的研究进展[J]. 中华肺部疾病杂志, 2017, 10(5): 601
CHEN J, FENG XY, GUAN W, et al. Research progress on the relationship between monocyte chemoattractant protein-1 and lung diseases[J]. Chin J Lung Dis, 2017, 10(5): 601
[22] HAMMAN O, MAHMOUD O, ZAHRAN M., et al. A possible role for tnf-α in coordinating inflammation and angiogenesis in chronic liver disease and Hepatocellular Carcinoma[J]. Gastrointest Cancer Res, 2013, 6(4): 107
