Haoyu He, Peiyao Wang, Zhuo Liu, Rongchuan Feng, Bang Liu, Qiang Song, Yahui Hu, Weihua Fu
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引用次数: 0
摘要
目的:本研究探讨了六角微织钛片对成纤维细胞生长和胶原蛋白合成的影响,成纤维细胞生长和胶原蛋白合成是吻合口愈合的关键因素。在这些薄片上培养小鼠成纤维胚胎干细胞(NIH/3T3)。细胞增殖采用 CCK8 检测法进行评估,TGF-β/Smad 通路相关基因及胶原 I 型和 III 型的表达采用 qRT-PCR 和 Western 印迹法进行评估:结果:六角形钛板明显促进了成纤维细胞的生长和胶原蛋白的合成。通过 CCK8 检测,接触角最小(48 ± 2.3°)的 50-30 组的细胞生长率最高。基因表达分析表明,50-30 组的 TGF-β1、Smad2、Smad3、Smad4 和 COL1A1 在第 7 天显著上调。同时,通过 Western 印迹分析,50-30 组在第 7 天的 I 型胶原表达明显增加:我们的研究结果表明,激光制备的六角形微纹理钛板可增强亲水性,促进成纤维细胞生长,激活 TGF-β/Smad 通路,从而促进胶原蛋白的合成。这些结果对组织修复和再生具有重要意义。
Effect of microtextured titanium sheets using laser enhances proliferation and collagen synthesis of mouse fibroblasts via the TGF-β/Smad pathway.
Purpose: This study investigates the effects of hexagonal microtextured titanium sheets on fibroblast growth and collagen synthesis, crucial factors in anastomotic healing.
Materials and methods: Hexagonal titanium sheets were fabricated using a laser microtextured machine. Mouse fibroblastic embryonic stem cells (NIH/3T3) were cultured on these sheets. Cell proliferation was assessed using a CCK8 assay, and expression of TGF-β/Smad pathway-related genes and collagen types I and III was evaluated through qRT-PCR and western blot.
Results: Hexagonal titanium sheets significantly enhanced fibroblast growth and collagen synthesis. The 50-30 group, with the smallest contact angle (48 ± 2.3°), exhibited the highest cell growth rates by CCK8 assay. Gene expression analysis revealed that TGF-β1, Smad2, Smad3, Smad4, and COL1A1 were significantly upregulated in the 50-30 group on day 7. Meanwhile, type I collagen expression was significantly increased in the 50-30 group on day 7 by western blot analysis.
Conclusion: Our findings demonstrate that laser-fabricated hexagonal microtextured titanium sheets enhance hydrophilicity and promote fibroblast growth, activating the TGF-β/Smad pathway to facilitate collagen synthesis. These results have important implications for tissue repair and regeneration.
期刊介绍:
BioMedical Engineering OnLine is an open access, peer-reviewed journal that is dedicated to publishing research in all areas of biomedical engineering.
BioMedical Engineering OnLine is aimed at readers and authors throughout the world, with an interest in using tools of the physical and data sciences and techniques in engineering to understand and solve problems in the biological and medical sciences. Topical areas include, but are not limited to:
Bioinformatics-
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Biomechanics-
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Human Dynamics-
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Biomaterials-
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BioMEMS and On-Chip Devices-
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Biomolecular Engineering-
Biosensors-
Cardiovascular Systems Engineering-
Cellular Engineering-
Clinical Engineering-
Computational Biology-
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Modeling Methodologies-
Nanomaterials and Nanotechnology in Biomedicine-
Respiratory Systems Engineering-
Robotics in Medicine-
Systems and Synthetic Biology-
Systems Biology-
Telemedicine/Smartphone Applications in Medicine-
Therapeutic Systems, Devices and Technologies-
Tissue Engineering
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