In situ three-dimensional monitoring of collagen fibrillogenesis using SHG microscopy

S. Bancelin; C. Aimé; T. Coradin; M.-C. Schanne-Klein

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In situ three-dimensional monitoring of collagen fibrillogenesis using SHG microscopy

机译：SHG显微镜原位三维监测胶原原纤维形成

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We implemented in situ time-lapse Second Harmonic Generation (SHG) microscopy to monitor the three-dimensional (3D) self-assembly of collagen in solution. As a proof of concept, we tuned the kinetics of fibril formation by varying the pH and measured the subsequent exponential increase of fibril volume density in SHG images. We obtained significantly different time constants at pH = 6.5 ± 0.3 and at pH = 7.5 ± 0.3. Moreover, we showed that we could focus on the growth of a single isolated collagen fibril because SHG microscopy is sensitive to well-organized fibrils with diameter below the optical resolution. This work illustrates the potential of SHG microscopy for the rational design and characterization of collagen-based biomaterials.

机译：我们实施了原位延时第二谐波生成（SHG）显微镜，以监测溶液中胶原蛋白的三维（3D）自组装。作为概念的证明，我们通过改变pH值来调节原纤维形成的动力学，并测量了SHG图像中原纤维体积密度的随后指数增长。我们在pH = 6.5±0.3和pH = 7.5±0.3时获得了明显不同的时间常数。此外，我们表明我们可以集中于单个分离的胶原原纤维的生长，因为SHG显微镜对直径低于光学分辨率的组织良好的原纤维敏感。这项工作说明了SHG显微镜在合理设计和表征基于胶原的生物材料方面的潜力。

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《Biomedical Optics Express》 |2012年第6期|共9页
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S. Bancelin; C. Aimé; T. Coradin; M.-C. Schanne-Klein;
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中图分类生物科学;
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专利

1. Innovative TCSPC-SHG microscopy imaging to monitor matrix collagen neo-synthetized in bioscaffolds [J] . DumasD., HenrionnetC., HupontS., Bio-medical materials and engineering . 2010,第3a4期

机译：创新的TCSPC-SHG显微镜成像技术可监测生物支架中新合成的基质胶原蛋白
2. Inhibition of ERK Promotes Collagen Gel Compaction and Fibrillogenesis to Amplify the Osteogenesis of Human Mesenchymal Stem Cells in Three-Dimensional Collagen I Culture [J] . Amanda W. Lund, Jan P. Stegemann, George E. Plopper Stem Cells and Development . 2009,第2期

机译：抑制ERK促进胶原凝胶紧实和原纤维形成，以放大三维I型胶原培养物中人间充质干细胞的成骨作用。
3. Inhibition of ERK promotes collagen gel compaction and fibrillogenesis to amplify the osteogenesis of human mesenchymal stem cells in three-dimensional collagen I culture. [J] . Lund AW, Stegemann JP, Plopper GE Stem cells and development . 2009,第2期

机译：抑制ERK可以促进胶原蛋白凝胶的紧缩和原纤维形成，从而在三维I型胶原蛋白培养物中扩增人间充质干细胞的成骨作用。
4. 'Qualitative characterization of collagen hydrogel membranes using digital holographic microscopy and SHG microscopy' [C] . J. M. Flores-Moreno, Birzabith Mendoza-Novelo, Laura E. Castellano, International Conference on Speckle Metrology . 2018

机译：“使用数字全息显微镜和SHG显微镜对胶原水凝胶膜的定性表征”
5. Parallel studies of in vitro native collagen fibrillogenesis: Cold start, warm start and dialysis assembly pathways revealed by atomic force microscopy. [D] . Sinyor, Mark Jeremy. 2003

机译：体外天然胶原纤维形成的平行研究：原子力显微镜揭示的冷启动，热启动和透析组装途径。
6. In situ three-dimensional monitoring of collagen fibrillogenesis using SHG microscopy [O] . S. Bancelin, C. Aimé, T. Coradin, 2012

机译：SHG显微镜原位三维监测胶原原纤维形成
7. In situ three-dimensional monitoring of collagen fibrillogenesis using SHG microscopy. [O] . Bancelin, Stéphane, Aimé, carole, Coradin, Thibaud, 2012

机译：使用SHG显微镜原位三维监测胶原原纤维形成。

In situ three-dimensional monitoring of collagen fibrillogenesis using SHG microscopy

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