Laser-based nanoengineering of surface topographies for biomedical applications

Sabrina Schlie; Elena Fadeeva; Anastasia Koroleva; Aleksandr Ovsianikov; Jurgen Koch; Anaclet Ngezahayo; Boris. N. Chichkov

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Laser-based nanoengineering of surface topographies for biomedical applications

机译：用于生物医学应用的基于激光的表面形貌纳米工程

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摘要

In this study femtosecond laser systems were used for nanoengineering of special surface topographies in silicon and titanium. Besides the control of feature sizes, we demonstrated that laser structuring caused changes in material wettability due to a reduced surface contact area. These laser-engineered topographies were tested for their capability to control cellular behavior of human fibroblasts, SH-SY5Y neuroblastoma cells, and MG-63 osteoblasts. We found that fibroblasts reduced cell growth on the structures, while the other cell types proliferated at the same rate. These findings make laser-surface structuring very attractive for biomedical applications. Finally, to explain the results the correlation between topography and the biophysics of cellular adhesion, which is the key step of selective cell control, is discussed.

机译：在这项研究中，飞秒激光系统被用于硅和钛的特殊表面形貌的纳米工程。除了控制特征尺寸外，我们还证明了激光结构化会由于减小的表面接触面积而导致材料润湿性发生变化。测试了这些激光工程地形，以控制人成纤维细胞，SH-SY5Y神经母细胞瘤细胞和MG-63成骨细胞的细胞行为。我们发现成纤维细胞减少了结构上的细胞生长，而其他细胞类型以相同的速率增殖。这些发现使激光表面结构对于生物医学应用非常有吸引力。最后，为了解释结果，讨论了地形和细胞粘附的生物物理学之间的相关性，这是选择性细胞控制的关键步骤。

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来源
《Photonics and Nanostructures: Fundamentals and Applications》 |2011年第2期|共4页
作者
Sabrina Schlie; Elena Fadeeva; Anastasia Koroleva; Aleksandr Ovsianikov; Jurgen Koch; Anaclet Ngezahayo; Boris. N. Chichkov;
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正文语种 eng
中图分类光学;
关键词
Nanoengineering; Femtosecond laser; Surface structuring; Water contact angle; Selective cell control; Biomedicine;

机译：纳米工程;飞秒激光;表面结构;水接触角;选择性细胞控制;生物医学;

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专利

1. Laser-based nanoengineering of surface topographies for biomedical applications [J] . Sabrina Schlie, Elena Fadeeva, Anastasia Koroleva, Photonics and Nanostructures: Fundamentals and Applications . 2011,第2期

机译：用于生物医学应用的基于激光的表面形貌纳米工程
2. Tuning Chemistry and Topography of Nanoengineered Surfaces to Manipulate Immune Response for Bone Regeneration Applications [J] . Chen Zetao, Bachhuka Akash, Han Shengwei, ACS nano . 2017,第5期

机译：调整纳米工程表面的化学和地形以操纵骨再生应用的免疫应答
3. Variable length scale analysis of surface topography: characterization of titanium surfaces for biomedical applications [J] . P. F. Chauvy, C. Madore, D. Landolt Surface & Coatings Technology . 1998,第1a2期

机译：表面形貌的可变长度尺度分析：用于生物医学应用的钛表面的表征
4. Tuning Surface Chemistry and Nano-topography Using Plasma Processes for Biomedical Applications [C] . B.R. Pistillo, S. Lovascio, F. Intranuovo, Society of Vacuum Coaters Annual Technical Conference; 20070428-0503; Louisville,KY(US) . 2007

机译：使用等离子工艺调节表面化学和纳米形貌，以用于生物医学应用
5. Active surface topographies in constrained hydrogel films for biomedical applications. [D] . Ortiz, Ophir. 2010

机译：用于生物医学应用的受限水凝胶薄膜中的活性表面形貌。
6. Nanoengineered thermoresponsive magnetic hydrogels for biomedical applications [O] . Nima A. Jalili, Madyson Muscarello, Akhilesh K. Gaharwar 2016

机译：纳米工程热响应磁性水凝胶用于生物医学应用
7. Correction to “Tuning Chemistry and Topography of Nanoengineered Surfaces to Manipulate Immune Response for Bone Regeneration Applications” [O] . Zetao Chen, Akash Bachhuka, Shengwei Han, 2019

机译：校正“调整化学和纳米工程表面的地形以操纵骨再生应用的免疫应答”

Laser-based nanoengineering of surface topographies for biomedical applications

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