Multifunctional MgF 2 /Polydopamine Coating on Mg Alloy for
发布时间:2024-03-19 20:00
Mg alloy is of great potential in the application of vascular stent due to its degradation in physical environment and proper mechanical property.However its mechanical integrity does not meet the clinical requirement due to relatively fast degradation.Besides,in order to accelerate the reendothelialization of Mg-based stents,it needs surface modification to improve the attachment,growth and adhesion of endothelial cells(ECs).To solve the main obstacles,an anti-corrosion and quick endothelializa...
【文章页数】:11 页
【文章目录】:
1. Introduction
2.Experimental
2.1. Materials and surface treatment
2.2. Surface characterization
2.3. In vitro biodegradation
2.3.1. Immersion tests
2.4. Cell culture and tests
2.4.1. Cell culture
2.4.2. Cell adhesion and proliferation tests
2.4.3. NO release
2.5. Statistical analysis
3. Results
3.1. Surface characterization
3.2. In vitro degradation
3.2.1. Immersion tests
3.2.2. Electrochemical tests
3.3. Cell culture and tests
3.3.1. Cell adhesion and proliferation
3.3.2. NO release
4. Discussion
4.1. In vitro degradation behavior
4.2. Cells reaction to the HF-PDA-treated magnesium alloy in vitro
5. Conclusion
本文编号:3932562
【文章页数】:11 页
【文章目录】:
1. Introduction
2.Experimental
2.1. Materials and surface treatment
2.2. Surface characterization
2.3. In vitro biodegradation
2.3.1. Immersion tests
2.4. Cell culture and tests
2.4.1. Cell culture
2.4.2. Cell adhesion and proliferation tests
2.4.3. NO release
2.5. Statistical analysis
3. Results
3.1. Surface characterization
3.2. In vitro degradation
3.2.1. Immersion tests
3.2.2. Electrochemical tests
3.3. Cell culture and tests
3.3.1. Cell adhesion and proliferation
3.3.2. NO release
4. Discussion
4.1. In vitro degradation behavior
4.2. Cells reaction to the HF-PDA-treated magnesium alloy in vitro
5. Conclusion
本文编号:3932562
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