/

/

聚合物芯片高通量发现的生物材料

JoVE Journal
Bioingegneria

This content is Free Access.

JoVE Journal Bioingegneria

Polymer Microarrays for High Throughput Discovery of Biomaterials

Please note that all translations are automatically generated. Click here for the English version.

聚合物芯片高通量发现的生物材料

DOI:

•

13:37 min

•

January 25, 2012

•

Andrew L. Hook, Chien-Yi Chang, Jing Yang, David J. Scurr, Robert Langer, Daniel G. Anderson, Steve Atkinson, Paul Williams, Martyn C. Davies, Morgan R. Alexander

¹Laboratory of Biophysics and Surface Analysis,University of Nottingham , ²School of Molecular Medical Sciences,University of Nottingham , ³David H. Koch Institute for Integrative Cancer Research,Massachusetts Institute of Technology

Capitoli

00:05Titolo
02:39Preparation of Low-fouling Background and Monomer Solutions
04:03Polymer Microarray Formation
08:01High Throughput Surface Characterization HTSC
09:06Bacterial Attachment Assay
11:10Representative Results
12:24Conclusion

Summary

Traduzione automatica

形成的聚合物的微阵列，使用一个芯片上的光聚合技术的描述。使用原子力显微镜（AFM），水的接触角的测量，X-射线光电子能谱法和时间飞行二次离子质谱法和细胞附着试验的高吞吐量表面表征也被描述。

Tags

Polymer Microarrays High Throughput Discovery Biomaterials Combinatorial Library On-chip Photopolymerization Monomer Solutions Robotic Printing Device UV Irradiation Biological Assays Stem Cell Attachment Cell Sorting Bacterial Adhesion High Throughput Surface Characterization Water Contact Angle Atomic Force Microscopy X-ray Photoelectron Spectroscopy Time-of-flight Secondary Ion Mass Spectrometry Molecular Moiety

Article

Embed

AGGIUNGI ALLA PLAYLIST

Usage Statistics

Video correlati

白色念珠菌生物膜芯片（CA BChip）为高通量的抗真菌药物筛选

组合合成和高通量的蛋白质释放的聚合物薄膜和纳米粒子库

膀胱膀胱分析各种啮齿类动物模型中使用的增广的生物材料评价

高分子基因传递纳米粒子的纳米粒子跟踪分析和高通量流式细胞仪评价

一个完整的皮肤缺损模型，以评估生物材料的血管化<em>体内</em

一个耦合试验，有限元建模方法以评估生物材料软的高应变率力学响应

使用Tomoauto：一个协议，用于高通量自动化低温电子断层扫描

高通量单细胞的分离和文化的微流体平台

医疗器械细菌高通量鉴定驱蚊聚合物

3D Microtissues 用于可注射再生疗法和高通量药物筛选

Read Article