Highly permeable silicon membranes for shear free chemotaxis and rapid cell labeling
Author:
Affiliation:
1. Department of Biomedical Engineering
2. University of Rochester
3. Rochester, USA
4. SiMPore Inc.
5. , USA
6. Department of Mechanical Engineering
Abstract
Ultrathin and nanoporous membranes are integrated into microfluidic devices to enable shear-free chemotaxis and rapid cell labeling.
Publisher
Royal Society of Chemistry (RSC)
Subject
Biomedical Engineering,General Chemistry,Biochemistry,Bioengineering
Link
http://pubs.rsc.org/en/content/articlepdf/2014/LC/C4LC00326H
Reference46 articles.
1. Fluid shear stress differentially modulates expression of genes encoding basic fibroblast growth factor and platelet-derived growth factor B chain in vascular endothelium.
2. Shear stress-induced changes of membrane transporter localization and expression in mouse proximal tubule cells
3. Fluid Shear Stress Induces Renal Epithelial Gene Expression through Polycystin-2-Dependent Trafficking of Extracellular Regulated Kinase
4. Shear-Induced Resistance to Neutrophil Activation via the Formyl Peptide Receptor
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