DocumentCode
38353
Title
Rapid Characterization of Magnetic Moment
Author
Ooi, C. ; Earhart, Christopher M. ; Wilson, Robert J. ; Wang, Shan X.
Author_Institution
Chem. Eng. Dept., Stanford Univ., Stanford, CA, USA
Volume
49
Issue
7
fYear
2013
fDate
Jul-13
Firstpage
3434
Lastpage
3437
Abstract
NCI-H1650 lung cancer cell lines labeled with magnetic nanoparticles via the Epithelial Cell Adhesion Molecule (EpCAM) antigen were previously shown to be captured at high efficiencies by a microfabricated magnetic sifter. If fine control and optimization of the magnetic separation process is to be achieved, it is vital to be able to characterize the labeled cells´ magnetic moment rapidly. We have thus adapted a rapid prototyping method to obtain the saturation magnetic moment of these cells. This method utilizes a cross-correlation algorithm to analyze the cells´ motion in a simple fluidic channel to obtain their magnetophoretic velocity, and is effective even when the magnetic moments of cells are small. This rapid characterization is proven useful in optimizing our microfabricated magnetic sifter procedures for magnetic cell capture.
Keywords
adhesion; cancer; cellular biophysics; fluidics; magnetic moments; magnetic particles; magnetic separation; nanoparticles; EpCAM antigen; NCI-H1650 lung cancer cell lines; cross-correlation; epithelial cell adhesion molecule antigen; fine control; labeled cells; magnetic cell capture; magnetic nanoparticles; magnetic separation; magnetophoretic velocity; microfabricated magnetic sifter; optimization; saturation magnetic moment; simple fluidic channel; Magnetic moments; Magnetic resonance imaging; Magnetic separation; Magnetometers; Nanoparticles; Saturation magnetization; Soft magnetic materials; Cell separation; magnetic devices; magnetic microspheres; magnetic nanoparticles; magnetic separation;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.2013.2245310
Filename
6558938
Link To Document