Title :
A microfluidic assembly line for adherent cell assays
Author :
Jensen-McMullin, Cynthia ; Ng, Stephen ; Bachman, Mark ; Sims, Chris ; Allbritton, Nancy ; Li, G.-P.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Irvine, CA, USA
Abstract :
We report on a novel system for the analysis of adherent cells. Using standard lithography techniques, cell pallets are fabricated upon which cells are cultured and subsequently transported through a microfluidic system. This technology eliminates the need for the release of a cell from its growth surface, which can lead to membrance damage, and/or disruption of normal cell functions. We have demonstrated RBL (rat basophil leukemia) cells will grow on SU8 pallets and remain viable after the pallet is released. Cells on pallets can then be sorted based on pre-selected criteria and sent to a docking station for cell assays. Once completed, the cells may be interrogated and retained for further processing or disposal.
Keywords :
biological techniques; cellular transport; microfluidics; ultraviolet lithography; cell assays; cell culture; cell function; cell pallet fabrication; lithography; microfluidic assembly line; rat basophil leukemia cells; Adhesives; Assembly; Biomembranes; Cells (biology); Limiting; Microfluidics; Physiology; Sorting; Surface morphology; Surface resistance; adherent cells; assay; flow cytometry; sorting;
Conference_Titel :
Microtechnology in Medicine and Biology, 2005. 3rd IEEE/EMBS Special Topic Conference on
Print_ISBN :
0-7803-8711-2
DOI :
10.1109/MMB.2005.1548377
