Integrated biomedical device for blood preparation

Author

Kersaudy-Kerhoas, Maïwenn ; Kavanagh, Deirdre ; Xue, Xiangdong ; Patel, Mitesh ; Bailey, Chris ; Dhariwal, Resham S. ; Desmulliez, Marc P Y

Author_Institution

Microsyst. Eng. Centre, Heriot-Watt Univ., Edinburgh

fYear

2008

fDate

1-4 Sept. 2008

Firstpage

447

Lastpage

452

Abstract

The separation of red blood cells from plasma flowing in microchannels is possible by bio-physical effects such as an axial migration effect and Zweifach-Fung bifurcation law. In the present study, subchannels are placed alongside a main channel to collect cells and plasma separately. The addition of a constriction in the main microchannel creates a local high shear force region, forcing the cells to migrate and concentrate towards the centre of the channel. The resulting lab-on-a-chip was manufactured using biocompatible materials. Purity efficiency was measured for mussel and human blood suspensions as different parameters including flow rate and geometries of parent and daughter channels were varied.

Keywords

biomedical equipment; blood; lab-on-a-chip; Zweifach-Fung bifurcation law; axial migration effect; bio-physical effects; blood preparation; human blood suspensions; integrated biomedical device; lab-on-a-chip; purity efficiency; red blood cells; shear force region; Bifurcation; Biological materials; Biomedical measurements; Lab-on-a-chip; Manufacturing; Microchannel; Plasma devices; Plasma materials processing; Plasma measurements; Red blood cells;

fLanguage

English

Publisher

ieee

Conference_Titel

Electronics System-Integration Technology Conference, 2008. ESTC 2008. 2nd

Conference_Location

Greenwich

Print_ISBN

978-1-4244-2813-7

Electronic_ISBN

978-1-4244-2814-4

Type

conf

DOI

10.1109/ESTC.2008.4684389

Filename

4684389