A silicon micromachined device for use in blood cell deformability studies

Author

Tracey, Mark C. ; Greenaway, Richard S. ; Das, Arindam ; Kaye, Paul H. ; Barnes, Adrian J.

Author_Institution

Eng. Res. & Dev. Centre, Hertfordshire Univ., Hatfield, UK

Volume

42

Issue

8

fYear

1995

Firstpage

751

Lastpage

761

Abstract

An application of silicon micromachining to the analysis of blood cell rheology is described. The system, based upon a micromachined flow cell, provides a specific measurement of each cell in a statistically significant population in terms of both flow velocity profile and an index of cell volume while the cells flow through an array of microchannels. The rationale, design, and fabrication of the silicon micromachined flow cell is discussed. Interrelated considerations determining the design of the associated fluidic, mechanical, imaging, and real-time image analysis subsystems are examined. Sample data comparing normal and iron deficiency anaemic blood are presented to illustrate the potential of this technique.

Keywords

biological techniques; cellular biophysics; haemorheology; micromachining; silicon; Si; biological research instrumentation; blood cell deformability studies; blood cell rheology; cell volume index; flow velocity profile; iron deficiency anaemic blood; microchannels array; real-time image analysis subsystems; silicon micromachined device; silicon micromachined flow cell; statistically significant population; Blood; Cells (biology); Fabrication; Fluid flow measurement; Microchannel; Micromachining; Rheology; Silicon; Velocity measurement; Volume measurement; Blood Cells; Hemorheology; Humans; Silicon;

fLanguage

English

Journal_Title

Biomedical Engineering, IEEE Transactions on

Publisher

ieee

ISSN

0018-9294

Type

jour

DOI

10.1109/10.398635

Filename

398635