Fully-automated and field-deployable blood leukocyte separation platform using multi-dimensional double spiral (MDDS) inertial microfluidics

Author(s)

Jeon, Hyungkook; Jundi, Bakr; Choi, Kyungyong; Ryu, Hyunryul; Levy, Bruce D.; Lim, Geunbae; Han, Jongyoon; ... Show more Show less

Abstract

A fully-Automated and portable leukocyte separation platform was developed based on a new type of inertial microfluidic device, multi-dimensional double spiral (MDDS) device, as an alternative to centrifugation. By combining key innovations in inertial microfluidic device designs and check-valve-based recirculation processes, highly purified and concentrated WBCs (up to >99.99% RBC removal, ∼80% WBC recovery, >85% WBC purity, and ∼12-fold concentrated WBCs compared to the input sample) were achieved in less than 5 minutes, with high reliability and repeatability (coefficient of variation, CV < 5%). Using this, one can harvest up to 0.4 million of intact WBCs from 50 μL of human peripheral blood (50 μL), without any cell damage or phenotypic changes in a fully-Automated operation. Alternatively, hand-powered operation is demonstrated with comparable separation efficiency and speed, which eliminates the need for electricity altogether for truly field-friendly sample preparation. The proposed platform is therefore highly deployable for various point-of-care applications, including bedside assessment of the host immune response and blood sample processing in resource-limited environments.

Date issued

2020-08

URI

https://hdl.handle.net/1721.1/128431

Department

Massachusetts Institute of Technology. Research Laboratory of Electronics
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science
Massachusetts Institute of Technology. Department of Biological Engineering

Journal

Lab on a Chip

Publisher

Royal Society of Chemistry (RSC)

Citation

Jeon, Hyungkook et al. "Fully-automated and field-deployable blood leukocyte separation platform using multi-dimensional double spiral (MDDS)." Lab on a Chip 20, 19 (August 2020): 3612-3624 © The Royal Society of Chemistry

Version: Final published version

ISSN

1473-0197

1473-0189