Rutherford device to measure deformability of red blood cells

ORAL

Abstract

Red blood cells (RBCs) lose their deformability in response to many environmental and physiological cues. We present a simple microfluidic device, consisting of a channel that opens up to a funnel behind a single obstacle. By tracking the trajectories of single RBCs after they pass the obstacle we are able to measure their Young’s modulus. Softer RBCs and stiffer RBCs emerge along different streamlines in our device. We calibrate the trajectories of healthy and artificially stiffened RBCs in this microfluidic device against the Young’s moduli obtained from AFM measurements of these RBCs. Further, we demonstrated that healthy and malaria-infected RBCs follow different trajectories in our device.

*We thank IIT Bombay for seed funding and the WHEELS Global Foundation (grants RD/0117-DON00G0-001 and DO/2017-SUMP001-001) for supporting this work. DM acknowledges the Swedish Research Council for funding.

Presenters

  • Dhrubaditya Mitra

    • Nordic Institute for Theoretical Physics (NORDITA), Stockholm, Sweden
    • NORDITA

Authors

  • Dhrubaditya Mitra

    • Nordic Institute for Theoretical Physics (NORDITA), Stockholm, Sweden
    • NORDITA

  • Debjani Paul

    • Indian Institute of Technology -- Bombay

  • Savita Kumari

    • Indian Institute of Science -- Bombay

  • Ninad Mehendale

    • Indian Institute of Science -- Bombay

  • Shamik Sen

    • Indian Institute of Technology -- Bombay

  • Swati Patankar

    • Indian Institute of Technology -- Bombay

  • Chhaminder Kaur

    • IIT-B

  • Priyanka Naik

    • IIT-B

  • Vijay Mistari

    • IIT-B

  • Tanushree Roy

    • IIT-B