Micromachines (Sep 2017)

Accurate Extraction of the Self-Rotational Speed for Cells in an Electrokinetics Force Field by an Image Matching Algorithm

  • Xieliu Yang,
  • Xihui Niu,
  • Zhu Liu,
  • Yuliang Zhao,
  • Guanglie Zhang,
  • Wenfeng Liang,
  • Wen Jung Li

DOI
https://doi.org/10.3390/mi8090282
Journal volume & issue
Vol. 8, no. 9
p. 282

Abstract

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We present an image-matching-based automated algorithm capable of accurately determining the self-rotational speed of cancer cells in an optically-induced electrokinetics-based microfluidic chip. To automatically track a specific cell in a video featuring more than one cell, a background subtraction technique was used. To determine the rotational speeds of cells, a reference frame was automatically selected and curve fitting was performed to improve the stability and accuracy. Results show that the algorithm was able to accurately calculate the self-rotational speeds of cells up to ~150 rpm. In addition, the algorithm could be used to determine the motion trajectories of the cells. Potential applications for the developed algorithm include the differentiation of cell morphology and characterization of cell electrical properties.

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