Sungryul Park, Sangwook Lee, Hyun Soo Kim, Hong Jin Choi, Ok Chan Jeong, Ruixian Lin, Younghak Cho, Min-Ho Lee
Mikrochimica acta 2022 Aug 15Flow cytometry has become an indispensable tool for counting, analyzing, and sorting large cell populations in biological research and medical practice. Unfortunately, it has limitations in the analysis of non-spherically shaped cells due to the variation of their alignment with respect to the flow direction and, hence, the optical interrogation axis, resulting in unreliable cell analysis. Here, we present a simple on-chip acoustofluidic method to fix the orientation of ellipsoidal cells and focus them into a single, aligned stream. Specifically, by generating acoustic standing waves inside a 100 ⋅ 100 µm square-shaped microchannel, we successfully aligned and focused up to 97.7% of a population of Euglena gracilis (an ellipsoidal shaped microalgal species) cells in the center of the microchannel with high precision at a volume rate of 25 to 200 µL min-1. Uniform positioning of ellipsoidal cells is essential for making flow cytometry applicable to the investigation of a greater variety of cell populations and is expected to be beneficial for ecological studies and aquaculture. © 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.
Sungryul Park, Sangwook Lee, Hyun Soo Kim, Hong Jin Choi, Ok Chan Jeong, Ruixian Lin, Younghak Cho, Min-Ho Lee. Square microchannel enables to focus and orient ellipsoidal Euglena gracilis cells by two-dimensional acoustic standing wave. Mikrochimica acta. 2022 Aug 15;189(9):331
PMID: 35969307
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