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Supplementary information files for A quartz crystal resonator for cellular phenotyping

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posted on 2020-10-29, 10:19 authored by Carlos Da-Silva-Granja, Katie GlenKatie Glen, Niklas Sandström, Victor P. Ostanin, Rob ThomasRob Thomas, Sourav GhoshSourav Ghosh
Supplementary files for article A quartz crystal resonator for cellular phenotyping. Cell therapy manufacturing is limited by lack of online tools capable of realtime in-process monitoring, particularly of simultaneous changes in multiple orthogonal (mutually independent) parameters. Here, we studied changes in CD36 expression, number density and size (area) of erythroblasts through different stages of erythropoiesis in vitro using a quartz crystal resonator (QCR), integrated with a microscope, and flow cytometry in parallel. An analytical model was developed extending the Kanazawa-Gordon theory. Based on this model, independent correlations were established between changes in each QCR parameter, dissipation (∆Γ) and resonance frequency (〖-Δf〗_0), and CD36 expression (from flow cytometry) and cell area (from microscope). The correlation functions were used to derive an acoustic signature (-∆Γ/〖Δf〗_0) of the differentiation process that uniquely mapped the relative changes in CD36 expression and late-stage enucleation-related deviations. A method to quantify relative changes in cell area purely from the acoustic parameters was also proposed. This work demonstrated for the first time the potential of an electromechanical tool for online monitoring of concurrently varying orthogonal phenotypic parameters in cell therapy manufacturing.

Funding

Tackling Antimicrobial Resistance: An Interdisciplinary Approach

Engineering and Physical Sciences Research Council

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Engineering Biological Science - Processes and Systems for Haematopoietic Stem Cell Based Therapy Manufacture

Engineering and Physical Sciences Research Council

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History

School

  • Mechanical, Electrical and Manufacturing Engineering