A microfabricated deformability-based flow cytometer with application to malaria
Hansen Bow,Igor V. Pivkin,Monica Diez-Silva,Stephen J. Goldfless,Ming Dao,Jacquin C. Niles,Subra Suresh,Jongyoon Han +7 more
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TLDR
An automated microfabricated "deformability cytometer" is introduced that measures dynamic mechanical responses of 10(3) to 10(4) individual RBCs in a cell population, resulting in a population-based correlation between biochemical properties, such as cell surface markers, and dynamic mechanical deformability.Abstract:
Malaria resulting from Plasmodium falciparum infection is a major cause of human suffering and mortality. Red blood cell (RBC) deformability plays a major role in the pathogenesis of malaria. Here we introduce an automated microfabricated “deformability cytometer” that measures dynamic mechanical responses of 103 to 104 individual RBCs in a cell population. Fluorescence measurements of each RBC are simultaneously acquired, resulting in a population-based correlation between biochemical properties, such as cell surface markers, and dynamic mechanical deformability. This device is especially applicable to heterogeneous cell populations. We demonstrate its ability to mechanically characterize a small number of P. falciparum-infected (ring stage) RBCs in a large population of uninfected RBCs. Furthermore, we are able to infer quantitative mechanical properties of individual RBCs from the observed dynamic behavior through a dissipative particle dynamics (DPD) model. These methods collectively provide a systematic approach to characterize the biomechanical properties of cells in a high-throughput manner.read more
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Hydrodynamic stretching of single cells for large population mechanical phenotyping
Daniel R. Gossett,Henry T. K. Tse,Serena A. Lee,Yong Ying,Anne Lindgren,Otto O. Yang,Jianyu Rao,Amander T. Clark,Dino Di Carlo +8 more
TL;DR: An automated microfluidic technology capable of probing single-cell deformability at approximately 2,000 cells/s is demonstrated, bringing the statistical accuracy of traditional flow cytometric techniques to label-free biophysical biomarkers, enabling applications in clinical diagnostics, stem cell characterization, and single- cell biophysics.
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Rare cell isolation and analysis in microfluidics
Yuchao Chen,Peng Li,Po-Hsun Huang,Yuliang Xie,John D. Mai,Lin Wang,null Nam-Trung Nguyen,Tony Jun Huang +7 more
TL;DR: The design considerations of representative microfluidic devices for rare cell isolation and analysis and a perspective on the development trends and promising research directions in this field are proposed.
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Sorting cells by size, shape and deformability.
TL;DR: This communication shows how shape and deformability, a mainly untapped source of specificity in preparative and analytical microfluidic devices can be measured and used to separate cells.
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Recent advances in microfluidic techniques for single-cell biophysical characterization
TL;DR: Emerging tools enabled by microfluidic technologies for single-cell biophysical characterization are reviewed and different techniques are compared.
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Quantitative diagnosis of malignant pleural effusions by single-cell mechanophenotyping.
Henry T. K. Tse,Daniel R. Gossett,Yo Sup Moon,Mahdokht Masaeli,Marie Sohsman,Yong Ying,Kimberly Mislick,Ryan P. Adams,Jianyu Rao,Dino Di Carlo +9 more
TL;DR: De deformability cytometry should be useful as a quick screening tool to form an early diagnosis of MPEs, and an algorithmic diagnostic scoring system was developed on the basis of quantitative features of two-dimensional distributions of single-cell mechanophenotypes from 119 samples.
References
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Book
Analysis of transport phenomena
TL;DR: In this article, the authors present a survey of the main problems of self-adjoint EIGEN-value problems and propose a solution to solve them based on a simplified version of the standard EIGE algorithm.