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Single cell classification using statistical learning on mechanical properties measured by mems tweezers

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Ahmadian, Bahram | Mbujamba, Deborah | Gerbedoen, Jean Claude | Kumemura, Momoko | Fujita, Hiroyuki | Collard, Dominique | Dabo-Niang, Sophie | Lagadec, Chann | Tarhan, Mehmet

Edité par CCSD -

International audience. Cell population is heterogenous and so presents a wide range of properties as metastatic potential. But using rare cells for clinical applications requires precise classification of individual cells. Here, we propose a multi-parameter analysis of single cells to classify them using statistical learning techniques and to predict the sub-population of each cell, although they may have close characteristics. We used MEMS tweezers to analyze mechanical properties (stiffness, viscosity, and size) of single cells from two different breast cancer cell lines in a controlled environment and run supervised learning methods to predict the population they belong to. This label-free method is a significant step forward to distinguish rare cell sub-populations for clinical applications.

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