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Discrimination between Breast Cancer Cells and White Blood Cells by Non-Invasive Measurements: Implications for a Novel In Vitro-Based Circulating Tumor Cell Model Using Digital Holographic Cytometry

Breast cancer is the second most common cancer worldwide. Metastasis is the main reason for death in breast cancer, and today, there is a lack of methods to detect and isolate circulating tumor cells (CTCs), mainly due to their heterogeneity and rarity. There are some systems that are designed to de...

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Published in:	Applied sciences 2020-07, Vol.10 (14)
Main Authors:	Schich, Zahra El, Janicke, Birgit, Alm, Kersti, Dizeyi, Nishtman, Persson, Jenny L, Wingren, Anette Gjorloff
Format:	Article
Language:	English
Subjects:	Breast cancer Cancer cells Comparative analysis Diagnosis Flow cytometry Holography in medicine Leukocytes Measurement Technology application
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container_title	Applied sciences
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creator	Schich, Zahra El Janicke, Birgit Alm, Kersti Dizeyi, Nishtman Persson, Jenny L Wingren, Anette Gjorloff
description	Breast cancer is the second most common cancer worldwide. Metastasis is the main reason for death in breast cancer, and today, there is a lack of methods to detect and isolate circulating tumor cells (CTCs), mainly due to their heterogeneity and rarity. There are some systems that are designed to detect rare epithelial cancer cells in whole blood based on the most common marker used today, the epithelial cell adhesion molecule (EpCAM). It has been shown that aggressive breast cancer metastases are of non-epithelial origin and are therefore not always detected using EpCAM as a marker. In the present study, we used an in vitro-based circulating tumor cell model comprising a collection of six breast cancer cell lines and white blood cell lines. We used digital holographic cytometry (DHC) to characterize and distinguish between the different cell types by area, volume and thickness. Here, we present significant differences in cell size-related parameters observed when comparing white blood cells and breast cancer cells by using DHC. In conclusion, DHC can be a powerful diagnostic tool for the characterization of CTCs in the blood. Keywords: breast cancer; cell area; cell thickness; cell volume; circulating tumor cell; CD45; digital holographic cytometry; EpCAM
doi_str_mv	10.3390/appl0144854
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Metastasis is the main reason for death in breast cancer, and today, there is a lack of methods to detect and isolate circulating tumor cells (CTCs), mainly due to their heterogeneity and rarity. There are some systems that are designed to detect rare epithelial cancer cells in whole blood based on the most common marker used today, the epithelial cell adhesion molecule (EpCAM). It has been shown that aggressive breast cancer metastases are of non-epithelial origin and are therefore not always detected using EpCAM as a marker. In the present study, we used an in vitro-based circulating tumor cell model comprising a collection of six breast cancer cell lines and white blood cell lines. We used digital holographic cytometry (DHC) to characterize and distinguish between the different cell types by area, volume and thickness. Here, we present significant differences in cell size-related parameters observed when comparing white blood cells and breast cancer cells by using DHC. 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subjects	Breast cancer Cancer cells Comparative analysis Diagnosis Flow cytometry Holography in medicine Leukocytes Measurement Technology application
title	Discrimination between Breast Cancer Cells and White Blood Cells by Non-Invasive Measurements: Implications for a Novel In Vitro-Based Circulating Tumor Cell Model Using Digital Holographic Cytometry
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