Unraveling Cancer Metastatic Cascade Using Microfluidics-based Technologies

Overview

Journal Biophys Rev

Publisher Springer

Specialty Biophysics

Date 2022 May 9

PMID 35528034

Authors

Maziar Hakim

Leyla Kermanshah

Hesam Abouali

Hanieh Mohammad Hashemi

Alireza Yari

Farhad Khorasheh

Iran Alemzadeh

Manouchehr Vossoughi

Affiliations

Soon will be listed here.

Abstract

Cancer has long been a leading cause of death. The primary tumor, however, is not the main cause of death in more than 90% of cases. It is the complex process of metastasis that makes cancer deadly. The invasion metastasis cascade is the multi-step biological process of cancer cell dissemination to distant organ sites and adaptation to the new microenvironment site. Unraveling the metastasis process can provide great insight into cancer death prevention or even treatment. Microfluidics is a promising platform, that provides a wide range of applications in metastasis-related investigations. Cell culture microfluidic technologies for in vitro modeling of cancer tissues with fluid flow and the presence of mechanical factors have led to the organ-on-a-chip platforms. Moreover, microfluidic systems have also been exploited for capturing and characterization of circulating tumor cells (CTCs) that provide crucial information on the metastatic behavior of a tumor. We present a comprehensive review of the recent developments in the application of microfluidics-based systems for analysis and understanding of the metastasis cascade from a wider perspective.

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