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Engineered fluidic systems to understand lymphatic cancer metastasis

Joshua D. Greenlee, Michael R. King

2020Biomicrofluidics30 citationsDOIOpen Access PDF

Abstract

The majority of all cancers metastasize initially through the lymphatic system. Despite this, the mechanisms of lymphogenous metastasis remain poorly understood and understudied compared to hematogenous metastasis. Over the past few decades, microfluidic devices have been used to model pathophysiological processes and drug interactions in numerous contexts. These devices carry many advantages over traditional 2D in vitro systems, allowing for better replication of in vivo microenvironments. This review highlights prominent fluidic devices used to model the stages of cancer metastasis via the lymphatic system, specifically within lymphangiogenesis, vessel permeability, tumor cell chemotaxis, transendothelial migration, lymphatic circulation, and micrometastases within the lymph nodes. In addition, we present perspectives for the future roles that microfluidics might play within these settings and beyond.

Topics & Concepts

LymphangiogenesisLymphatic systemMetastasisCancer metastasisMicrofluidicsIn vivoCancerTumor microenvironmentLymphatic EndotheliumCancer cellBiologyCancer researchMedicineTumor cellsNanotechnologyPathologyMaterials scienceInternal medicineBiotechnologyLymphatic System and Diseases3D Printing in Biomedical ResearchCancer Cells and Metastasis
Engineered fluidic systems to understand lymphatic cancer metastasis | Litcius