Microfluidic Tissue Mesodissection in Molecular Cancer Diagnostics

We present a mesodissection platform that retains the advantages of laser-based dissection instrumentation with the speed and ease of manual dissection. Tissue dissection in clinical laboratories is often performed by manually scraping a physician-selected region from standard glass slide mounts. In...

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Veröffentlicht in:SLAS technology 2017-08, Vol.22 (4), p.425-430
Hauptverfasser: Surrette, Christine, Shoudy, David, Corwin, Alex, Gao, Wei, Zavodszky, Maria I., Karsten, Stanislav L., Miller, Todd, Gerdes, Michael J., Wood, Nichole, Nelson, John R., Puleo, Chris M.
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container_end_page 430
container_issue 4
container_start_page 425
container_title SLAS technology
container_volume 22
creator Surrette, Christine
Shoudy, David
Corwin, Alex
Gao, Wei
Zavodszky, Maria I.
Karsten, Stanislav L.
Miller, Todd
Gerdes, Michael J.
Wood, Nichole
Nelson, John R.
Puleo, Chris M.
description We present a mesodissection platform that retains the advantages of laser-based dissection instrumentation with the speed and ease of manual dissection. Tissue dissection in clinical laboratories is often performed by manually scraping a physician-selected region from standard glass slide mounts. In this manner, costs associated with dissection remain low, but spatial resolution is compromised. In contrast, laser microdissection methods maintain spatial resolution that matches the requirements for analysis of important tissue heterogeneity but remains costly and labor intensive. We demonstrate a microfluidic tool for rapid extraction of histological regions of interest from formalin-fixed paraffin-embedded tissue, which uses a simple and automated method that is compatible with most downstream enzymatic reactions, including protocols used for next-generation DNA sequencing.
doi_str_mv 10.1177/2211068216680208
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source Alma/SFX Local Collection; EZB Electronic Journals Library
subjects and genomics
clinical automation
microfluidics
molecular biology
robotics and instrumentation
title Microfluidic Tissue Mesodissection in Molecular Cancer Diagnostics
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