CONTEXT: Molecular diagnostic applications that use microarrays to analyze large numbers of genes simultaneously require high-quality mRNA. As these genome-wide expression assays become more commonly used in medical practice, pathologists and oncologists will benefit from understanding the importance of obtaining high-quality RNA in order to generate reliable diagnostic and prognostic information, especially as these relate to cancer. OBJECTIVE: To review the effects that different tissue preservation techniques have on RNA quality and to provide practical advice on changes in tissue acquisition and handling that may soon be needed for certain clinical situations. DATA SOURCES: A review of recent literature on RNA quality, tissue fixation, cancer diagnosis, and gene expression analysis. CONCLUSIONS: Studies have consistently shown that frozen tissue yields more intact RNA than formalin-fixed, paraffin-embedded tissue. The chemical modification, cross-linking, and fragmentation caused by formalin fixation often render RNA unsuitable for microarray analysis. Thus, when expression analysis involving hundreds or more than 1000 gene markers is contemplated, pathologists should consider freezing a specimen within half an hour (preferably within minutes) of surgical resection and storing it at -80 degrees C or below. In coming years, pathologists will need to work closely with oncologists and other clinicians to determine when saving frozen tissue for microarray expression analysis is both practical and necessary. In select cases, the benefit of implementing a few extra tissue-handling steps may improve diagnostic and prognostic capability.
CONTEXT: Molecular diagnostic applications that use microarrays to analyze large numbers of genes simultaneously require high-quality mRNA. As these genome-wide expression assays become more commonly used in medical practice, pathologists and oncologists will benefit from understanding the importance of obtaining high-quality RNA in order to generate reliable diagnostic and prognostic information, especially as these relate to cancer. OBJECTIVE: To review the effects that different tissue preservation techniques have on RNA quality and to provide practical advice on changes in tissue acquisition and handling that may soon be needed for certain clinical situations. DATA SOURCES: A review of recent literature on RNA quality, tissue fixation, cancer diagnosis, and gene expression analysis. CONCLUSIONS: Studies have consistently shown that frozen tissue yields more intact RNA than formalin-fixed, paraffin-embedded tissue. The chemical modification, cross-linking, and fragmentation caused by formalin fixation often render RNA unsuitable for microarray analysis. Thus, when expression analysis involving hundreds or more than 1000 gene markers is contemplated, pathologists should consider freezing a specimen within half an hour (preferably within minutes) of surgical resection and storing it at -80 degrees C or below. In coming years, pathologists will need to work closely with oncologists and other clinicians to determine when saving frozen tissue for microarray expression analysis is both practical and necessary. In select cases, the benefit of implementing a few extra tissue-handling steps may improve diagnostic and prognostic capability.
Authors: Armand de Gramont; Sarah Watson; Lee M Ellis; Jordi Rodón; Josep Tabernero; Aimery de Gramont; Stanley R Hamilton Journal: Nat Rev Clin Oncol Date: 2014-11-25 Impact factor: 66.675
Authors: José Luis García-Giménez; Marta Seco-Cervera; Trygve O Tollefsbol; Carlos Romá-Mateo; Lorena Peiró-Chova; Pablo Lapunzina; Federico V Pallardó Journal: Crit Rev Clin Lab Sci Date: 2017-12-11 Impact factor: 6.250
Authors: Craig April; Brandy Klotzle; Thomas Royce; Eliza Wickham-Garcia; Tanya Boyaniwsky; John Izzo; Donald Cox; Wendell Jones; Renee Rubio; Kristina Holton; Ursula Matulonis; John Quackenbush; Jian-Bing Fan Journal: PLoS One Date: 2009-12-03 Impact factor: 3.240