LED-FISH: Fluorescence microscopy based on light emitting diodes for the molecular analysis of Her-2/neu oncogene amplification

<p>Abstract</p> <p>Light emitting diodes (LED), which are available as small monochromatic light sources with characteristic features such as maximum illumination power combined with minimum energy consumption and extremely long lifespan have already proved as a highly potential lo...

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Main Authors: Vollmer Ekkehard, Stellmacher Florian, Schultz Holger, Zeiser Tobias, Lang Dagmar S, Zabel Peter, Goldmann Torsten
Format: Article
Language:English
Published: BMC 2008-12-01
Series:Diagnostic Pathology
Online Access:http://www.diagnosticpathology.org/content/3/1/49
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spelling doaj-64306bb2d7c54cf19047a4d6121b42652020-11-24T20:42:00ZengBMCDiagnostic Pathology1746-15962008-12-01314910.1186/1746-1596-3-49LED-FISH: Fluorescence microscopy based on light emitting diodes for the molecular analysis of Her-2/neu oncogene amplificationVollmer EkkehardStellmacher FlorianSchultz HolgerZeiser TobiasLang Dagmar SZabel PeterGoldmann Torsten<p>Abstract</p> <p>Light emitting diodes (LED), which are available as small monochromatic light sources with characteristic features such as maximum illumination power combined with minimum energy consumption and extremely long lifespan have already proved as a highly potential low-cost alternative for specific diagnostic applications in clinical medicine such as tuberculosis fluorescence microscopy. Likewise, the most reliable evaluation of Her-2/neu (c-erbB2) gene amplification, which has been established in the last few years for routine diagnosis in clinical pathology as determinant towards Herceptin-based treatment of patients with breast cancer, is based on fluorescence <it>in situ </it>hybridization (FISH) and corresponding high priced fluorescence equipment. In order to test the possibility to utilize the advantages of low-cost LED technology on FISH analysis of c-erbB2 gene expression for routine diagnostic purposes, the applicability of a standard bright field Carl Zeiss Axiostar Plus microscope equipped with a Fraen AFTER* LED Fluorescence Microscope Kit for the detection of Her-2/neu gene signals was compared to an advanced Nikon Eclipse 80i fluorescence microscope in combination with a conventional 100W mercury vapor lamp. Both microscopes were fitted with the same Quicam FAST CCD digital camera to unequivocally compare the quality of the captured images. C-erbB2 gene expression was analyzed in 30 different human tissue samples of primary invasive breast cancer, following formalin fixation and subsequent paraffin-embedding. The Her2/neu gene signals (green) were identifiable in the tumor cells in all cases and images of equal quality were captured under almost identical conditions by 480 nm (blue) LED module equipped standard Axiostar microscope as compared to conventional fluorescence microscopy. In this first attempt, these monochromatic LED elements proved in principle to be suitable for the detection of Her-2/neu gene expression by FISH. Thus, our own experiences emphasize the high potential of this technology to provide a serious alternative to conventional fluorescence microscopy in routine pathology; representing a sustainable technological progress, this low-cost technology will clearly give direction also to the growing field of molecular pathology.</p> <p>* AFTER = Amplified Fluorescence by transmitted Excitation of Radiation</p> http://www.diagnosticpathology.org/content/3/1/49
collection DOAJ
language English
format Article
sources DOAJ
author Vollmer Ekkehard
Stellmacher Florian
Schultz Holger
Zeiser Tobias
Lang Dagmar S
Zabel Peter
Goldmann Torsten
spellingShingle Vollmer Ekkehard
Stellmacher Florian
Schultz Holger
Zeiser Tobias
Lang Dagmar S
Zabel Peter
Goldmann Torsten
LED-FISH: Fluorescence microscopy based on light emitting diodes for the molecular analysis of Her-2/neu oncogene amplification
Diagnostic Pathology
author_facet Vollmer Ekkehard
Stellmacher Florian
Schultz Holger
Zeiser Tobias
Lang Dagmar S
Zabel Peter
Goldmann Torsten
author_sort Vollmer Ekkehard
title LED-FISH: Fluorescence microscopy based on light emitting diodes for the molecular analysis of Her-2/neu oncogene amplification
title_short LED-FISH: Fluorescence microscopy based on light emitting diodes for the molecular analysis of Her-2/neu oncogene amplification
title_full LED-FISH: Fluorescence microscopy based on light emitting diodes for the molecular analysis of Her-2/neu oncogene amplification
title_fullStr LED-FISH: Fluorescence microscopy based on light emitting diodes for the molecular analysis of Her-2/neu oncogene amplification
title_full_unstemmed LED-FISH: Fluorescence microscopy based on light emitting diodes for the molecular analysis of Her-2/neu oncogene amplification
title_sort led-fish: fluorescence microscopy based on light emitting diodes for the molecular analysis of her-2/neu oncogene amplification
publisher BMC
series Diagnostic Pathology
issn 1746-1596
publishDate 2008-12-01
description <p>Abstract</p> <p>Light emitting diodes (LED), which are available as small monochromatic light sources with characteristic features such as maximum illumination power combined with minimum energy consumption and extremely long lifespan have already proved as a highly potential low-cost alternative for specific diagnostic applications in clinical medicine such as tuberculosis fluorescence microscopy. Likewise, the most reliable evaluation of Her-2/neu (c-erbB2) gene amplification, which has been established in the last few years for routine diagnosis in clinical pathology as determinant towards Herceptin-based treatment of patients with breast cancer, is based on fluorescence <it>in situ </it>hybridization (FISH) and corresponding high priced fluorescence equipment. In order to test the possibility to utilize the advantages of low-cost LED technology on FISH analysis of c-erbB2 gene expression for routine diagnostic purposes, the applicability of a standard bright field Carl Zeiss Axiostar Plus microscope equipped with a Fraen AFTER* LED Fluorescence Microscope Kit for the detection of Her-2/neu gene signals was compared to an advanced Nikon Eclipse 80i fluorescence microscope in combination with a conventional 100W mercury vapor lamp. Both microscopes were fitted with the same Quicam FAST CCD digital camera to unequivocally compare the quality of the captured images. C-erbB2 gene expression was analyzed in 30 different human tissue samples of primary invasive breast cancer, following formalin fixation and subsequent paraffin-embedding. The Her2/neu gene signals (green) were identifiable in the tumor cells in all cases and images of equal quality were captured under almost identical conditions by 480 nm (blue) LED module equipped standard Axiostar microscope as compared to conventional fluorescence microscopy. In this first attempt, these monochromatic LED elements proved in principle to be suitable for the detection of Her-2/neu gene expression by FISH. Thus, our own experiences emphasize the high potential of this technology to provide a serious alternative to conventional fluorescence microscopy in routine pathology; representing a sustainable technological progress, this low-cost technology will clearly give direction also to the growing field of molecular pathology.</p> <p>* AFTER = Amplified Fluorescence by transmitted Excitation of Radiation</p>
url http://www.diagnosticpathology.org/content/3/1/49
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