Automated Microscopy of Amniotic Fluid Cells: Detection of FISH Signals Using the <i>FastFISH</i>® Imaging System

Vol. 21, No. 6, 2006

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Paper

Automated Microscopy of Amniotic Fluid Cells: Detection of FISH Signals Using the FastFISH® Imaging System
Mark I. Evans^a, Michael Sharp^b, James Tepperberg^c, Michael W. Kilpatrick^b, Petros Tsipouras^b, Triantafyllos Tafas^b

^aComprehensive Genetics, New York, N.Y.,
^bIkonisys, Inc., New Haven, Conn., and
^cCytogenetics Laboratory, Laboratory Corporation of America, Research Triangle Park, N.C., USA

Address of Corresponding Author

Fetal Diagn Ther 2006;21:523-527 (DOI: 10.1159/000095666)

Key Words

Fluorescence in situ hybridization (FISH)
AneuVysion® multicolor DNA probe kit
Ikoniscope® fastFISH® amnio Test System

Abstract

Objective: FISH (fluorescence in situ hybridization) analysis is a valuable adjunct to cytogenetics that provides a rapid screen for common abnormalities. However, FISH is expensive, labor-intensive, and requires a high skill level and subjective signal interpretation. A fully automated system for FISH analysis could improve laboratory efficiency and potentially reduce errors and costs. Methods: In this study we blindly compared automated FISH signal acquisition and display against standard FISH analysis. A total of 62 amniocentesis samples were prepared using the AneuVysion® multicolor DNA probe kit and probed for chromosomes 13, 18, 21, X, and Y. Two sets of slides were produced from each sample. Fifty cells were scored in each slide. One set was evaluated using standard manual microscopy and the other using the automated image acquisition and display capabilities of the Ikoniscope® fastFISH® amnio Test System. This system uses epifluorescence optics, along with optimized slide management to process slides automatically. Results: A 100% concordance was observed between the results obtained using manual microscopy and the automated system. There was also 100% concordance between the FISH results and those obtained by conventional karyotyping. Conclusion: Our data suggest that the automated system is capable of providing accurate and rapid identification and display of cells and FISH signals.

Author Contacts

Mark I. Evans, MD
Comprehensive Genetics
131 East 65th Street
New York, NY 10021 (USA)
Tel./Fax +1 212 744 2590, E-Mail Evans@CompreGen.com

Article Information

Received: January 5, 2006
Accepted: January 5, 2006
Published online: September 12, 2006
Number of Print Pages : 5
Number of Figures : 2, Number of Tables : 2, Number of References : 13

Medline Abstract (ID 16969008)

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