Spectral Imaging of Multi-Color Chromogenic Dyes in Pathological Specimens

Merryn V. E. Macville; Jeroen A. W. M. Van der Laak; Ernst J. M. Speel; Nir Katzir; Yuval Garini; Dirk Soenksen; George McNamara; Peter C. M. de Wilde; Antonius G. J. M. Hanselaar; Anton H.N. Hopman; Thomas Ried

doi:10.1155/2001/740909

Analytical Cellular Pathology (Jan 2001)

Spectral Imaging of Multi-Color Chromogenic Dyes in Pathological Specimens

Merryn V. E. Macville,
Jeroen A. W. M. Van der Laak,
Ernst J. M. Speel,
Nir Katzir,
Yuval Garini,
Dirk Soenksen,
George McNamara,
Peter C. M. de Wilde,
Antonius G. J. M. Hanselaar,
Anton H.N. Hopman,
Thomas Ried

Affiliations

Merryn V. E. Macville: Department of Pathology, University Medical Center St Radboud, Nijmegen, The Netherlands
Jeroen A. W. M. Van der Laak: Department of Pathology, University Medical Center St Radboud, Nijmegen, The Netherlands
Ernst J. M. Speel: Department of Molecular Cell Biology, University of Maastricht, Maastricht, The Netherlands
Nir Katzir: Applied Spectral Imaging, Migdal Ha'Emek, Israel
Yuval Garini: Applied Spectral Imaging, Migdal Ha'Emek, Israel
Dirk Soenksen: Aperio Technologies, Carlsbad, CA, USA
George McNamara: Children's Hospital Research Institute, Los Angeles, CA, USA
Peter C. M. de Wilde: Department of Pathology, University Medical Center St Radboud, Nijmegen, The Netherlands
Antonius G. J. M. Hanselaar: Department of Pathology, University Medical Center St Radboud, Nijmegen, The Netherlands
Anton H.N. Hopman: Department of Molecular Cell Biology, University of Maastricht, Maastricht, The Netherlands
Thomas Ried: Department of Genetics, Division of Clinical Sciences, National Cancer Institute/NIH, Bethesda, MD, USA

DOI: https://doi.org/10.1155/2001/740909
Journal volume & issue: Vol. 22, no. 3
pp. 133 – 142

Abstract

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We have investigated the use of spectral imaging for multi‐color analysis of permanent cytochemical dyes and enzyme precipitates on cytopathological specimens. Spectral imaging is based on Fourier‐transform spectroscopy and digital imaging. A pixel‐by‐pixel spectrum‐based color classification is presented of single‐, double‐, and triple‐color in situ hybridization for centromeric probes in T24 bladder cancer cells, and immunocytochemical staining of nuclear antigens Ki‐67 and TP53 in paraffin‐embedded cervical brush material (AgarCyto). The results demonstrate that spectral imaging unambiguously identifies three chromogenic dyes in a single bright‐field microscopic specimen. Serial microscopic fields from the same specimen can be analyzed using a spectral reference library. We conclude that spectral imaging of multi‐color chromogenic dyes is a reliable and robust method for pixel color recognition and classification. Our data further indicate that the use of spectral imaging (a) may increase the number of parameters studied simultaneously in pathological diagnosis, (b) may provide quantitative data (such as positive labeling indices) more accurately, and (c) may solve segmentation problems currently faced in automated screening of cell‐ and tissue specimens. Figures on http://www.esacp.org/acp/2001/22‐3/macville.htm.

Published in Analytical Cellular Pathology

ISSN: 0921-8912 (Print); 1878-3651 (Online)
Publisher: Hindawi Limited
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens; Science: Biology (General): Cytology
Website: https://www.hindawi.com/journals/acp/

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