Your search keyword '"Glas, Annuska M"' showing total 4 results

1. Robust interlaboratory reproducibility of a gene expression signature measurement consistent with the needs of a new generation of diagnostic tools

Author

Cardoso Fatima, Ripoche Hugues, Tsalenko Anya, Pover Rob, Glas Annuska M, Lazar Vladimir, Curry Bo, Floore Arno, Ach Robert A, d'Assignies Mahasti, Bruhn Laurakay, and Van't Veer Laura J

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The increasing use of DNA microarrays in biomedical research, toxicogenomics, pharmaceutical development, and diagnostics has focused attention on the reproducibility and reliability of microarray measurements. While the reproducibility of microarray gene expression measurements has been the subject of several recent reports, there is still a need for systematic investigation into what factors most contribute to variability of measured expression levels observed among different laboratories and different experimenters. Results We report the results of an interlaboratory comparison of gene expression array measurements on the same microarray platform, in which the RNA amplification and labeling, hybridization and wash, and slide scanning were each individually varied. Identical input RNA was used for all experiments. While some sources of variation have measurable influence on individual microarray signals, they showed very low influence on sample-to-reference ratios based on averaged triplicate measurements in the two-color experiments. RNA labeling was the largest contributor to interlaboratory variation. Conclusion Despite this variation, measurement of one particular breast cancer gene expression signature in three different laboratories was found to be highly robust, showing a high intralaboratory and interlaboratory reproducibility when using strictly controlled standard operating procedures.

Published

2007

2. Converting a breast cancer microarray signature into a high-throughput diagnostic test

Author

Warmoes Marc O, Bruinsma Tako J, Lahti-Domenici Jaana ST, Bakx Niels, Pover Rob CF, Witteveen Anke T, Delahaye Leonie JMJ, Floore Arno, Glas Annuska M, Bernards René, Wessels Lodewyk FA, and Van 't Veer Laura J

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background A 70-gene tumor expression profile was established as a powerful predictor of disease outcome in young breast cancer patients. This profile, however, was generated on microarrays containing 25,000 60-mer oligonucleotides that are not designed for processing of many samples on a routine basis. Results To facilitate its use in a diagnostic setting, the 70-gene prognosis profile was translated into a customized microarray (MammaPrint) containing a reduced set of 1,900 probes suitable for high throughput processing. RNA of 162 patient samples from two previous studies was subjected to hybridization to this custom array to validate the prognostic value. Classification results obtained from the original analysis were then compared to those generated using the algorithms based on the custom microarray and showed an extremely high correlation of prognosis prediction between the original data and those generated using the custom mini-array (p < 0.0001). Conclusion In this report we demonstrate for the first time that microarray technology can be used as a reliable diagnostic tool. The data clearly demonstrate the reproducibility and robustness of the small custom-made microarray. The array is therefore an excellent tool to predict outcome of disease in breast cancer patients.

Published

2006

3. Robust interlaboratory reproducibility of a gene expression signature measurement consistent with the needs of a new generation of diagnostic tools

Author

Ach, Robert A, primary, Floore, Arno, additional, Curry, Bo, additional, Lazar, Vladimir, additional, Glas, Annuska M, additional, Pover, Rob, additional, Tsalenko, Anya, additional, Ripoche, Hugues, additional, Cardoso, Fatima, additional, d'Assignies, Mahasti, additional, Bruhn, Laurakay, additional, and Van't Veer, Laura J, additional

Published

2007

4. Converting a breast cancer microarray signature into a high-throughput diagnostic test

Author

Glas, Annuska M, primary, Floore, Arno, additional, Delahaye, Leonie JMJ, additional, Witteveen, Anke T, additional, Pover, Rob CF, additional, Bakx, Niels, additional, Lahti-Domenici, Jaana ST, additional, Bruinsma, Tako J, additional, Warmoes, Marc O, additional, Bernards, René, additional, Wessels, Lodewyk FA, additional, and Van 't Veer, Laura J, additional

Published

2006