From gene to clinic: TMA-based clinical validation of molecular markers in prostate cancer.

Thorsten Schlomm; Felix Chun; Andreas Erbersdobler

From gene to clinic: TMA-based clinical validation of molecular markers in prostate cancer.

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From gene to clinic: TMA-based clinical validation of molecular markers in prostate cancer. / Schlomm, Thorsten; Chun, Felix; Erbersdobler, Andreas.

in: Methods Mol Biol, Jahrgang 664, 2010, S. 177-189.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Schlomm, T, Chun, F & Erbersdobler, A 2010, 'From gene to clinic: TMA-based clinical validation of molecular markers in prostate cancer.', Methods Mol Biol, Jg. 664, S. 177-189. <http://www.ncbi.nlm.nih.gov/pubmed/20690063?dopt=Citation>

APA

Schlomm, T., Chun, F., & Erbersdobler, A. (2010). From gene to clinic: TMA-based clinical validation of molecular markers in prostate cancer. Methods Mol Biol, 664, 177-189. http://www.ncbi.nlm.nih.gov/pubmed/20690063?dopt=Citation

Vancouver

Schlomm T, Chun F, Erbersdobler A. From gene to clinic: TMA-based clinical validation of molecular markers in prostate cancer. Methods Mol Biol. 2010;664:177-189.

Bibtex

@article{8ade9fac48724c53b26c1db4d1623067,

title = "From gene to clinic: TMA-based clinical validation of molecular markers in prostate cancer.",

abstract = "Current high-throughput screening techniques using DNA arrays have identified hundreds of new candidate biomarkers for diagnosis and risk prediction of prostate cancer. Large-scale analysis of clinical prostate cancer specimens is a key prerequisite for the validation of these genes. We have constructed a tissue microarray from more than 2,500 prostate cancers with full histo-pathological and clinical long-term follow-up data and analyzed expression and gene copy number patterns of 16 different candidate markers for their ability to predict prostate cancer progression and patient prognosis. The best candidates were used to extend established clinical prediction tools (nomograms) that were based on nonmolecular data only, such as prostate-specific antigene (PSA), clinical stage, and histological grading (Gleason grade). Using this approach, we could identify ANXA3 as an independent marker, which was capable of increasing the accuracy of the clinical nomogram, thereby fulfilling the criteria of a novel prognostic prostate cancer marker. This approach of integrating large-scale clinical and molecular variables may provide a new paradigm for the use of molecular profiling to predict the clinical outcome in prostate cancer.",

author = "Thorsten Schlomm and Felix Chun and Andreas Erbersdobler",

year = "2010",

language = "Deutsch",

volume = "664",

pages = "177--189",

journal = "Methods Mol Biol",

issn = "1064-3745",

publisher = "Humana Press",

}

RIS

TY - JOUR

T1 - From gene to clinic: TMA-based clinical validation of molecular markers in prostate cancer.

AU - Schlomm, Thorsten

AU - Chun, Felix

AU - Erbersdobler, Andreas

PY - 2010

Y1 - 2010

N2 - Current high-throughput screening techniques using DNA arrays have identified hundreds of new candidate biomarkers for diagnosis and risk prediction of prostate cancer. Large-scale analysis of clinical prostate cancer specimens is a key prerequisite for the validation of these genes. We have constructed a tissue microarray from more than 2,500 prostate cancers with full histo-pathological and clinical long-term follow-up data and analyzed expression and gene copy number patterns of 16 different candidate markers for their ability to predict prostate cancer progression and patient prognosis. The best candidates were used to extend established clinical prediction tools (nomograms) that were based on nonmolecular data only, such as prostate-specific antigene (PSA), clinical stage, and histological grading (Gleason grade). Using this approach, we could identify ANXA3 as an independent marker, which was capable of increasing the accuracy of the clinical nomogram, thereby fulfilling the criteria of a novel prognostic prostate cancer marker. This approach of integrating large-scale clinical and molecular variables may provide a new paradigm for the use of molecular profiling to predict the clinical outcome in prostate cancer.

AB - Current high-throughput screening techniques using DNA arrays have identified hundreds of new candidate biomarkers for diagnosis and risk prediction of prostate cancer. Large-scale analysis of clinical prostate cancer specimens is a key prerequisite for the validation of these genes. We have constructed a tissue microarray from more than 2,500 prostate cancers with full histo-pathological and clinical long-term follow-up data and analyzed expression and gene copy number patterns of 16 different candidate markers for their ability to predict prostate cancer progression and patient prognosis. The best candidates were used to extend established clinical prediction tools (nomograms) that were based on nonmolecular data only, such as prostate-specific antigene (PSA), clinical stage, and histological grading (Gleason grade). Using this approach, we could identify ANXA3 as an independent marker, which was capable of increasing the accuracy of the clinical nomogram, thereby fulfilling the criteria of a novel prognostic prostate cancer marker. This approach of integrating large-scale clinical and molecular variables may provide a new paradigm for the use of molecular profiling to predict the clinical outcome in prostate cancer.

M3 - SCORING: Zeitschriftenaufsatz

VL - 664

SP - 177

EP - 189

JO - Methods Mol Biol

JF - Methods Mol Biol

SN - 1064-3745

ER -