Optimized outcome prediction in breast cancer by combining the 70-gene signature with clinical risk prediction algorithms

C. A. Drukker; M. V. Nijenhuis; J. M. Bueno-de-Mesquita; V. P. Retèl; W. H. van Harten; H. van Tinteren; J. Wesseling; M. K. Schmidt; L. J. van't Veer; G. S. Sonke; E. J. T. Rutgers; M. J. van de Vijver; S. C. Linn

doi:https://doi.org/10.1007/s10549-014-2954-2

Optimized outcome prediction in breast cancer by combining the 70-gene signature with clinical risk prediction algorithms

C. A. Drukker, M. V. Nijenhuis, J. M. Bueno-de-Mesquita, V. P. Retèl, W. H. van Harten, H. van Tinteren, J. Wesseling, M. K. Schmidt, L. J. van't Veer, G. S. Sonke, E. J. T. Rutgers, M. J. van de Vijver, S. C. Linn

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20 Citations (Scopus)

Abstract

Clinical guidelines for breast cancer treatment differ in their selection of patients at a high risk of recurrence who are eligible to receive adjuvant systemic treatment (AST). The 70-gene signature is a molecular tool to better guide AST decisions. The aim of this study was to evaluate whether adding the 70-gene signature to clinical risk prediction algorithms can optimize outcome prediction and consequently treatment decisions in early stage, node-negative breast cancer patients. A 70-gene signature was available for 427 patients participating in the RASTER study (cT1-3N0M0). Median follow-up was 61.6 months. Based on 5-year distant-recurrence free interval (DRFI) probabilities survival areas under the curve (AUC) were calculated and compared for risk estimations based on the six clinical risk prediction algorithms: Adjuvant! Online (AOL), Nottingham Prognostic Index (NPI), St. Gallen (2003), the Dutch National guidelines (CBO 2004 and NABON 2012), and PREDICT plus. Also, survival AUC were calculated after adding the 70-gene signature to these clinical risk estimations. Systemically untreated patients with a high clinical risk estimation but a low risk 70-gene signature had an excellent 5-year DRFI varying between 97.1 and 100 %, depending on the clinical risk prediction algorithms used in the comparison. The best risk estimation was obtained in this cohort by adding the 70-gene signature to CBO 2012 (AUC: 0.644) and PREDICT (AUC: 0.662). Clinical risk estimations by all clinical algorithms improved by adding the 70-gene signature. Patients with a low risk 70-gene signature have an excellent survival, independent of their clinical risk estimation. Adding the 70-gene signature to clinical risk prediction algorithms improves risk estimations and therefore might improve the identification of early stage node-negative breast cancer patients for whom AST has limited value. In this cohort, the PREDICT plus tool in combination with the 70-gene signature provided the best risk prediction

Original language	English
Pages (from-to)	697-705
Journal	Breast cancer research and treatment
Volume	145
Issue number	3
DOIs	https://doi.org/10.1007/s10549-014-2954-2
Publication status	Published - 2014

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https://doi.org/10.1007/s10549-014-2954-2

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Drukker, C. A., Nijenhuis, M. V., Bueno-de-Mesquita, J. M., Retèl, V. P., van Harten, W. H., van Tinteren, H., Wesseling, J., Schmidt, M. K., van't Veer, L. J., Sonke, G. S., Rutgers, E. J. T., van de Vijver, M. J., & Linn, S. C. (2014). Optimized outcome prediction in breast cancer by combining the 70-gene signature with clinical risk prediction algorithms. Breast cancer research and treatment, 145(3), 697-705. https://doi.org/10.1007/s10549-014-2954-2

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title = "Optimized outcome prediction in breast cancer by combining the 70-gene signature with clinical risk prediction algorithms",

abstract = "Clinical guidelines for breast cancer treatment differ in their selection of patients at a high risk of recurrence who are eligible to receive adjuvant systemic treatment (AST). The 70-gene signature is a molecular tool to better guide AST decisions. The aim of this study was to evaluate whether adding the 70-gene signature to clinical risk prediction algorithms can optimize outcome prediction and consequently treatment decisions in early stage, node-negative breast cancer patients. A 70-gene signature was available for 427 patients participating in the RASTER study (cT1-3N0M0). Median follow-up was 61.6 months. Based on 5-year distant-recurrence free interval (DRFI) probabilities survival areas under the curve (AUC) were calculated and compared for risk estimations based on the six clinical risk prediction algorithms: Adjuvant! Online (AOL), Nottingham Prognostic Index (NPI), St. Gallen (2003), the Dutch National guidelines (CBO 2004 and NABON 2012), and PREDICT plus. Also, survival AUC were calculated after adding the 70-gene signature to these clinical risk estimations. Systemically untreated patients with a high clinical risk estimation but a low risk 70-gene signature had an excellent 5-year DRFI varying between 97.1 and 100 %, depending on the clinical risk prediction algorithms used in the comparison. The best risk estimation was obtained in this cohort by adding the 70-gene signature to CBO 2012 (AUC: 0.644) and PREDICT (AUC: 0.662). Clinical risk estimations by all clinical algorithms improved by adding the 70-gene signature. Patients with a low risk 70-gene signature have an excellent survival, independent of their clinical risk estimation. Adding the 70-gene signature to clinical risk prediction algorithms improves risk estimations and therefore might improve the identification of early stage node-negative breast cancer patients for whom AST has limited value. In this cohort, the PREDICT plus tool in combination with the 70-gene signature provided the best risk prediction",

author = "Drukker, {C. A.} and Nijenhuis, {M. V.} and Bueno-de-Mesquita, {J. M.} and Ret{\`e}l, {V. P.} and {van Harten}, {W. H.} and {van Tinteren}, H. and J. Wesseling and Schmidt, {M. K.} and {van't Veer}, {L. J.} and Sonke, {G. S.} and Rutgers, {E. J. T.} and {van de Vijver}, {M. J.} and Linn, {S. C.}",

year = "2014",

doi = "https://doi.org/10.1007/s10549-014-2954-2",

language = "English",

volume = "145",

pages = "697--705",

journal = "Breast cancer research and treatment",

issn = "0167-6806",

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Drukker, CA, Nijenhuis, MV, Bueno-de-Mesquita, JM, Retèl, VP, van Harten, WH, van Tinteren, H, Wesseling, J, Schmidt, MK, van't Veer, LJ, Sonke, GS, Rutgers, EJT, van de Vijver, MJ & Linn, SC 2014, 'Optimized outcome prediction in breast cancer by combining the 70-gene signature with clinical risk prediction algorithms', Breast cancer research and treatment, vol. 145, no. 3, pp. 697-705. https://doi.org/10.1007/s10549-014-2954-2

TY - JOUR

T1 - Optimized outcome prediction in breast cancer by combining the 70-gene signature with clinical risk prediction algorithms

AU - Drukker, C. A.

AU - Nijenhuis, M. V.

AU - Bueno-de-Mesquita, J. M.

AU - Retèl, V. P.

AU - van Harten, W. H.

AU - van Tinteren, H.

AU - Wesseling, J.

AU - Schmidt, M. K.

AU - van't Veer, L. J.

AU - Sonke, G. S.

AU - Rutgers, E. J. T.

AU - van de Vijver, M. J.

AU - Linn, S. C.

PY - 2014

Y1 - 2014

N2 - Clinical guidelines for breast cancer treatment differ in their selection of patients at a high risk of recurrence who are eligible to receive adjuvant systemic treatment (AST). The 70-gene signature is a molecular tool to better guide AST decisions. The aim of this study was to evaluate whether adding the 70-gene signature to clinical risk prediction algorithms can optimize outcome prediction and consequently treatment decisions in early stage, node-negative breast cancer patients. A 70-gene signature was available for 427 patients participating in the RASTER study (cT1-3N0M0). Median follow-up was 61.6 months. Based on 5-year distant-recurrence free interval (DRFI) probabilities survival areas under the curve (AUC) were calculated and compared for risk estimations based on the six clinical risk prediction algorithms: Adjuvant! Online (AOL), Nottingham Prognostic Index (NPI), St. Gallen (2003), the Dutch National guidelines (CBO 2004 and NABON 2012), and PREDICT plus. Also, survival AUC were calculated after adding the 70-gene signature to these clinical risk estimations. Systemically untreated patients with a high clinical risk estimation but a low risk 70-gene signature had an excellent 5-year DRFI varying between 97.1 and 100 %, depending on the clinical risk prediction algorithms used in the comparison. The best risk estimation was obtained in this cohort by adding the 70-gene signature to CBO 2012 (AUC: 0.644) and PREDICT (AUC: 0.662). Clinical risk estimations by all clinical algorithms improved by adding the 70-gene signature. Patients with a low risk 70-gene signature have an excellent survival, independent of their clinical risk estimation. Adding the 70-gene signature to clinical risk prediction algorithms improves risk estimations and therefore might improve the identification of early stage node-negative breast cancer patients for whom AST has limited value. In this cohort, the PREDICT plus tool in combination with the 70-gene signature provided the best risk prediction

AB - Clinical guidelines for breast cancer treatment differ in their selection of patients at a high risk of recurrence who are eligible to receive adjuvant systemic treatment (AST). The 70-gene signature is a molecular tool to better guide AST decisions. The aim of this study was to evaluate whether adding the 70-gene signature to clinical risk prediction algorithms can optimize outcome prediction and consequently treatment decisions in early stage, node-negative breast cancer patients. A 70-gene signature was available for 427 patients participating in the RASTER study (cT1-3N0M0). Median follow-up was 61.6 months. Based on 5-year distant-recurrence free interval (DRFI) probabilities survival areas under the curve (AUC) were calculated and compared for risk estimations based on the six clinical risk prediction algorithms: Adjuvant! Online (AOL), Nottingham Prognostic Index (NPI), St. Gallen (2003), the Dutch National guidelines (CBO 2004 and NABON 2012), and PREDICT plus. Also, survival AUC were calculated after adding the 70-gene signature to these clinical risk estimations. Systemically untreated patients with a high clinical risk estimation but a low risk 70-gene signature had an excellent 5-year DRFI varying between 97.1 and 100 %, depending on the clinical risk prediction algorithms used in the comparison. The best risk estimation was obtained in this cohort by adding the 70-gene signature to CBO 2012 (AUC: 0.644) and PREDICT (AUC: 0.662). Clinical risk estimations by all clinical algorithms improved by adding the 70-gene signature. Patients with a low risk 70-gene signature have an excellent survival, independent of their clinical risk estimation. Adding the 70-gene signature to clinical risk prediction algorithms improves risk estimations and therefore might improve the identification of early stage node-negative breast cancer patients for whom AST has limited value. In this cohort, the PREDICT plus tool in combination with the 70-gene signature provided the best risk prediction

U2 - https://doi.org/10.1007/s10549-014-2954-2

DO - https://doi.org/10.1007/s10549-014-2954-2

M3 - Article

C2 - 24760482

SN - 0167-6806

VL - 145

SP - 697

EP - 705

JO - Breast cancer research and treatment

JF - Breast cancer research and treatment

IS - 3

ER -