Download PDF
Rofo 2011; 183(9): 826-833
DOI: 10.1055/s-0031-1273244
Mamma

© Georg Thieme Verlag KG Stuttgart · New York

Potential of MR Mammography to Predict Tumor Grading of Invasive Breast Cancer

Potenzial der Magnet-Resonanz-Mammografie zur Abschätzung des Differenzierungsgrads invasiver MammakarzinomeM. Dietzel1 , P. A. Baltzer1 , T. Vag2 , R. Zoubi1 , T. Gröschel1 , H. Burmeister1 , M. Gajda3 , I. B. Runnebaum4 , W. A. Kaiser1, 5
  • 1Institute of Diagnostic and Interventional Radiology, Friedrich-Schiller-University Jena
  • 2Institut für Röntgendiagnostik, Klinikum Rechts der Isar, Technische Universität München
  • 3Institute of Pathology, Friedrich-Schiller-University Jena
  • 4Clinic of Gynecology, Friedrich-Schiller-University Jena
  • 5Medical School, Harvard University
Further Information

Publication History

received: 24.9.2010

accepted: 16.2.2011

Publication Date:
25 March 2011 (online)

Also available at
    Permissions and Reprints

Zusammenfassung

Ziel: Der Differenzierungsgrad zählt zu den am häufigsten ermittelten prognostischen Faktoren des invasiven Mammakarzinoms. Diese Studie wurde durchgeführt, um das Potenzial der Magnet-Resonanz Mammografie (MRM) zur nicht invasiven Abschätzung des Differenzierungsgrads zu ermitteln. Material und Methoden: 399 invasive Mammakarzinome wurden in die Studie eingeschlossen (einheitliches klinisches Messprotokoll; Genehmigung durch Ethikkommission) und von 2 geblindeten, erfahrenen Radiologen (> 500 MRM) prospektiv im Konsensus evaluiert. Zur Gewebsdifferenzierung wurden detaillierte MRM-Deskriptoren (n = 18) herangezogen. Basierend auf diesen Analysen wurde anschließend mittels uni- und multivariater Statistik das Potenzial der MRM zur Abschätzung des Differenzierungsgrads ermittelt (X2-Tests; binär logistische Regression; area under the ROC-curve [AUC]). Ergebnisse: 8 der insgesamt 18 MRM-Deskriptoren zeigten eine Assoziation mit dem Differenzierungsgrad, z. B. „interne Struktur”, „Ödem” (p < 0,001), „Cutisverdickung” und „Zerstörung des Mamillensaums” (p < 0,05). Die multivariate Analyse ermittelte ein signifikantes Potenzial zur Prädiktion des Differenzierungsgrads mittels MRM (p < 0,001). Hierbei konnten insbesondere prognostisch günstige, „gut” differenzierte Karzinome mit hoher Treffsicherheit identifiziert werden (AUC = 0,930). Schlussfolgerung: Die Abschätzung des Differenzierungsgrads invasiver Mammakarzinoms ist anhand typischer MRM-Charakteristika in einem standardisierten klinischen Messprotokoll möglich. Da der Differenzierungsgrad m. E. als Surrogat für das Gesamtüberleben gilt, kann die MRM somit neben differenzialdiagnostischen auch initiale prognostische Informationen liefern.

Abstract

Purpose: Tumor grading (TG) is one of the most widely used prognostic factors in the case of breast cancer. This study aims to identify the potential of magnetic resonance mammography (MRM) to non-invasively assess TG. Materials and Methods: 399 invasive breast cancers were included (IRB approval; standardized clinical MRM protocols). All breast cancers were prospectively evaluated by two experienced (> 500 MRM) and blinded radiologists in consensus. In every cancer a set of 18 previously published MRM descriptors was assessed. These were assessed by univariate and multivariate analysis to identify the potential of MRM to predict TG (X2 statistics; binary logistic regression; area under the ROC curve [AUC]). Results: 8 of 18 MRM descriptors were associated with TG, e. g. internal structure, edema (p < 0.001), as well as skin thickening and destruction of the nipple line (p < 0.05). MRM was feasible to predict TG by multivariate analysis (p < 0.001). The highest potential could be identified to predict well differentiated breast cancers with good prognosis (AUC = 0.930). Conclusion: MR mammography was able to non-invasively assess tumor grading in a standard protocol. Since tumor grading is a surrogate for overall survival, these results provide further evidence to the clinical application of MR mammography as a noninvasive prognostic tool.

Key words

breast - mammography - MR imaging - contrast agents - decision analysis - gadolinium

References

  • 1 Houssami N, Ciatto S, Macaskill P et al. Accuracy and surgical impact of magnetic resonance imaging in breast cancer staging: systematic review and meta-analysis in detection of multifocal and multicentric cancer.  J Clin Oncol. 2008;  26 3248-3258
    Google Scholar
  • 2 Jemal A, Siegel R, Ward E et al. Cancer statistics, 2009.  CA Cancer J Clin. 2009;  59 225-249
    Google Scholar
  • 3 Soerjomataram I, Louwman M W, Ribot J G et al. An overview of prognostic factors for long-term survivors of breast cancer.  Breast Cancer Res Treat. 2008;  107 309-330
    Google Scholar
  • 4 Mortellaro V E, Marshall J, Singer L et al. Magnetic resonance imaging for axillary staging in patients with breast cancer.  J Magn Reson Imaging. 2009;  30 309-312
    Google Scholar
  • 5 Lee S H, Cho N, Kim S J et al. Correlation between high resolution dynamic MR features and prognostic factors in breast cancer.  Korean J Radiol. 2008;  9 10-18
    Google Scholar
  • 6 Montemurro F, Martincich L, Sarotto I et al. Relationship between DCE-MRI morphological and functional features and histopathological characteristics of breast cancer.  Eur Radiol. 2007;  17 1490-1497
    Google Scholar
  • 7 Teifke A, Behr O, Schmidt M et al. Dynamic MR imaging of breast lesions: correlation with microvessel distribution pattern and histologic characteristics of prognosis.  Radiology. 2006;  239 351-360
    Google Scholar
  • 8 Tuncbilek N, Karakas H M, Okten O O. Dynamic magnetic resonance imaging in determining histopathological prognostic factors of invasive breast cancers.  Eur J Radiol. 2005;  53 199-205
    Google Scholar
  • 9 Szabo B K, Aspelin P, Kristoffersen Wiberg M et al. Invasive breast cancer: correlation of dynamic MR features with prognostic factors.  Eur Radiol. 2003;  13 2425-2435
    Google Scholar
  • 10 Mussurakis S, Buckley D L, Horsman A. Dynamic MR imaging of invasive breast cancer: correlation with tumour grade and other histological factors.  Br J Radiol. 1997;  70 446-451
    Google Scholar
  • 11 Fischer U, Kopka L, Brinck U et al. Prognostic value of contrast-enhanced MR mammography in patients with breast cancer.  Eur Radiol. 1997;  7 1002-1005
    Google Scholar
  • 12 Dietzel M, Baltzer P A, Vag T et al. Magnetic resonance mammography in small vs. advanced breast lesions – systematic comparison reveals significant impact of lesion size on diagnostic accuracy in 936 histologically verified breast lesions.  Fortschr Röntgenstr. 2011;  183 126-135
    Google Scholar
  • 13 Harris G C, Denley H E, Pinder S E et al. Correlation of histologic prognostic factors in core biopsies and therapeutic excisions of invasive breast carcinoma.  Am J Surg Pathol. 2003;  27 11-15
    Google Scholar
  • 14 Elston C W, Ellis I O. Pathological prognostic factors in breast cancer. I. The value of histological grade in breast cancer: experience from a large study with long-term follow-up.  Histopathology. 1991;  19 403-410
    Google Scholar
  • 15 Edge S, Byrd D, Carducci M et al eds.. TNM Classification of Malignant Tumours. 7 ed. New York: Springer; 2009
    Google Scholar
  • 16 Fischer U, Kopka L, Grabbe E. Breast carcinoma: effect of preoperative contrast-enhanced MR imaging on the therapeutic approach.  Radiology. 1999;  213 881-888
    Google Scholar
  • 17 Kaiser W A. Signs in MR-Mammography. 1st ed. Berlin, Heidelberg, New York: Springer; 2007
    Google Scholar
  • 18 American College of Radiology (ACR) .ACR BI-RADS® – MRI. In, Breast imaging reporting and data system atlas (BI-RADS atlas). 4th ed. Reston, VA: American College of Radiology; 2003
    Google Scholar
  • 19 Siegmann K C, Moron H U, Baur A et al. Diagnostische Wertigkeit des Göttinger Scores zur Malignitätsvorhersage von ausschließlich in der MRT darstellbaren Mammaläsionen.  Fortschr Röntgenstr. 2009;  181 556-563
    Google Scholar
  • 20 Fischer D R, Baltzer P, Malich A et al. Is the ”blooming sign” a promising additional tool to determine malignancy in MR mammography?.  Eur Radiol. 2004;  14 394-401
    Google Scholar
  • 21 Baltzer P A, Yang F, Dietzel M et al. Sensitivity and specificity of unilateral edema on T 2w-TSE sequences in MR-Mammography considering 974 histologically verified lesions.  Breast J. 2010;  16 233-239
    Google Scholar
  • 22 Dietzel M, Baltzer P A, Vag T et al. The hook sign for differential diagnosis of malignant from benign lesions in magnetic resonance mammography: experience in a study of 1084 histologically verified cases.  Acta Radiol. 2010;  51 137-143
    Google Scholar
  • 23 Malich A, Fischer D R, Wurdinger S et al. Potential MRI interpretation model: differentiation of benign from malignant breast masses.  Am J Roentgenol. 2005;  185 964-970
    Google Scholar
  • 24 Dietzel M, Baltzer P A, Vag T et al. The necrosis sign in magnetic resonance-mammography: diagnostic accuracy in 1,084 histologically verified breast lesions.  Breast J. 2010;  16 603-608
    Google Scholar
  • 25 Dietzel M, Baltzer P A, Vag T et al. The adjacent vessel sign on breast MRI: new data and a subgroup analysis for 1,084 histologically verified cases.  Korean J Radiol. 2010;  11 178-186
    Google Scholar
  • 26 Bland M. An Introduction to Medical Statistics. 3rd ed. Oxford: Oxford University Press; 2000
    Google Scholar
  • 27 Ignatiadis M, Sotiriou C. Understanding the molecular basis of histologic grade.  Pathobiology. 2008;  75 104-111
    Google Scholar
  • 28 Longacre T A, Ennis M, Quenneville L A et al. Interobserver agreement and reproducibility in classification of invasive breast carcinoma: an NCI breast cancer family registry study.  Mod Pathol. 2006;  19 195-207
    Google Scholar
  • 29 Michaelson J S, Silverstein M, Wyatt J et al. Predicting the survival of patients with breast carcinoma using tumor size.  Cancer. 2002;  95 713-723
    Google Scholar
  • 30 Carlomagno C, Perrone F, Lauria R et al. Prognostic significance of necrosis, elastosis, fibrosis and inflammatory cell reaction in operable breast cancer.  Oncology. 1995;  52 272-277
    Google Scholar
  • 31 Jimenez R E, Wallis T, Visscher D W. Centrally necrotizing carcinomas of the breast: a distinct histologic subtype with aggressive clinical behavior.  Am J Surg Pathol. 2001;  25 331-337
    Google Scholar
  • 32 Cetintas S K, Kurt M, Ozkan L et al. Factors influencing axillary node metastasis in breast cancer.  Tumori. 2006;  92 416-422
    Google Scholar
  • 33 Rakha E A, El-Sayed M E, Lee A H et al. Prognostic significance of Nottingham histologic grade in invasive breast carcinoma.  J Clin Oncol. 2008;  26 3153-3158
    Google Scholar
  • 34 Baltzer P AT, Renz D M, Herrmann K H et al. Diffusion-weighted imaging (DWI) in MR mammography (MRM): clinical comparison of echo planar imaging (EPI) and half-Fourier single-shot turbo spin echo (HASTE) diffusion techniques.  Eur Radiol. 2009;  19 1612-1620
    Google Scholar
  • 35 Mountford C, Ramadan S, Stanwell P et al. Proton MRS of the breast in the clinical setting.  NMR Biomed. 2009;  22 54-64
    Google Scholar
  • 36 Baltzer P A, Vag T, Dietzel M et al. Computer-aided interpretation of dynamic magnetic resonance imaging reflects histopathology of invasive breast cancer.  Eur Radiol. 2010;  20 1563-1571
    Google Scholar

Dr. Matthias Dietzel

Institute of Diagnostic and Interventional Radiology, Friedrich-Schiller-University Jena

Erlanger Allee 101

07740 Jena

Germany

Phone: ++ 49/36 41/9 32 49 28

Fax: ++ 49/36 41/9 32 48 32

Email: dietzelmatthias2@hotmail.com

>