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Literature DB >> 31004391

Background parenchymal enhancement on breast MRI: A comprehensive review.

Geraldine J Liao^1,2, Leah C Henze Bancroft³, Roberta M Strigel^3,4,5, Rhea D Chitalia⁶, Despina Kontos⁶, Linda Moy⁷, Savannah C Partridge¹, Habib Rahbar¹.

Abstract

The degree of normal fibroglandular tissue that enhances on breast MRI, known as background parenchymal enhancement (BPE), was initially described as an incidental finding that could affect interpretation performance. While BPE is now established to be a physiologic phenomenon that is affected by both endogenous and exogenous hormone levels, evidence supporting the notion that BPE frequently masks breast cancers is limited. However, compelling data have emerged to suggest BPE is an independent marker of breast cancer risk and breast cancer treatment outcomes. Specifically, multiple studies have shown that elevated BPE levels, measured qualitatively or quantitatively, are associated with a greater risk of developing breast cancer. Evidence also suggests that BPE could be a predictor of neoadjuvant breast cancer treatment response and overall breast cancer treatment outcomes. These discoveries come at a time when breast cancer screening and treatment have moved toward an increased emphasis on targeted and individualized approaches, of which the identification of imaging features that can predict cancer diagnosis and treatment response is an increasingly recognized component. Historically, researchers have primarily studied quantitative tumor imaging features in pursuit of clinically useful biomarkers. However, the need to segment less well-defined areas of normal tissue for quantitative BPE measurements presents its own unique challenges. Furthermore, there is no consensus on the optimal timing on dynamic contrast-enhanced MRI for BPE quantitation. This article comprehensively reviews BPE with a particular focus on its potential to increase precision approaches to breast cancer risk assessment, diagnosis, and treatment. It also describes areas of needed future research, such as the applicability of BPE to women at average risk, the biological underpinnings of BPE, and the standardization of BPE characterization. Level of Evidence: 3 Technical Efficacy Stage: 5 J. Magn. Reson. Imaging 2020;51:43-61.

Entities: Chemical Disease Gene Species

Keywords: background parenchymal enhancement; biomarkers; breast MRI; breast cancer risk; fibroglandular tissue; precision medicine

Mesh：

Year: 2019 PMID： 31004391 PMCID： PMC7207072 DOI： 10.1002/jmri.26762

Source DB: PubMed Journal: J Magn Reson Imaging ISSN： 1053-1807 Impact factor: 4.813

106 in total

1. Comparison of contrast enhancement and diffusion-weighted magnetic resonance imaging in healthy and cancerous breast tissue.

Authors: Gene Young Cho; Linda Moy; Sungheon G Kim; Ana Paula Klautau Leite; Steven H Baete; James S Babb; Daniel K Sodickson; Eric E Sigmund
Journal: Eur J Radiol Date: 2015-07-02 Impact factor: 3.528

2. Assessment of Quantitative Magnetic Resonance Imaging Background Parenchymal Enhancement Parameters to Improve Determination of Individual Breast Cancer Risk.

Authors: Diana L Lam; Daniel S Hippe; Averi E Kitsch; Savannah C Partridge; Habib Rahbar
Journal: J Comput Assist Tomogr Date: 2019 Jan/Feb Impact factor: 1.826

3. Does background parenchymal enhancement on MRI affect the rate of positive resection margin in breast cancer patients?

Authors: S Y Park; D K Kang; T H Kim
Journal: Br J Radiol Date: 2014-11-27 Impact factor: 3.039

4. Breast MRI fibroglandular volume and parenchymal enhancement in BRCA1 and BRCA2 mutation carriers before and immediately after risk-reducing salpingo-oophorectomy.

Authors: Michael J DeLeo; Susan M Domchek; Despina Kontos; Emily Conant; Jinbo Chen; Susan Weinstein
Journal: AJR Am J Roentgenol Date: 2015-03 Impact factor: 3.959

5. Recurrence-free survival in breast cancer is associated with MRI tumor enhancement dynamics quantified using computer algorithms.

Authors: Maciej A Mazurowski; Lars J Grimm; Jing Zhang; P Kelly Marcom; Sora C Yoon; Connie Kim; Sujata V Ghate; Karen S Johnson
Journal: Eur J Radiol Date: 2015-07-18 Impact factor: 3.528

6. Effects of tamoxifen and aromatase inhibitors on breast tissue enhancement in dynamic contrast-enhanced breast MR imaging: a longitudinal intraindividual cohort study.

Authors: Simone Schrading; Hans Schild; Marietta Kühr; Christiane Kuhl
Journal: Radiology Date: 2013-12-10 Impact factor: 11.105

7. Population-Based Assessment of the Association Between Magnetic Resonance Imaging Background Parenchymal Enhancement and Future Primary Breast Cancer Risk.

Authors: Vignesh A Arasu; Diana L Miglioretti; Brian L Sprague; Nila H Alsheik; Diana S M Buist; Louise M Henderson; Sally D Herschorn; Janie M Lee; Tracy Onega; Garth H Rauscher; Karen J Wernli; Constance D Lehman; Karla Kerlikowske
Journal: J Clin Oncol Date: 2019-01-09 Impact factor: 50.717

8. Background Parenchymal Enhancement of the Contralateral Normal Breast: Association with Tumor Response in Breast Cancer Patients Receiving Neoadjuvant Chemotherapy.

Authors: Jeon Hor Chen; Hon J Yu; Christine Hsu; Rita S Mehta; Philip M Carpenter; Min Ying Su
Journal: Transl Oncol Date: 2015-06 Impact factor: 4.243

9. Abbreviated breast MRI for screening women with dense breast: the EA1141 trial.

Authors: Christiane K Kuhl
Journal: Br J Radiol Date: 2017-10-27 Impact factor: 3.039

10. MRI Background Parenchymal Enhancement Is Not Associated with Breast Cancer.

Authors: Barbara Bennani-Baiti; Matthias Dietzel; Pascal Andreas Baltzer
Journal: PLoS One Date: 2016-07-05 Impact factor: 3.240

13 in total

1. Background parenchymal enhancement in contrast-enhanced MR imaging suggests systemic effects of intrauterine contraceptive devices.

Authors: Luisa Charlotte Huck; Daniel Truhn; Caroline Wilpert; Eloisa Zanderigo; Vanessa Raaff; Ebba Dethlefsen; Maike Bode; Christiane Katharina Kuhl
Journal: Eur Radiol Date: 2022-05-07 Impact factor: 5.315

2. Dynamic contrast-enhanced breast magnetic resonance imaging findings that affect the magnetic resonance-directed ultrasound correlation of non-mass enhancement lesions: a single-center retrospective study.

Authors: Almila Coskun Bilge; Pinar Ilhan Demir; Hale Aydin; Isil Esen Bostanci
Journal: Br J Radiol Date: 2022-01-07 Impact factor: 3.629

3. Overcoming Barriers in Ductal Carcinoma In Situ Management: From Overtreatment to Optimal Treatment.

Authors: Jean L Wright; Habib Rahbar; Samilia Obeng-Gyasi; Ruth Carlos; Judy Tjoe; Antonio C Wolff
Journal: J Clin Oncol Date: 2021-11-23 Impact factor: 50.717

4. The rate of breast fibroglandular enhancement during dynamic contrast-enhanced MRI reflects response to neoadjuvant therapy.

Authors: John Virostko; Garrett Kuketz; Erin Higgins; Chengyue Wu; Anna G Sorace; Julie C DiCarlo; Sarah Avery; Debra Patt; Boone Goodgame; Thomas E Yankeelov
Journal: Eur J Radiol Date: 2021-01-09 Impact factor: 3.528

5. Breast MRI during Neoadjuvant Chemotherapy: Lack of Background Parenchymal Enhancement Suppression and Inferior Treatment Response.

Authors: Natsuko Onishi; Wen Li; David C Newitt; Roy J Harnish; Fredrik Strand; Alex Anh-Tu Nguyen; Vignesh Amal Arasu; Jessica Gibbs; Ella F Jones; Lisa J Wilmes; John Kornak; Bonnie N Joe; Elissa R Price; Haydee Ojeda-Fournier; Mohammad Eghtedari; Kathryn W Zamora; Stefanie Woodard; Heidi R Umphrey; Michael T Nelson; An L Church; Patrick J Bolan; Theresa Kuritza; Kathleen Ward; Kevin Morley; Dulcy Wolverton; Kelly Fountain; Dan Lopez Paniagua; Lara Hardesty; Kathleen R Brandt; Elizabeth S McDonald; Mark Rosen; Despina Kontos; Hiroyuki Abe; Deepa Sheth; Erin Crane; Charlotte Dillis; Pulin Sheth; Linda Hovanessian-Larsen; Dae Hee Bang; Bruce Porter; Karen Y Oh; Neda Jafarian; Luminita A Tudorica; Bethany Niell; Jennifer Drukteinis; Mary S Newell; Marina E Giurescu; Elise Berman; Constance D Lehman; Savannah C Partridge; Kimberly A Fitzpatrick; Marisa H Borders; Wei Tse Yang; Basak Dogan; Sally Hayward Goudreau; Thomas Chenevert; Christina Yau; Angela DeMichele; Donald A Berry; Laura J Esserman; Nola M Hylton
Journal: Radiology Date: 2021-08-24 Impact factor: 29.146

Review 6. Predictors of Neoadjuvant Chemotherapy Response in Breast Cancer: A Review.

Authors: Weilin Xu; Xiu Chen; Fei Deng; Jian Zhang; Wei Zhang; Jinhai Tang
Journal: Onco Targets Ther Date: 2020-06-22 Impact factor: 4.147

7. Harmonization of Quantitative Parenchymal Enhancement in T₁ -Weighted Breast MRI.

Authors: Bas H M van der Velden; Michael J van Rijssel; Beatrice Lena; Marielle E P Philippens; Claudette E Loo; Max A A Ragusi; Sjoerd G Elias; Elizabeth J Sutton; Elizabeth A Morris; Lambertus W Bartels; Kenneth G A Gilhuijs
Journal: J Magn Reson Imaging Date: 2020-06-03 Impact factor: 4.813

8. Predictive Value of Breast MRI Background Parenchymal Enhancement for Neoadjuvant Treatment Response among HER2- Patients.

Authors: Vignesh A Arasu; Paul Kim; Wen Li; Fredrik Strand; Cody McHargue; Roy Harnish; David C Newitt; Ella F Jones; M Maria Glymour; John Kornak; Laura J Esserman; Nola M Hylton
Journal: J Breast Imaging Date: 2020-07-22

Review 9. Current Landscape of Breast Cancer Imaging and Potential Quantitative Imaging Markers of Response in ER-Positive Breast Cancers Treated with Neoadjuvant Therapy.

Authors: Ella F Jones; Deep K Hathi; Rita Freimanis; Rita A Mukhtar; A Jo Chien; Laura J Esserman; Laura J Van't Veer; Bonnie N Joe; Nola M Hylton
Journal: Cancers (Basel) Date: 2020-06-09 Impact factor: 6.575

10. Comparison of Segmentation Methods in Assessing Background Parenchymal Enhancement as a Biomarker for Response to Neoadjuvant Therapy.

Authors: Alex Anh-Tu Nguyen; Vignesh A Arasu; Fredrik Strand; Wen Li; Natsuko Onishi; Jessica Gibbs; Ella F Jones; Bonnie N Joe; Laura J Esserman; David C Newitt; Nola M Hylton
Journal: Tomography Date: 2020-06