The continuing controversy regarding the efficacy of, and optimal individualized approaches to, screening for the early detection of breast cancer, including the argument that conventional / traditional screening approaches may result in the detection of many cancers that are not likely to ultimately impact survival, stresses the importance of investigating alternative approaches to screening, in particular as related to younger women and / or women with denser than average age adjusted breast tissue who are at an elevated risk for developing breast cancer and in whom conventional mammography is known to be quite limited. Recent initiatives in many states require notifying women of their breast density. Women recommended for additional imaging (i.e., density BIRADS 3 and 4) constitutes between 40 and 50 percent of the screened population. The two possible high volume procedures being considered for this purpose are Whole Breast Ultrasound (WBUS) performed either manually or automatically and Digital Breast Tomosynthesis (DBT) that is being incorporated in routine clinical practice. Both DBT and WBUS technologies have advantages and limitations. To date, significant questions remain regarding the role that either may ultimately play in screening based breast imaging. As important, questions remain as to the marginal value of supplementary WBUS in a DBT based practice when DBT rather than FFDM is used as the baseline procedure. Therefore, at this time, it is important to validate / confirm te demonstrated potential for an acceptable performance for each of these modalities, as well as a significant performance improvement when using these approaches jointly and compare these performance levels, not only in terms of cancer detection and recall rates, but also in terms of the types of cancers likely to be detected by each imaging modality. As important, we will also assess experimentally the marginal value of WBUS as a supplementary imaging procedure to DBT based screening. The purpose of this project is to address these very issues by performing a prospective study on women who are most likely to benefit from the use of either WBUS and/or DBT or both in the screening environment. We propose to assess these questions in a sequentially selected population of consenting women participating in our screening program, which will include four of our 12 busiest sites encompassing both private and academic clinics and will involve 12 of our better performing 28 breast imaging radiologists with a wide range of experience levels and practice parameters. This project has broad and potentially significant implications on breast imaging as a whole. We have been collaborating as an integrated team in all scientific, operational, and clinical aspects of breast imaging, including, but not limited to, DBT and WBUS. The proposed project represents a natural, timely and warranted continuation and expansion of our ongoing investigations in this extremely important area of imaging based screening for the early detection of breast cancer, particularly those cancers that are unlikely to represent over-diagnosis.

Public Health Relevance

While several new technologies for breast cancer screening are now available, it is not feasible to repeatedly perform all possible screening tests on each woman. Importantly, direct comparative effectiveness of various supplemental approaches to FFDM has been lacking. WBUS and DBT are likely the most feasible approaches to replace and/or supplement screening in a large volume of women with denser breasts, because these approaches do not require injection of contrast and/or radioactive material. Both have detection advantages and limitations. Notably, because the workflow with DBT is practically the same as FFDM, it may have significant operational advantages over WBUS, and, combined with synthesized 2D imaging (C-View), DBT may very well become the baseline screening procedure. On the other hand, early indications are that WBUS may detect more invasive node negative cancers; hence, its use may eventually prove to have better efficacy. To date, the performance of these approaches when performed on the same woman has NOT been adequately investigated, in particular in a USA type practice environment that is quite different than practices abroad. Marginal value of WBUS as a supplement to DBT has not been comprehensively investigated. Insofar as there are indications that both DBT and WBUS seem to be finding a similar number of additional cancers, as compared with FFDM based screening, albeit these are potentially different in terms of aggressiveness and stage at detection, the work proposed in this application is significant, timely and warranted regardless of the absolute result

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA187593-03
Application #
9266757
Study Section
Medical Imaging Study Section (MEDI)
Program Officer
Baker, Houston
Project Start
2015-06-01
Project End
2020-05-31
Budget Start
2017-06-01
Budget End
2018-05-31
Support Year
3
Fiscal Year
2017
Total Cost
$609,044
Indirect Cost
$213,561
Name
University of Pittsburgh
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
004514360
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213
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Berg, Wendie A; Bandos, Andriy I; Mendelson, Ellen B et al. (2016) Ultrasound as the Primary Screening Test for Breast Cancer: Analysis From ACRIN 6666. J Natl Cancer Inst 108:
Berg, Wendie A (2016) Current Status of Supplemental Screening in Dense Breasts. J Clin Oncol :
Berg, Wendie A (2016) Supplemental Breast Cancer Screening in Women With Dense Breasts Should Be Offered With Simultaneous Collection of Outcomes Data. Ann Intern Med 164:299-300
Berg, Jeremy M; Berg, Wendie A (2016) No myth: Benefits of breast screening. Nature 529:283