Modeling the impact of population screening on breast cancer mortality in the United States

doi:10.1016/S0960-9776(11)70299-5

The Breast

Volume 20, Supplement 3, October 2011, Pages S75-S81

https://doi.org/10.1016/S0960-9776(11)70299-5 Get rights and content

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open access

Summary

Objective

Optimal US screening strategies remain controversial. We use six simulation models to evaluate screening outcomes under varying strategies.

Methods

The models incorporate common data on incidence, mammography characteristics, and treatment effects. We evaluate varying initiation and cessation ages applied annually or biennially and calculate mammograms, mortality reduction (vs. no screening), false-positives, unnecessary biopsies and over-diagnosis.

Results

The lifetime risk of breast cancer death starting at age 40 is 3% and is reduced by screening. Screening biennially maintains 81% (range 67% to 99%) of annual screening benefits with fewer false-positives. Biennial screening from 50-74 reduces the probability of breast cancer death from 3% to 2.3%. Screening annually from 40 to 84 only lowers mortality an additional one-half of one percent to 1.8% but requires substantially more mammograms and yields more false-positives and over-diagnosed cases.

Conclusion

Decisions about screening strategy depend on preferences for benefits vs. potential harms and resource considerations.

Keywords

Mammography

Screening

Modeling

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^‡: This work was done by 6 independent modeling teams from Dana-Farber Cancer Institute; Erasmus Medical Center; Georgetown University Medical Center, Lombardi Comprehensive Cancer Center (Dr. Mandelblatt, principal investigator); Harvard School of Public Health, Harvard Medical School, Harvard Pilgrim Health Care/University of Wisconsin (Dr. Stout, principal investigator); MD Anderson Comprehensive Cancer Center; (Dr. Berry, principal investigator) and Stanford University (Dr. Plevritis, principal investigator). Drs. Mandelblatt and Cronin were the writing and coordinating committee for the project; all other collaborators are listed in alphabetical order. Dr. Feuer was responsible for overall CISNET project direction.