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Screening mammography in women with dense breasts (ie, containing more than 50% fibroglandular tissue) is challenging for two reasons:
- Compared with women with less breast density, there is decreased cancer detection (sensitivity) with screening mammography.
- Women with dense breasts have an increased lifetime risk of breast cancer.1
Because nearly half of women in the United States undergoing screening mammography have dense breasts, it is vital that we provide them with accurate and useful counseling.
The challenge of managing women with dense breasts has become complicated by the fact that 21 states have passed laws requiring that women with dense breasts be informed through scripted messages of the decreased sensitivity of screening and increased risk of cancer and advised to
discuss with their provider whether additional testing (eg, with supplemental ultrasound) should be ordered. These laws may be well-intentioned, but they are problematic.
Although there are data documenting increased cancer detection with screening ultrasonography, there are no data currently available demonstrating that this increased detection adds value by improving important outcomes like disease-specific mortality. Further, the value proposition (improved outcomes/cost) of screening ultrasonography is unknown.
In this article, Sprague and colleagues attempt to fill this void by assessing the potential benefits, harms, and cost-effectivenessof supplemental ultrasonography following a negative screening mammogram for women with dense breasts.
Through the use of validated micro-simulation modeling, they calculate that the routine use of supplemental ultrasonography in women with dense breasts might result in 0.36 fewer deaths per 1,000 women screened. Compare this to 6 fewer deaths per 1,000 women undergoing screening mammography.
Moreover, the specificity of supplemental ultrasonography in this setting is poor, with 94% of recommended biopsies yielding benign findings (ie, positive predictive value of 6%).2
What this evidence means for practice
At present, there is little evidence that routine supplemental ultrasonography improves important outcomes such as disease-specific mortality at a rational cost. However, there may be hope on the horizon: Emerging data suggest that digital tomosynthesis as a primary screening modality may improve both specificity and sensitivity, compared with mammography, in women with dense breasts.
Initial experience with tomosynthesis demonstrates both fewer callbacks and improved cancer detection in women, compared with screening mammography.3,4 However, the value proposition of this new technology will ultimately depend on a careful analysis of its effect on mortality and cost.
–Mark D. Pearlman, MD
Share your thoughts on this article! Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.
1. American College of Obstetricians and Gynecologists. Management of women with dense breasts diagnosed by mammography. Committee Opinion No. 625. Obstet Gynecol. 2015;125(3):750–751.
2. Hooley RJ, Greenberg KL, Stackhouse RM, Geisel JL, Butler RS, Philpotts LE. Screening US in patients with mammographically dense breasts: initial experience with Connecticut Public Act 09-41. Radiology. 2012;265(1):59–69.
3. Friedewald SM, Rafferty EA, Rose SL, et al. Breast cancer screening using tomosynthesis in combination with digital mammography. JAMA. 2014;311(24):2499–2507.
4. Skaane PA, Bandos EB, Eben IN, et al. Two-view digital breast tomosynthesis screening with synthetically reconstructed projection images: comparison with digital breast tomosynthesis with full-field digital mammographic images. Radiology. 2014;271(3):655–663.
Screening mammography in women with dense breasts (ie, containing more than 50% fibroglandular tissue) is challenging for two reasons:
- Compared with women with less breast density, there is decreased cancer detection (sensitivity) with screening mammography.
- Women with dense breasts have an increased lifetime risk of breast cancer.1
Because nearly half of women in the United States undergoing screening mammography have dense breasts, it is vital that we provide them with accurate and useful counseling.
The challenge of managing women with dense breasts has become complicated by the fact that 21 states have passed laws requiring that women with dense breasts be informed through scripted messages of the decreased sensitivity of screening and increased risk of cancer and advised to
discuss with their provider whether additional testing (eg, with supplemental ultrasound) should be ordered. These laws may be well-intentioned, but they are problematic.
Although there are data documenting increased cancer detection with screening ultrasonography, there are no data currently available demonstrating that this increased detection adds value by improving important outcomes like disease-specific mortality. Further, the value proposition (improved outcomes/cost) of screening ultrasonography is unknown.
In this article, Sprague and colleagues attempt to fill this void by assessing the potential benefits, harms, and cost-effectivenessof supplemental ultrasonography following a negative screening mammogram for women with dense breasts.
Through the use of validated micro-simulation modeling, they calculate that the routine use of supplemental ultrasonography in women with dense breasts might result in 0.36 fewer deaths per 1,000 women screened. Compare this to 6 fewer deaths per 1,000 women undergoing screening mammography.
Moreover, the specificity of supplemental ultrasonography in this setting is poor, with 94% of recommended biopsies yielding benign findings (ie, positive predictive value of 6%).2
What this evidence means for practice
At present, there is little evidence that routine supplemental ultrasonography improves important outcomes such as disease-specific mortality at a rational cost. However, there may be hope on the horizon: Emerging data suggest that digital tomosynthesis as a primary screening modality may improve both specificity and sensitivity, compared with mammography, in women with dense breasts.
Initial experience with tomosynthesis demonstrates both fewer callbacks and improved cancer detection in women, compared with screening mammography.3,4 However, the value proposition of this new technology will ultimately depend on a careful analysis of its effect on mortality and cost.
–Mark D. Pearlman, MD
Share your thoughts on this article! Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.
Screening mammography in women with dense breasts (ie, containing more than 50% fibroglandular tissue) is challenging for two reasons:
- Compared with women with less breast density, there is decreased cancer detection (sensitivity) with screening mammography.
- Women with dense breasts have an increased lifetime risk of breast cancer.1
Because nearly half of women in the United States undergoing screening mammography have dense breasts, it is vital that we provide them with accurate and useful counseling.
The challenge of managing women with dense breasts has become complicated by the fact that 21 states have passed laws requiring that women with dense breasts be informed through scripted messages of the decreased sensitivity of screening and increased risk of cancer and advised to
discuss with their provider whether additional testing (eg, with supplemental ultrasound) should be ordered. These laws may be well-intentioned, but they are problematic.
Although there are data documenting increased cancer detection with screening ultrasonography, there are no data currently available demonstrating that this increased detection adds value by improving important outcomes like disease-specific mortality. Further, the value proposition (improved outcomes/cost) of screening ultrasonography is unknown.
In this article, Sprague and colleagues attempt to fill this void by assessing the potential benefits, harms, and cost-effectivenessof supplemental ultrasonography following a negative screening mammogram for women with dense breasts.
Through the use of validated micro-simulation modeling, they calculate that the routine use of supplemental ultrasonography in women with dense breasts might result in 0.36 fewer deaths per 1,000 women screened. Compare this to 6 fewer deaths per 1,000 women undergoing screening mammography.
Moreover, the specificity of supplemental ultrasonography in this setting is poor, with 94% of recommended biopsies yielding benign findings (ie, positive predictive value of 6%).2
What this evidence means for practice
At present, there is little evidence that routine supplemental ultrasonography improves important outcomes such as disease-specific mortality at a rational cost. However, there may be hope on the horizon: Emerging data suggest that digital tomosynthesis as a primary screening modality may improve both specificity and sensitivity, compared with mammography, in women with dense breasts.
Initial experience with tomosynthesis demonstrates both fewer callbacks and improved cancer detection in women, compared with screening mammography.3,4 However, the value proposition of this new technology will ultimately depend on a careful analysis of its effect on mortality and cost.
–Mark D. Pearlman, MD
Share your thoughts on this article! Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.
1. American College of Obstetricians and Gynecologists. Management of women with dense breasts diagnosed by mammography. Committee Opinion No. 625. Obstet Gynecol. 2015;125(3):750–751.
2. Hooley RJ, Greenberg KL, Stackhouse RM, Geisel JL, Butler RS, Philpotts LE. Screening US in patients with mammographically dense breasts: initial experience with Connecticut Public Act 09-41. Radiology. 2012;265(1):59–69.
3. Friedewald SM, Rafferty EA, Rose SL, et al. Breast cancer screening using tomosynthesis in combination with digital mammography. JAMA. 2014;311(24):2499–2507.
4. Skaane PA, Bandos EB, Eben IN, et al. Two-view digital breast tomosynthesis screening with synthetically reconstructed projection images: comparison with digital breast tomosynthesis with full-field digital mammographic images. Radiology. 2014;271(3):655–663.
1. American College of Obstetricians and Gynecologists. Management of women with dense breasts diagnosed by mammography. Committee Opinion No. 625. Obstet Gynecol. 2015;125(3):750–751.
2. Hooley RJ, Greenberg KL, Stackhouse RM, Geisel JL, Butler RS, Philpotts LE. Screening US in patients with mammographically dense breasts: initial experience with Connecticut Public Act 09-41. Radiology. 2012;265(1):59–69.
3. Friedewald SM, Rafferty EA, Rose SL, et al. Breast cancer screening using tomosynthesis in combination with digital mammography. JAMA. 2014;311(24):2499–2507.
4. Skaane PA, Bandos EB, Eben IN, et al. Two-view digital breast tomosynthesis screening with synthetically reconstructed projection images: comparison with digital breast tomosynthesis with full-field digital mammographic images. Radiology. 2014;271(3):655–663.