Novel technique increases detection rate in screening mammography

Novel technique increases detection rate in screening mammography
Novel technique increases detection rate in screening mammography

Digital mammography screening with the new photon-counting technique offers high diagnostic performance, according to a new study.

As mammography screening has shifted to digital technology, a range of computed radiography (CR) and direct radiography (DR) systems have emerged. The photon-counting technique is a promising DR approach that uses a unique detector to decrease scattered radiation and noise, enabling dose reduction and making it a promising tool for screening. This study of the DR approach was published in Radiology (2014; doi:10.1148/radiol.13131181).

"In population-based mammography screening, dose-reducing techniques that don't compromise outcome parameters are desirable," said Walter Heindel, MD, from the Department of Clinical Radiology at the University Hospital Muenster in Muenster, Germany.

For the study, Heindel and colleagues analyzed data from the mammography screening program in North Rhine-Westphalia, the most populous state in Germany. They compared the screening performance of a DR photon-counting scan system with those of statewide operating screening units using different digital technologies. During the study period (2009 to 2010), 13,312 women were examined using the photon-counting system, and 993,822 women were screened with either CR or DR systems alone.

The DR photon-counting scan system had a cancer detection rate of 0.76% for subsequent screening, compared with 0.59% for the other screening units. The recall rate was 5.4% for the photon-counting method and 3.4% for the other methods.

"The higher cancer detection resulting from the use of the DR photon-counting scan system is due to high detection of both small, invasive cancers and ductal carcinoma in situ," Heindel said.

The photon-counting technique had almost twice the detection rate of other methods for ductal carcinoma in situ (DCIS), an early, noninvasive form of disease. It had a higher DCIS detection rate than the statewide units and the conventional DR subgroup.

In addition, the mean average glandular radiation dose of the DR photon-counting scan system was significantly lower than the conventional DR systems with the individually used parameters of the automatic exposure control.

The study's large size distinguishes it from previous studies that compared the DR photon-counting scan system's performance with other approaches.

"To our knowledge, the study is different from previous ones as we examined the performance of the DR photon-counting scan mammography on a larger database with consideration of multiple parameters of screening," said study coauthor Stefanie Weigel, MD, also from the University Hospital Muenster.

The photon-counting technique also offers lateral dose modulation during the image acquisition, which can help account for differences in breast density. Cancer often is more difficult to detect in women with dense breasts.

"The innovative photon-counting technique offers further research potential," Heindel said. "One future research direction is the application of spectral imaging for quantification of breast glandular tissue, addressing the problem of breast density."

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