Overview of the evidence on digital breast tomosynthesis in breast cancer detection.

Digital breast tomosynthesis (DBT, or 3D-mammography), a three-dimensional derivative of digital mammography (DM), reduces the effect of tissue superimposition and may improve mammographic interpretation. In this review, we examined the evidence on the accuracy of DBT in clinical studies. Published studies of DBT were relatively small studies, mostly test-set observer (reader) studies or clinical series that included symptomatic and screen-recalled cases, and were generally enriched with cancers. With these limitations in mind, the evidence showed some consistent findings, summarized as follows: two-view DBT has at least equal or better accuracy than standard two-view DM, whereas one-view DBT does not have better accuracy than standard DM; the addition of DBT to standard mammography (for mammographic interpretation or for assessment or triage of screen-recalled abnormalities) increases accuracy; improved accuracy from using DBT (relative to, or added to, DM) may be due to increased cancer detection or due to reduced false positive recalls, or both; and subjective interpretation of cancer conspicuity consistently found that cancers were equally or more conspicuous on DBT relative to DM. Preliminary data from population screening trials suggest that the integration of DBT with conventional DM (screen-reading using combined 2D + 3D mammography) may substantially improve breast cancer detection, although final results are not yet available, and many logistical issues need further evaluation to determine the potential implications and cost of combined 2D + 3D mammographic screening. At present, there is insufficient evidence to justify a change from standard DM to DBT however the available data strongly support investment in new large-scale population screening trials. These trials need to avoid the 'double' acquisitions required for 2D + 3D mammograms, and should therefore focus on evaluating integrated 2Dsynthetic + 3D mammography (where 2D-images are reconstructed from the DBT acquisition), and should consider using a randomized design.

[1]  S. Duffy,et al.  TOMMY Trial (a comparison of tomosynthesis with digital mammography in the UK NHS breast screening programme) setting up a multicentre imaging trial , 2011, Breast Cancer Research.

[2]  Paolo Peterlongo,et al.  Prospective study of breast tomosynthesis as a triage to assessment in screening , 2012, Breast Cancer Research and Treatment.

[3]  Unni Haakenaasen,et al.  Digital breast tomosynthesis (DBT): initial experience in a clinical setting , 2012, Acta radiologica.

[4]  David Gur,et al.  Digital breast tomosynthesis: a pilot observer study. , 2008, AJR. American journal of roentgenology.

[5]  David Gur,et al.  Localized detection and classification of abnormalities on FFDM and tomosynthesis examinations rated under an FROC paradigm. , 2011, AJR. American journal of roentgenology.

[6]  Pat Baldwin Digital breast tomosynthesis. , 2009, Radiologic technology.

[7]  Christer Ullberg,et al.  Clinical experience of photon counting breast tomosynthesis: comparison with traditional mammography , 2011, Acta radiologica.

[8]  Ioannis Sechopoulos,et al.  Clinical digital breast tomosynthesis system: dosimetric characterization. , 2012, Radiology.

[9]  C P Lawinski,et al.  A comparison of the accuracy of film-screen mammography, full-field digital mammography, and digital breast tomosynthesis. , 2012, Clinical radiology.

[10]  Anders Tingberg,et al.  Digital mammography and tomosynthesis for breast cancer diagnosis. , 2011, Expert opinion on medical diagnostics.

[11]  L. Esserman,et al.  Breast cancer screening: the questions answered , 2012, Nature Reviews Clinical Oncology.

[12]  Mark A Helvie,et al.  Digital mammography imaging: breast tomosynthesis and advanced applications. , 2010, Radiologic clinics of North America.

[13]  Andriy I. Bandos,et al.  Comparison of digital mammography alone and digital mammography plus tomosynthesis in a population-based screening program. , 2013, Radiology.

[14]  Giuseppe Rescinito,et al.  One-to-one comparison between digital spot compression view and digital breast tomosynthesis , 2012, European Radiology.

[15]  Kenneth G. A. Gilhuijs,et al.  Breast tomosynthesis in clinical practice: initial results , 2009, European Radiology.

[16]  David Gur,et al.  Dose reduction in digital breast tomosynthesis (DBT) screening using synthetically reconstructed projection images: an observer performance study. , 2012, Academic radiology.

[17]  I Andersson,et al.  The diagnostic accuracy of dual-view digital mammography, single-view breast tomosynthesis and a dual-view combination of breast tomosynthesis and digital mammography in a free-response observer performance study. , 2010, Radiation protection dosimetry.

[18]  Federica Zanca,et al.  Two-view and single-view tomosynthesis versus full-field digital mammography: high-resolution X-ray imaging observer study. , 2012, Radiology.

[19]  N Houssami,et al.  Application of breast tomosynthesis in screening: incremental effect on mammography acquisition and reading time. , 2012, The British journal of radiology.

[20]  David Gur,et al.  Digital breast tomosynthesis: observer performance study. , 2009, AJR. American journal of roentgenology.

[21]  Tor D Tosteson,et al.  Digital breast tomosynthesis: initial experience in 98 women with abnormal digital screening mammography. , 2007, AJR. American journal of roentgenology.

[22]  J. Baker,et al.  Breast tomosynthesis: state-of-the-art and review of the literature. , 2011, Academic radiology.

[23]  Gisella Gennaro,et al.  Digital breast tomosynthesis versus digital mammography: a clinical performance study , 2010, European Radiology.

[24]  A Tingberg,et al.  Breast cancer screening with tomosynthesis--initial experiences. , 2011, Radiation protection dosimetry.

[25]  Lubomir M. Hadjiiski,et al.  Digital breast tomosynthesis is comparable to mammographic spot views for mass characterization. , 2012, Radiology.

[26]  J. Dobbins Tomosynthesis imaging: at a translational crossroads. , 2009, Medical physics.