Anders Tingberg
Associate professor
Digital mammography and tomosynthesis for breast cancer diagnosis
Author
Summary, in English
Introduction: Mammography is one of the most common X-ray examinations
although it is well-known that the anatomical background of the breast is the main obstacle when it comes to detection of breast lesions with this method.
Tomosynthesis is a three-dimensional radiographic technique which, to a large extent, can suppress the confounding effect of the anatomical background.
Tomosynthesis is a strong competitor to mammography both for
screening and clinical examinations.
Areas covered: This paper gives a description of digital mammography (DM) and breast tomosynthesis (BT). Relevant studies exploring the possibilities of BT from a technical and clinical point of view, in comparison with DM, are presented.
The reader will learn about the concept of BT as well as its advantages compared with DM. The review highlights both diagnostic and clinical aspects of BT as well as the challenges that remain before BT can be fully incorporated
in clinical breast cancer imaging and potentially in screening.
Expert opinion: BT has the potential to considerably improve breast cancer diagnostics and offers advantages to the existing techniques. It has applications both for clinical breast cancer imaging as well as for screening purposes.
The true potential of BT in both fields remains to be further evaluated in clinical trials.
although it is well-known that the anatomical background of the breast is the main obstacle when it comes to detection of breast lesions with this method.
Tomosynthesis is a three-dimensional radiographic technique which, to a large extent, can suppress the confounding effect of the anatomical background.
Tomosynthesis is a strong competitor to mammography both for
screening and clinical examinations.
Areas covered: This paper gives a description of digital mammography (DM) and breast tomosynthesis (BT). Relevant studies exploring the possibilities of BT from a technical and clinical point of view, in comparison with DM, are presented.
The reader will learn about the concept of BT as well as its advantages compared with DM. The review highlights both diagnostic and clinical aspects of BT as well as the challenges that remain before BT can be fully incorporated
in clinical breast cancer imaging and potentially in screening.
Expert opinion: BT has the potential to considerably improve breast cancer diagnostics and offers advantages to the existing techniques. It has applications both for clinical breast cancer imaging as well as for screening purposes.
The true potential of BT in both fields remains to be further evaluated in clinical trials.
Department/s
- Medical Radiation Physics, Malmö
- Department of Translational Medicine
Publishing year
2011
Language
English
Pages
517-526
Publication/Series
Expert Opinion on Medical Diagnostics
Volume
5
Issue
6
Full text
- Available as PDF - 487 kB
- Download statistics
Links
Document type
Journal article review
Topic
- Radiology, Nuclear Medicine and Medical Imaging
Status
Published
Research group
- Medical Radiation Physics, Malmö