- Mia K. Markey, Associate Professor of Biomedical Engineering, The University of Texas at Austin, Adjunct Associate Professor of Imaging Physics, The University of Texas MD Anderson Cancer Center
Due to the increasing number of digital mammograms and the advent of new kinds of three-dimensional x-ray and other forms of medical imaging, mammography is undergoing a dramatic change. To meet their responsibilities, medical physicists must constantly renew their knowledge of advances in medical imaging or radiation therapy, and must be prepared to function at the intersection of these two fields. Physics of Mammographic Imaginggives an overview on the current role and future potential of new alternatives to mammography in the context of clinical need, complementary approaches, and ongoing research.
This book provides comprehensive coverage on the fundamentals of image formation, image interpretation, analysis, and modeling. It discusses the use of mammographic imaging in the detection, diagnosis, treatment planning, and monitoring of breast cancer. Expert authors give a balanced summary of core topics such as digital mammography, contrast-enhanced, stereomammography, breast tomosynthesis, and breast CT. The book highlights the use of mammographic imaging with complementary breast imaging modalities such as ultrasound, MRI, and nuclear medicine techniques. It discusses critical issues such as computer-aided diagnosis, perception, and quality assurance.
This is an exciting time in the development of medical imaging, with many new technologies poised to make a substantial impact on breast cancer care. This book will help researchers and students get up to speed on crucial developments and contribute to future advances in the field.
- Provides a comprehensive, detailed, and state-of-the-art overview of the technical aspects of mammographic imaging and its clinical context
- Covers fundamental issues of image formation, including the basics of digital mammography, contrast enhancement, stereomammography, breast tomosynthesis, and breast computed tomography
- Gives detailed treatment of image interpretation with topics that range from breast cancer detection and diagnosis and image-guided procedures to image display and image perception
- Discusses image analysis and modeling issues (physical phantoms, digital phantoms, observer models, and computer-aided detection) as well as complementary approaches such as multimodality imaging, ultrasound imaging of the breast, breast MRI, and nuclear imaging of the breast
- Concludes with a section that deals with emerging areas of breast elastography, electrical impedance imaging, optical imaging of the breast, and computer-based decision support in breast cancer care