BREAST IMAGING SYSTEMS: DESIGN CHALLENGES FOR ENGINEERS  373

                          Stojadinovic, A., Moskovitz, O., Gallimidi, Z., et al. (2006). Prospective study of electrical impedance scanning
                            for identifying young women at risk for breast cancer. Breast Cancer Research & Treatment. 97, 179–189.
                          Surry, K.J.M., Mills, G.R., Bevan, K., Downey, D.B., and Fenster, A. (2007). Stereotactic mammography imag-
                            ing combined with 3D US imaging for image guided breast biopsy. Medical Physics. 34, 4348–4358.
                          Suryanarayanan, S., Karellas, A., Vedantham, S., Glick, S.J., D’Orsi, C.J., Baker, S.P., and Webber, R.L., (2000).
                            Comparison of tomosynthesis methods used with digital mammography.  Academic Radiology. 7,
                            1085–1097.
                          Tesic, M.M., Piccaro, M.F., Munier, B., Tesic, M.M., Piccaro, M.F., and Munier, B. (1999). Full field digital
                            mammography scanner. European Journal of Radiology. 31, 2–17.
                          Thomas, A., Fischer, T., Frey, H., et al. (2006). Real-time elastography—an advanced method of ultrasound: First
                            results in 108 patients with breast lesions. Ultrasound in Obstetrics & Gynecology. 28, 335–340.
                          Thompson, C.J., Murthy, K., Weinberg, I.N., and Mako, F. (1994). Feasibility study for positron emission mam-
                            mography. Medical Physics. 21, 529–538.
                          Thunberg, S., Adelow, L., Blom, O., et al. (2004). Dose reduction in mammography with photon counting imaging.
                            Proceedings SPIE. 5368, 457–465.
                          Tornai, M.P., Bowsher, J.E., Jaszczak, R.J., Pieper, B.C., Greer, K.L., Hardenbergh, P.H., and Coleman, R.E.
                            (2003). Mammotomography with pinhole incomplete circular orbit SPECT.[see comment].  Journal of
                            Nuclear Medicine. 44, 583–593.
                          Van Vaals, J., Brummer, M., Dixon, W., Tuithof, H., Engels, H., Nelson, R.G.B., Chezmas, J., and den Boer, J.
                            (1993). Keyhole method for accelerating imaging of contrast agent uptake. Journal of Magnetic Resonance
                            Imaging. 3, 671.
                          Wang, G.C., Huber, J.S., Moses, W.W., Qi, J., and Choong, W.S. (2006). Characterization of the LBNL PEM
                            camera. IEEE Transactions on Nuclear Science., IEEE Transactions on 53, 1129–1135.
                          Wang, X., Xu, Y., Xu, M., Yokoo, S., Fry, E.S., and Wang, L.V. (2002). Photoacoustic tomography of biological
                            tissues with high cross-section resolution: reconstruction and experiment. Medical Physics. 29, 2799–2805.
                          Warner, E., Plewes, D.B., Hill, K.A., et al. (2004). Surveillance of BRCA1 and BRCA2 mutation carriers with
                            magnetic resonance imaging, ultrasound, mammography and clinical breast examination.  Journal of
                            American Medical Association. 292, 1317–1325.
                          Webber, R.L., Horton, R.A., Tyndall, D.A., and Ludlow, J.B. (1997). Tuned-aperture computed tomography (TACT).
                            Theory and application for three-dimensional dento-alveolar imaging. Dento-Maxillo-Facial Radiology. 26, 53–62.
                          Webber, R.L., Webber, S.E., and Moore, J. (2002). Hand-held three-dimensional dental X-ray system: technical
                            description and preliminary results. Dento-Maxillo-Facial Radiology. 31, 240–248.
                          Weinberg, I.N., Beylin, D., Zavarzin, V., Yarnall, S., Stepanov, P.Y., Anashkin, E., Narayanan, D., Dolinsky, S.,
                            Lauckner, K., and Adler, L.P. (2005). Positron emission mammography: high-resolution biochemical breast
                            imaging. Technology in Cancer Research & Treatment. 4, 55–60.
                          Wu, T., Moore, R.H., Rafferty, E.A., and Kopans, D.B. (2004). A comparison of reconstruction algorithms for
                            breast tomosynthesis. Medical Physics. 31, 2636–2647.
                          Wu, T., Stewart, A., Stanton, M., et al. (2003). Tomographic mammography using a limited number of low-dose
                            cone-beam projection images. Medical Physics. 30, 365–380.
                          Yuan-Chuan, T., Heyu, W., and Janecek, M. (2006). Initial study of an asymmetric PET system dedicated to
                            breast cancer imaging. IEEE Transactions on Nuclear Science., IEEE Transactions on 53, 121–126.
                          Yutani, K., Shiba, E., Kusuoka, H., Tatsumi, M., Uehara, T., Taguchi, T., Takai, S.I., and Nishimura, T. (2000).
                            Comparison of FDG-PET with MIBI-SPECT in the detection of breast cancer and axillary lymph node
                            metastasis. Journal of Computer Assisted Tomography. 24, 274–280.
                          Zhang, Y., Chan, H.P., Sahiner, B., et al. (2006). A comparative study of limited-angle cone-beam reconstruction
                            methods for breast tomosynthesis. Medical Physics. 33, 3781–3795.
                          Zhi, H., Ou, B., Luo, B.M., Feng, X., Wen, Y.L., and Yang, H.Y. (2007). Comparison of ultrasound elastography,
                            mammography, and sonography in the diagnosis of solid breast lesions. Journal of Ultrasound in Medicine.
                            26, 807–815.
                          Ziegler, C.M., Franetzki, M., Denig, T., Muhling, J., and Hassfeld, S. (2003). Digital tomosynthesis-experiences
                            with a new imaging device for the dental field. Clinical Oral Investigations. 7, 41–45.