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Publications by Topic
Optical Mammography
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Y. Yu, N. Liu, A. Sassaroli, and S. Fantini,
“Near-infrared spectral imaging of
the female breast for quantitative oximetry in optical mammography,” Appl. Opt.
48, D225-D235 (2009).
- S. Fantini, N. Liu, Y. Yu, and A. Sassaroli,
“Bildgebendes
Verfahren zur Oxymetrie optisch inhomogener biologischer Gewebe,” BioPhotonik,
September 2008 (in German).
- S. Fantini and P. Taroni,
“Optical mammography,” in
Cancer imaging: Lung and
breast carcinomas, Vol. 1, M. A. Hayat, Editor, (Elsevier Academic Press,
London, UK, 2008), Chapter 16, pp. 445-453.
- N. Liu, A. Sassaroli, and S. Fantini,
“Paired-wavelength spectral approach to
measuring the relative concentrations of two localized chromophores in turbid
media: an experimental study,” J. Biomed. Opt. 12, 051602/1-7 (2007).
- S. Fantini, E. L. Heffer, V. E. Pera, A. Sassaroli, and N. Liu,
“Spatial and spectral information in optical
mammography,” Technology in Cancer Research &
Treatment 4, 471-482 (2005).
- E. L. Heffer, V. E. Pera, O. Schütz, H. Siebold,
S. Heywang-Köbrunner, L. Götz, A. Heinig, and S.
Fantini,
“Near-infrared imaging of the human breast:
Complementing hemoglobin concentration maps with
oxygenation images,” J. Biomed. Opt. 9,
1152-1160 (2004).
- S. Fantini, E. L. Heffer, H. Siebold, and O.
Schütz,
“Using near-infrared light to detect breast cancer,”
OPN Optics & Photonics News 14(11), 24-29
(2003).
- V. E. Pera, E. L. Heffer, H. Siebold, O. Schütz,
S. Heywang-Köbrunner, L. Götz, A. Heinig, and S.
Fantini,
“Spatial second-derivative image processing: An
application to optical mammography to enhance the
detection of breast tumors,” J. Biomed. Opt. 8, 517-524 (2003).
- E. L. Heffer and S. Fantini,
“Quantitative oximetry of breast tumors: A novel
near-infrared method that identifies two optimal
wavelengths for each tumor,” Appl. Opt. 41,
3827-3839 (2002).
- S. Fantini, E. L. Heffer, M. A. Franceschini, L.
Götz, A. Heinig, S. Heywang-Köbrunner, Oliver Schütz,
and Horst Siebold,
“Optical Mammography with Intensity-Modulated
Light,” Proceedings of Inter-Institute Workshop
on In Vivo Optical Imaging at the NIH, A. H.
Gandjbakhche, Ed. (Optical Society of America,
Washington, DC 2000), pp. 111-117.
- S. Fantini, O. Schütz, J. Edler, S. Heywang
Köbrunner, L. Götz, M. A. Franceschini, and H.
Siebold,
“Clinical Applications of Frequency-Domain Optical
Mammography,” Proc. SPIE 3566, 194-199
(1998).
- S. Fantini, S. A. Walker, M. A. Franceschini, M.
Kaschke, P. M. Schlag, and K. T. Moesta,
“Assessment of the Size, Position, and Optical
Properties of Breast Tumors in Vivo by
Non-Invasive Optical Methods,” Appl. Opt. 37,
1982-1989 (1998).
- K. T. Moesta, S. Fantini, H. Jess, S. Totkas, M.
A. Franceschini, M. Kaschke, and P. M. Schlag,
“Contrast Features of Breast Cancer in
Frequency-Domain Laser Scanning Mammography,” J.
Biomed. Opt. 3, 129-136 (1998).
- M. A. Franceschini, K. T. Moesta, S. Fantini, G.
Gaida, E. Gratton, H. Jess, W. W. Mantulin, M.
Seeber, P. M. Schlag, and M. Kaschke,
“Frequency-Domain Instrumentation Enhances Optical
Mammography: Initial Clinical Results,” Proc.
Natl. Acad. Sci. (USA) 94, 6468-6473 (1997).
- S. Fantini, K. T. Moesta, M. A. Franceschini, H.
Jess, H. Erdl, E. Gratton, P. M. Schlag, and M.
Kaschke,
“Instrumentation and Clinical Applications in
Frequency-Domain Optical Mammography,” Proc.
19th Int. Conf.-IEEE/EMBS on Photon Migration
Tomography (MS21), A. H. Hielscher and L. Wang,
chairs, pp. 2741-2744 (1997).
- S. Fantini, M. A. Franceschini, G. Gaida, E.
Gratton, H. Jess, W. W. Mantulin, K. T. Moesta, P.
M. Schlag, and M. Kaschke,
“Frequency-Domain Optical Mammography: Edge Effect
Corrections,” Med. Phys. 23, 149-157
(1996).
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