Biomedical Engineering Reference
In-Depth Information
[51] D. Toomre and D. J. Manstein. Lighting up the cell surface with evanes-
cent wave microscopy. Trends in Cell Biology, 11(7):298{303, 2001.
[52] L. Tsang and J. A. Kong. Scattering of Electromagnetic Waves. Wiley
Series in Remote Sensing. John Wiley & Sons, Inc., New York, 2001.
[53] L. Tsang, J. A. Kong, and K.-H. Ding. Scattering of Electromagnetic
Waves. Wiley Series in Remote Sensing. John Wiley & Sons, Inc., New
York, 2000.
[54] L. Tsang, J. A. Kong, and R. T. Shin. Theory of Microwave Remote
Sensing. Wiley Series in Remote Sensing. John Wiley & Sons, Inc., New
York, 1985.
[55] B. Valuer. Molecular Fluorescence: Principles and Applications. Wiley-
VCH, Weinheim, Germany, 2002.
[56] J. Wang, B. W. Pogue, S. Jiang, and K. D. Paulsen. Near-infrared to-
mography of breast cancer hemoglobin, water, lipid, and scattering us-
ing combined frequency domain and CW measurement. Optics Letters,
35(1):82{84, 2010.
[57] L. V. Wang and H. Wu. Biomedical Optics Principles and Imaging. John
Wiley & Sons, Inc., Hoboken, NJ, 2007.
[58] R Weissleder and V. Ntziachristos. Shedding light onto live molecular
targers. Nature Medicine, 9(1):123{128, 2003.
[59] A. Wunder, C. H. Tung, U. Muller-Ladner, R. Weissleder, and U. Mah-
mood. In vivo imaging of protease activity in arthritis: A novel ap-
proach for monitoring treatment response.
Arthritis and Rheumatism,
50(8):2459{2465, 2004.
[60] W. R. Zipfel, R. M. Williams, and W. W. Webb. Nonlinear magic: Multi-
photon microscopy in the biosciences. Nature Biotechnology, 21(11):1368{
1376, 2003.
[61] A. Zoumi, A. Yeh, and B. J. Tromberg. Imaging cells and extracellular
matrix in vivo by using second-harmonic generation and two-photon ex-
cited fluorescence. Proceedings of the National Academy of Sciences of
the United States of America, 99(17):11014{11019, 2002.
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