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Amyot, F., K. Camphausen, A. Siavosh, D. Sackett, and A. Gandjbakhche. Quantitative method to study the network formation of endothelial cells in response to tumor angiogenic factors. IEE Proc. - Systems Biology 152(2), 61-66 (June 2005).
Arai, A., C. Kasserra, P. Territo, A. Gandjbakhche, and R. Balaban. Myocardial oxygenation in vivo: optical spectroscopy of cytoplasmic myoglobin and mitochondrial cytochromes. Am J Physiol Heart Circ Physiol 277, H683-697 (Aug 1999).
Bloch, S., F. Lesage, L. McIntosh, A. Gandjbakhche, K. Liang, and S. Achilefu. Whole-body fluorescence lifetime imaging of a tumor-targeted near infrared molecular probe in mice. J. Biomed. Opt. 10(5):054003 (Sep-Oct 2005).
Binzoni, T., T.S. Leung, A.H. Gandjbakhche, D. Rufenacht, and D.T. Delpy. The use of the Henyey-Greenstein phase function in Monte Carlo simulations in biomedical optics. Phys Med Biol 51(17):N313-22 (2006).
Chernomordik, V., A. Gandjbakhche, J. Hebden and G. Zaccanti. Effect of lateral boundaries on contrast functions in time-resolved transillumination measurements. Medical Physics 26(9), 1822-1831 (Sept 1999).
Chernomordik, V., A. Gandjbakhche, M. Lepore, R. Esposito and I. Delfino. Depth dependence of the analytical expression for the width of the point spread function (spatial resolution) in time resolved transillumination. Journal of Biomedical Optics 6(4), 441-445 (Oct 2001).
Chernomordik, V., D. Hattery, A. Gandjbakhche, A. Pifferi, P. Taroni, A. Torricelli, G. Valentini and R. Cubeddu. Quantification by random walk of the optical parameters of nonlocalized abnormalities embedded within tissuelike phantoms. Optics Letters 25(13), 951-953 (July 2000).
Chernomordik, V., D. Hattery, D. Grosenick, H. Wabnitz, H. Rinneberg, K.T. Moesta, P. Schlag and A. Gandjbakhche. Quantification of optical properties of a breast tumor using random walk theory. Journal of Biomedical Optics 7(1), 80-87 (Jan 2002).
Chernomordik, V., D. Hattery, I. Gannot and A. Gandjbakhche. Inverse Method 3-D Reconstruction of Localized in vivo Fluorescence - Application to Sjogren Syndrome. IEEE Journal of Selected Topics in Quantum Electronics 5(4), 930-935 (July/Aug 1999).
Chernomordik, V., D. Hattery, I. Gannot, G. Zaccanti and A. Gandjbakhche. Analytical calculation of the mean time spent by photons inside an absorptive inclusion embedded in a highly scattering medium. Journal of Biomedical Optics 7(3), 486-492 (July 2002).
Chernomordik, V., R. Nossal and A. Gandjbakhche. Point spread functions of photons in time-resolved transillumination experiments using simple scaling arguments. Med. Phys. 23(11), 1857-1861 (Nov 1996).
Combs, C.A., A.V. Smirnov, J.D. Riley, A.H. Gandjbakhche, J.R. Knutson, and R.S. Balaban. Optimization of Multi-Photon Excitation Microscopy by Total Emission Detection (TED) Using a Parabolic Light Reflector. Journal of Microscopy, in press.
Dagdug, L., V. Chernomordik, G.H. Weiss, and A. Gandjbakhche. Monte Carlo simulations of increased/decreased scattering inclusions inside a turbid slab. Phys Med Biol. 7;50(23):5573-81 (Dec 2005).
Dagdug, L., G. Weiss, and A. Gandjbakhche. Effects of anisotropic optical properties on photon migration in structured tissues. Phys. Med. Biol. 48, 1361-1370 (May 2003).
Demos, S., A. Vogel and A.H. Gandjbakhche. Advances in Optical Spectroscopy and Imaging of Breast Lesions. Journal of Mammary Gland Biology and Neoplasia (2006).
Dudko, O., G.H. Weiss, V. Chernomordik, and A.H. Gandjbakhche. Photon migration in turbid media with anisotropic optical properties. Phys. Med. Biol. 49, 3979-3989 (2004).
Dudko, OK, GH Weiss and V. Chernomordik. Mean time-of-flight of photons in transillumination measurements of optically anisotropic tissue with an inclusion. Phys Med Biol. 51(18):4719-33 (Sep 2006).
Eidsath, A., V. Chernomordik, A. Gandjbakhche, P. Smith and A. Russo. Three-dimensional localization of flourescent masses deeply embedded in tissue. Phys. Med. Biol. 47, 4079-4092 (2002).
Gandjbakhche, A. Diffuse optical imaging and spectroscopy, in vivo. Applied Physics 2(4), 1073-1089 (2001).
Gandjbakhche, A. and G. Weiss. Descriptive parameter for photon trajectories in a turbid medium. Phys. Rev. E61, 6958-6962 (2000).
Gandjbakhche, A., R. Nossal and R. Bonner. Resolution limits for optical transillumination of abnormalities deeply embedded in tissues. Medical Physics. 21(2),185-91 (Feb 1994).
Gandjbakhche, A., R. Bonner, A. Arai, and R. Balaban. Visible-light photon migration through myocardium in vivo. Am J Physiol Heart Circ Physiol 277, H698-704 (Aug 1999).
Gandjbakhche, A., V. Chernomordik, J. Hebden and R. Nossal. Time-dependent contrast functions for quantitative imaging in time-resolved transillumunination experiments. Applied Optics 37(10), 1973-1981 (Apr 1998).
Gandjbakhche, A., Chernomordik, V., Hattery, D., Hassan, M. and Gannot, I. Tissue characterization by quantitative optical imaging methods. Technol Cancer Res Treat 2(6), 537-51 (Dec 2003).
Gannot, I., A. Garashi, G. Gannot, V. Chernomordik, and A. Gandjbakhche. In vivo quantitative three-dimensional localization of tumor labeled with exogenous specific fluorescence markers. Applied Optics 42(16), 3073-3080 (June 2003).
Gannot, I., A. Garashi, V. Chernomordik and A. Gandjbachkhe. Quantitative optical imaging of the pharmacokinetics of fluorescent-specific antibodies to tumor markers through tissuelike turbid media. Optics Letters 29(7),742-4 (Apr 2004).
Gannot, I., G. Gannot, A. Garashi, A. Gandjbakhche, A. Buchner and Y. Keisari.. Laser activated fluorescence measurements and morphological features: An in vivo study of clearance time of FITC tagged cell markers. Journal of Biomedical Optics 7,14-19 (2002).
Gannot, I., R. Bonner, G. Gannot, P. Fox, P. Smith and A. Gandjbakhche. Optical simulations of a noninvasive technique for the diagnosis of diseased salivary glands in situ. Medical Physics 25(7 Pt 1), 1139-44 (July 1998).
Gannot, I., R. Izhar, F. Hekmat, V. Chernomordik, and A. Gandjbakhche. Functional optical detection based on pH dependent fluorescence lifetime. Lasers in Surgery and Medicine 35, 342-348 (2004).
Hassan, M., BA Klaunberg. Biomedical applications of fluorescence imaging in vivo. Comp Med. 54(6), 635-44 (Dec 2004).
Hassan M., R. Little, A. Vogel, K. Aleman, K. Wyvill, R. Yarchoan, and A. Gandjbakhche. Quantitative assessment of tumor vasculature and response to therapy in kaposi's sarcoma using functional noninvasive imaging. Technol. Cancer Res. Treat. 3(5), 451-7 (Oct 2004).
Hassan, M., J. Riley, V. Chernomordik, P. Smith, R. Pursley, S. B. Lee, J. Capala, A. H. Gandjbakhche. Fluorescence lifetime imaging system for in vivo studies. Molecular Imaging, in press.
Hattery, D., B. Hattery, V. Chernomordik, P. Smith, M. Loew, J. Mulshine, and A. Gandjbakhche. Differential oblique angle spectroscopy of the oral epithelium. J. Biomed. Opt. 9(5) (2004).
Hattery, D., M. Hassan, S. Demos and A. Gandjbakhche. Hyperspectral Imaging of Kaposis Sarcoma for Disease Assessement and Treatment Monitoring. Applied Imagery Pattern Recognition 124-132 (2002).
Hattery, D., V. Chernomordik, M. Loew, I. Gannot and A. Gandjbakhche. Analytical solutions for time-resolved fluorescence lifetime imaging in a turbid medium such as tissue, J. Opt. Soc. Am. A 18, 1523-1530 (2001).
Hattery, D., V. Chernomordik, M. Loew, I. Gannot and A. Gandjbakhche. Analytical solutions for time-resolved fluorescence lifetime imaging in a turbid medium such as tissue: errata. J. Opt. Soc. Am. A 20(9), 1833 (Sept 2003).
Hebden, J. and A. Gandjbakhche. Experimental validation of an elementary formula for estimating spatial resolution for optical transillumination imaging. Medical Physics 22(8), 1271-2 (Aug 1995)
Hebden, JC., JJ Guerrero, V. Chernomordik, and A. Gandjbakhche. Experimental evaluation of an anisotropic scattering model of a slab geometry. Opt Lett. 29(21), 2518-20 (Nov 2004).
Morgan, N., S. English, W. Chen, V. Chernomordik, A. Russo, PD Smith, and A. Gandjbakhche. Real time in vivo non-invasive optical imaging using near-infrared fluorescent quantum dots. Acad Radiol. 12(3), 313-23 (Mar 2005).
Small, A., I. Ilev, V. Chernomordik, and A. Gandjbakhche. Enhancing diffraction-limited images using properties of the point spread function. Optics Express 14(8): 3193 (April 2006).
Sviridov, A., V. Chernomordik, M. Hassan, A. Russo, A. Eidsath, P. Smith, and A. Gandjbakhche. Intensity profiles of linearly polarized light backscattered from skin and tissue-like phantoms. J. Biomedical Optics 10(1), (Jan/Feb 2005).
Sviridov, A., V. Chernomordik, M. Hassan, A. Russo, P. Smith, and A. Gandjbakhche. Enhancement of hidden structures of early skin fibrosis using polarization degree patterns and Pearce correlation analysis. J. Biomed. Opt., 10(5):051706 (Sep-Oct 2005).
Sviridov, A.P., Z. Ulissi, V. Chernomordik, M. Hassan, and A.H. Gandjbakhche. Visualization of biological texture using correlation coefficient images. Journal of Biomedical Optics 11(6) (2006).
Vogel, A., A. Gandjbakhche, and I. Gannot. Demystifying Optical Diagnostics. J X-Ray Science and Technology, 14(1): 55-72 (April 2006).
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