References
Richards-Kortum R, Sevick-Muraca E. Quantitative optical spectroscopy for tissue diagnostics. Annu Rev Phys Chem 1996; 47: 555–606.
Wolfbeis OS. Fluorescence of organic natural products, in SG Schulman (ed.), Molecular Luminescence Spectroscopy. Volume 1. J. Wiley and Sons, New York, 1993: 167–370.
Bottiroli GA, Croce AC, Locatelli D, Marchesini R, Pignoli E, Tomatis S, Cuzzoni C, Dipalma S, Dalfante M, Spinelli P. Natural fluorescence of normal and neoplastic human colon: A comprehensive ex vivo study. Lasers Surg Med 1995; 16: 48–60.
Wagnieres GA, Star WM, Wilson BC. In vivo fluorescence spectroscopy and imaging for oncological applications. Photochemistry and Photobiology 1998; 68(5): 603–632.
Schweitzer D, Hammer M, Scibor M. Imaging spectrometry in ophthalmology - principle and applications in microcirculation and investigation of pigments. Ophthalmic Res 1996; 28(Suppl. 2): 37–44
Hammer M, Schweitzer D, Leistritz L, Scibor M, Donnerhacke KH, Strobel J. Imaging spectrometry of the human ocular fundus in vivo. Journal of Biomedical Optics 1997; 2(4): 418–425.
von Rückmann A, Fitzke FW, Bird AC. Distribution of fundus autofluorescence with a scanning laser ophthalmoscope. Br J Ophthalmol 1995; 79: 407–412.
Schweitzer D, Lang GE, Remsch H, Beuermann B, Hammer M, Thamm E, Spraul Ch W, Lang GK: Vergleich zwischen Patienten mit altersabhängiger Makulopathie, deren Kindern und Augengesunden durch Messung von Sauerstoffsättigung, Xanthophyll und natürlicher Fluoreszenz am Fundus. Der Ophthalmologe (In press).
Schweitzer D, Kolb A, Hammer M, Thamm E. Imaging spectrometry, 2-D static fluorometry, and 2-D time resolved fluorometry - a comparison of methods for the determination of the autofluorescence of the fundus. Investigative Ophthalmol Vis Sci 1999; 40(4): S 918.
Delori FC. Spectrometer for non-invasive measurement of intrinsic fluorescence and reflectance of the ocular fundus. Applied Optics 1994; 33(31): 7439–7452.
M. Köllner, J. Wolfrum. How many photons are necessary for fluorescence-lifetime measurements? Chemical Physics Letters 1992; 200(1, 2).
Cubeddu R, Taroni P, Hu DN, Sakai N, Nakanishi K, Roberts JE. Photophysical studies of A2E, putative precursor of lipofuscin, in human retinal pigment epithelial cells. Photochem Photobiol 1999; 70: 172–175.
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Schweitzer, D., Kolb, A., Hammer, M. et al. Basic investigations for 2-dimensional time-resolved fluorescence measurements at the fundus. Int Ophthalmol 23, 399–404 (2001). https://doi.org/10.1023/A:1014475219117
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DOI: https://doi.org/10.1023/A:1014475219117