Fluorescence Lifetime Based Corneal Metabolic Imaging
暂无分享,去创建一个
Ana Batista | Susana F. Silva | José Paulo Domingues | António Miguel Morgado | A. Batista | J. Domingues | S. Silva | A. M. Morgado
[1] Dietrich Schweitzer,et al. Ocular fundus auto-fluorescence observations at different wavelengths in patients with age-related macular degeneration and diabetic retinopathy , 2007, Graefe's Archive for Clinical and Experimental Ophthalmology.
[2] C. Cullander,et al. Assessment of cornea viability by confocal laser scanning microscopy and MTT assay. , 1997, Cornea.
[3] Jens Eickhoff,et al. In vivo multiphoton fluorescence lifetime imaging of protein-bound and free nicotinamide adenine dinucleotide in normal and precancerous epithelia. , 2007, Journal of biomedical optics.
[4] K. König,et al. Multiphoton Multispectral Fluorescence Lifetime Tomography for the Evaluation of Basal Cell Carcinomas , 2012, PloS one.
[5] H. Soyer,et al. Applications of multiphoton tomographs and femtosecond laser nanoprocessing microscopes in drug delivery research. , 2011, Advanced drug delivery reviews.
[6] N. Tamai,et al. Fluorescence lifetime standards for time and frequency domain fluorescence spectroscopy. , 2007, Analytical chemistry.
[7] Paola Taroni,et al. Time-gated imaging system for tumor diagnosis , 1993 .
[8] M. Patting. Evaluation of Time-Resolved Fluorescence Data: Typical Methods and Problems , 2008 .
[9] Jan Siegel,et al. A wide-field time-domain fluorescence lifetime imaging microscope with optical sectioning , 2002 .
[10] Irene Georgakoudi,et al. Optical imaging using endogenous contrast to assess metabolic state. , 2012, Annual review of biomedical engineering.
[11] N. Ramanujam,et al. In vivo multiphoton microscopy of NADH and FAD redox states, fluorescence lifetimes, and cellular morphology in precancerous epithelia , 2007, Proceedings of the National Academy of Sciences.
[12] J. Siegel,et al. Time‐domain whole‐field fluorescence lifetime imaging with optical sectioning , 2001, Journal of microscopy.
[13] A Kriete,et al. Ultraviolet confocal fluorescence microscopy of the in vitro cornea: redox metabolic imaging. , 1993, Applied optics.
[14] E. Gratton,et al. Fluorescence lifetime imaging for the two-photon microscope: time-domain and frequency-domain methods. , 2003, Journal of biomedical optics.
[15] D. Schweitzer,et al. In vivo measurement of time-resolved autofluorescence at the human fundus. , 2004, Journal of biomedical optics.
[16] W. Webb,et al. Three‐dimensionally resolved NAD(P)H cellular metabolic redox imaging of the in situ cornea with two‐photon excitation laser scanning microscopy , 1995, Journal of microscopy.
[17] B Chance,et al. Intrinsic fluorescence emission from the cornea at low temperatures: evidence of mitochondrial signals and their differing redox states in epithelial and endothelial sides. , 1978, Experimental eye research.
[18] K. Yoshihara,et al. Picosecond fluorescence lifetime of the coenzyme of D-amino acid oxidase. , 1980, The Journal of biological chemistry.
[19] J. Lakowicz,et al. Fluorescence lifetime imaging of free and protein-bound NADH. , 1992, Proceedings of the National Academy of Sciences of the United States of America.
[20] K. König,et al. Fluorescence lifetime imaging by time‐correlated single‐photon counting , 2004, Microscopy research and technique.
[21] Dietrich Schweitzer,et al. Basic investigations for 2-dimensional time-resolved fluorescence measurements at the fundus. , 2001 .
[22] Fu-Jen Kao,et al. Metabolism of HeLa cells revealed through autofluorescence lifetime upon infection with enterohemorrhagic Escherichia coli , 2012, Journal of biomedical optics.