SEARCH

SEARCH BY CITATION

LITERATURE CITED

  • 1
    Stelzer EHK. Contrast, resolution, pixelation, dynamic range and signal-to-noise ratio: Fundamental limits to resolution in fluorescence light microscopy. J Microsc 1997; 189: 1524.
  • 2
    Newton I. Opticks (1704). Mineola: Dover; 1987.
  • 3
    Voltaire F-MA. Éléments de la philosophie de Newton; 1738.
  • 4
    Bohr N. On the constitution of atoms and molecules. Philos Mag 1913; 26: 125,476–502,857–875.
  • 5
    Schrödinger E. An undulatory theory of the mechanics of atoms and molecules. Phys Rev 1926; 28: 10491070.
  • 6
    Stuart BH. Infrared Spectroscopy: Fundamentals and Applications. AndoDJ, editor. Chichester: Wiley; 2004.
  • 7
    Smith E, Dent G. Modern Raman Spectroscopy, a Practical Approach. Chichester: Wiley; 2005.
  • 8
    Wyatt CL. Infrared spectrometer: Liquid-helium-cooled rocketborne circular-variable filter. Appl Opt 1975; 14: 30863091.
  • 9
    Miller PJ. Use of tunable liquid crystal filters to link radiometric and photometric standards. Metrologia 1991; 28: 145149.
  • 10
    Shonat R, Wachman E, Niu W, Koretsky A, Farkas D. Near-simultaneous hemoglobin saturation and oxygen tension maps in mouse brain using an AOTF microscope. Biophys J 1997; 73: 12231231.
  • 11
    Gao X, Cui Y, Levenson RM, Chung LWK, Nie S. In vivo cancer targeting and imaging with semiconductor quantum dots. Nat Biotechnol 2004; 22: 969976.
  • 12
    Gat N. Imaging spectroscopy using tunable filters: A review. Proc SPIE 2000; 4056: 5064.
  • 13
    Sinclair MB, Timlin JA, Haaland DM, Werner-Washburne M. Design construction characterization and application of a hyperspectral microarray scanner. Appl Opt 2004; 43: 20792088.
  • 14
    Dickinson ME, Bearman G, Tille S, Lansford R, Fraser SE. Multi-spectral imaging and linear unmixing add a whole new dimension to laser scanning fluorescence microscopy. Biotechniques 2001; 31: 12721278.
  • 15
    Garini Y, Macville M, du Manoir S, Buckwald RA, Lavi M, Katzir N, Wine D, Bar-Am I, Schröck E, Cabib D, Ried T. Spectral karyotyping. Bioimaging 1996; 4: 6572.
  • 16
    Malik Z, Cabib D, Buckwald RA, Talmi A, Garini Y, Lipson SG. Fourier transform multi-pixel spectroscopy for quantitative cytology. J Microsc 1996; 182: 133140.
  • 17
    Hanley QS, Verveer PJ, Arndt-Jovin DJ, Jovin TM. Three-dimensional spectral imaging by Hadamard transform spectroscopy in a programmable array microscope. J Microsc 2000; 197: 514.
  • 18
    Zimmermann T, Rietdorf J, Pepperkok R. Spectral imaging and its applications in live cell microscopy. FEBS Lett 2003; 546: 8792.
  • 19
    George TC, Basiji DA, Hall BE, Lynch DH, Ortyn WE, Perry DJ, Seo MJ, Zimmerman CA, Morrissey PJ. Distinguishing modes of cell death using the imagestream multispectral imaging flow cytometer. Cytometry A 2004; 59A: 237245.
  • 20
    Descour MR, Volin CE, Dereniak EL, Gleeson TM, Hopkins MF, Wilson DW, Maker PD. Demonstration of a computed-tomography imaging spectrometer using a computer-generated hologram disperser. Appl Opt 1997; 36: 36943698.
  • 21
    Dickinson ME, Simbuerger E, Waters CW, Fraser SE. Multiphoton excitation spectra in biological samples. J Biomed Opt 2003; 8: 329338.
  • 22
    Zipfel WR, Williams RM, Webb WW. Nonlinear magic: Multiphoton microscopy in the biosciences. Nat Biotechnol 2003; 21: 13691377.
  • 23
    Zimmer J, Knipp D, Stiebig H, Wagner H. Amorphous silicon-based unipolar detector for color recognition. IEEE Trans Electron devices 1999; 46: 884891.
  • 24
    Garini Y, Gil A, Bar-Am I, Cabib D, Katzir N. Signal to noise analysis of multiple color fluorescence imaging microscopy. Cytometry 1999; 35: 214226.
  • 25
    Neher R, Neher E. Optimizing imaging parameters for the separation of multiple labels in a fluorescence image. J Microsc 2004; 213: 4662.
  • 26
    Garini Y, Katzir N, Cabib D, Buckwald RA, Soenksen DG, Malik Z. Spectral bio-imaging. In: WangXF, HermanB, editors. Fluorescence Imaging Spectroscopy and Microscopy ( Chemical Analysis Series). New York: Wiley; 1996. pp 87124.
  • 27
    Young IT, Gerbrands JJ, van Vliet LJ. Image processing fundamentals. In: WilliamsDB, MadisettiVK, editors. The Digital Signal Processing Handbook, 1st ed. Boca Raton: CRC; 1998. pp 51.151.81.
  • 28
    Schwartzkopf WC, Bovik AC, Evans BL. Maximum-likelihood techniques for joint segmentation-classification of multispectral chromosome images. IEEE Trans Med Imaging 2005; 24: 15931610.
  • 29
    Zimmermann T. Spectral imaging and linear unmixing in light microscopy. Adv Biochem Eng Biotechnol 2005; 95: 245265.
  • 30
    Mansfield JR, Gossage KW, Hoyt CC, Levenson RM. Autofluorescence removal multiplexing and automated analysis methods for in-vivo fluorescence imaging. J Biomed Opt 2005; 10: 41207.
  • 31
    Jares-Erijman EA, Jovin TM. FRET imaging. Nat Biotechnol 2003; 21: 13871395.
  • 32
    Lawson CL, Hanson RJ. Solving Least Squares Problems. Englewood Cliffs, NJ: Prentice-Hall; 1974.
  • 33
    Lakowicz JR. Principles of Fluorescence Spectroscopy. New York: Plenum Press; 1986. 496 p.
  • 34
    Zhou R, Hammond EH, Parker DL. A multiple wavelength algorithm in color image analysis and its applications in stain decomposition in microscopy images. Med Phys 1996; 23: 19771986.
  • 35
    Ornberg RL, Woerner BM, Edwards DA. Analysis of stained objects in histological sections by spectral imaging and differential absorption. J Histochem Cytochem 1999; 47: 13071314.
  • 36
    Macville MV, Van Der Laak JA, Speel EJ, Katzir N, Garini Y, Soenksen D, McNamara G, de Wilde PC, Hanselaar AG, Hopman AH, Ried T. Spectral imaging of multi-color chromogenic dyes in pathological specimens. Anal Cell Pathol 2001; 22: 133142.
  • 37
    Jolliffe IT. Principle Component Analysis. New York: Springer-Verlag; 2002.
  • 38
    Schröck E, du Manoir S, Veldman T, Schoell B, Wienberg J, Ferguson-Smith MA, Ning Y, Ledbetter DH, Bar-Am I, Soenksen D, Garini Y, Ried T. Multicolor spectral karyotyping of human chromosomes. Science 1996; 273: 494497.
  • 39
    Schrock E, Padilla-Nash H. Spectral karyotyping and multicolor fluorescence in situ hybridization reveal new tumor-specific chromosomal aberrations. Semin Hematol 2000; 37: 334347.
  • 40
    Speicher MR, Gwyn Ballard S, Ward DC. Karyotyping human chromosomes by combinatorial multi-fluor FISH. Nat Genet 1996; 12: 368375.
  • 41
    Tanke HJ, Wiegant J, van Gijlswijk RP, Bezrookove V, Pattenier H, Heetebrij RJ, Talman EG, Raap AK, Vrolijk J. New strategy for multi-colour fluorescence in situ hybridisation: COBRA (COmbined Binary RAtio labelling). Eur J Hum Genet 1999; 7: 211.
  • 42
    Tsurui H, Nishimura H, Hattori S, Hirose S, Okumura K, Shirai T. Seven-color fluorescence imaging of tissue samples based on Fourier spectroscopy and singular value decomposition. J Histochem Cytochem 2000; 48: 653662.
  • 43
    Pautke C, Vogt S, Tischer T, Wexel G, Deppe H, Milz S, Schieker M, Kolk A. Polychrome labeling of bone with seven different fluorochromes: Enhancing fluorochrome discrimination by spectral image analysis. Bone 2005; 37: 441445.
  • 44
    Ecker RC, de Martin R, Steiner GE, Schmid JA. Application of spectral imaging microscopy in cytomics and fluorescence resonance energy transfer (FRET) analysis. Cytometry A 2004; 59A: 172181.
  • 45
    Mittag A, Lenz D, Gerstner AOH, Sack U, Steinbrecher M, Koksch M, Raffael A, Bocsi J, Tárnok A. Polychromatic (eight-color) slide-based cytometry for the phenotyping of leukocyte NK and NKT subsets. Cytometry A 2005; 65A: 103115.
  • 46
    Zimmermann T, Rietdorf J, Girod A, Georget V, Pepperkok R. Spectral imaging and linear un-mixing enables improved FRET efficiency with a novel GFP2-YFP FRET pair. FEBS Lett 2002; 531: 245249.