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Journal Abstract Search

63 related items for PubMed ID: 10461462

  • 41. Exploratory multivariate spectroscopic study on human skin.
    Lauridsen RK, Everland H, Nielsen LF, Engelsen SB, Nørgaard L.
    Skin Res Technol; 2003 May; 9(2):137-46. PubMed ID: 12709132
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  • 42. Optimizing Excitation Light for Accurate Rapid Bacterial Species Identification with Autofluorescence.
    Mito D, Eda H, Okihara SI, Kurita M, Hatayama N, Yoshino Y, Watanabe Y, Ishii K.
    J Fluoresc; 2024 Jul; 34(4):1737-1745. PubMed ID: 37597134
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  • 43. Visualization of human heart conduction system by means of fluorescence spectroscopy.
    Venius J, Bagdonas S, Zurauskas E, Rotomskis R.
    J Biomed Opt; 2011 Oct; 16(10):107001. PubMed ID: 22029363
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  • 44. Optical processing of light-induced autofluorescence for characterization of tissue pathology.
    Qu J, Chang H, Xiong S.
    Opt Lett; 2001 Aug 15; 26(16):1268-70. PubMed ID: 18049582
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  • 45. Erratum to Smart optical probes for near-infrared fluorescence imaging of Alzheimer's disease pathology.
    Raymond SB, Skoch J, Hills ID, Nesterov EE, Swager TM, Bacskai BJ.
    Eur J Nucl Med Mol Imaging; 2008 May 15; 35(5):1032. PubMed ID: 28289876
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  • 46. Near-Infrared Optical Spectroscopy In Vivo Distinguishes Subjects with Alzheimer's Disease from Age-Matched Controls.
    Greco FA, McKee AC, Kowall NW, Hanlon EB.
    J Alzheimers Dis; 2021 May 15; 82(2):791-802. PubMed ID: 34092628
    [Abstract] [Full Text] [Related]

  • 47. Hyperspectral Raman imaging of neuritic plaques and neurofibrillary tangles in brain tissue from Alzheimer's disease patients.
    Michael R, Lenferink A, Vrensen GFJM, Gelpi E, Barraquer RI, Otto C.
    Sci Rep; 2017 Nov 15; 7(1):15603. PubMed ID: 29142266
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  • 48. HomER: a review of time-series analysis methods for near-infrared spectroscopy of the brain.
    Huppert TJ, Diamond SG, Franceschini MA, Boas DA.
    Appl Opt; 2009 Apr 01; 48(10):D280-98. PubMed ID: 19340120
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  • 51. Raman spectroscopy in combination with background near-infrared autofluorescence enhances the in vivo assessment of malignant tissues.
    Huang Z, Lui H, McLean DI, Korbelik M, Zeng H.
    Photochem Photobiol; 2005 Apr 01; 81(5):1219-26. PubMed ID: 15869327
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  • 54. Combining near-infrared-excited autofluorescence and Raman spectroscopy improves in vivo diagnosis of gastric cancer.
    Bergholt MS, Zheng W, Lin K, Ho KY, Teh M, Yeoh KG, So JB, Huang Z.
    Biosens Bioelectron; 2011 Jun 15; 26(10):4104-10. PubMed ID: 21550225
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  • 55. Near-infrared fluorescence spectroscopy detects Alzheimer's disease in vitro.
    Hanlon EB, Itzkan I, Dasari RR, Feld MS, Ferrante RJ, McKee AC, Lathi D, Kowall NW.
    Photochem Photobiol; 1999 Aug 15; 70(2):236-42. PubMed ID: 10461462
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  • 56. Raman spectroscopy in combination with background near-infrared autofluorescence enhances the in vivo assessment of malignant tissues.
    Huang Z, Lui H, McLean DI, Korbelik M, Zeng H.
    Photochem Photobiol; 2005 Aug 15; 81(5):1219-26. PubMed ID: 15869327
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