Literature DB >> 17085492

Quantitative characterization of biological liquids for third-harmonic generation microscopy.

Delphine Débarre1, Emmanuel Beaurepaire.   

Abstract

Third-harmonic generation (THG) microscopy provides images of unstained biological samples based on spatial variations in third-order nonlinear susceptibility, refractive index, and dispersion. In this study, we establish quantitative values for the third-order nonlinear susceptibilities of several solvents (water, ethanol, glycerol), physiological aqueous (ions, amino acids, polypeptides, bovine serum albumin, glucose) and lipid (triglycerides, cholesterol) solutions as a function of solute concentration in the 1.05-1.25 microm excitation range. We use these data in conjunction with imaging experiments to show that THG imaging with approximately 1.2 microm excitation lacks specificity and sensitivity to detect physiological ion concentration changes, and that nonaqueous structures such as lipid bodies provide a more robust source of signal. Finally, we illustrate the impact of index-matching liquids in THG images. These data provide a basis for interpreting biological THG images and for developing additional applications.

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Year:  2006        PMID: 17085492      PMCID: PMC1751398          DOI: 10.1529/biophysj.106.094946

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  24 in total

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5.  Structure sensitivity in third-harmonic generation microscopy.

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Journal:  Opt Lett       Date:  2004-12-15       Impact factor: 3.776

7.  Multimodal nonlinear spectral microscopy based on a femtosecond Cr:forsterite laser.

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10.  Visualization of mitochondria in cardiomyocytes by simultaneous harmonic generation and fluorescence microscopy.

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  17 in total

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7.  Non-invasive monitoring of cell metabolism and lipid production in 3D engineered human adipose tissues using label-free multiphoton microscopy.

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8.  Combined third-harmonic generation and four-wave mixing microscopy of tissues and embryos.

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9.  Compact portable multiphoton microscopy reveals histopathological hallmarks of unprocessed lung tumor tissue in real time.

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