Conventional histopathology with hematoxylin & eosin (H&E) has been the gold standard for histopathological diagnosis of a wide range of diseases. However, it is not performed in vivo and requires thin tissue sections obtained after tissue biopsy, which carries risk, particularly in the central nervous system. Here we describe the development of an alternative, multicolored way to visualize tissue in real-time through the use of coherent Raman imaging (CRI), without the use of dyes. CRI relies on intrinsic chemical contrast based on vibrational properties of molecules and intrinsic optical sectioning by nonlinear excitation. We demonstrate that multicolor images originating from CH2 and CH3 vibrations of lipids and protein, as well as two-photon absorption of hemoglobin, can be obtained with subcellular resolution from fresh tissue. These stain-free histopathological images show resolutions similar to those obtained by conventional techniques, but do not require tissue fixation, sectioning or staining of the tissue analyzed. Laboratory Investigation
Multicolored stain-free histopathology with coherent Raman imaging / C.W. Freudiger, R. Pfannl, D.A. Orringer, B.G. Saar, M. Ji, Q. Zeng, L. Ottoboni, Y. Wei, C. Waeber, J.R. Sims, P.L. De Jager, O. Sagher, M.A. Philbert, X. Xu, S. Kesari, X.S. Xie, G.S. Young. - In: LABORATORY INVESTIGATION. - ISSN 1530-0307. - 92:10(2012 Oct), pp. 1492-1502. [10.1038/labinvest.2012.109]
Multicolored stain-free histopathology with coherent Raman imaging
L. Ottoboni;
2012
Abstract
Conventional histopathology with hematoxylin & eosin (H&E) has been the gold standard for histopathological diagnosis of a wide range of diseases. However, it is not performed in vivo and requires thin tissue sections obtained after tissue biopsy, which carries risk, particularly in the central nervous system. Here we describe the development of an alternative, multicolored way to visualize tissue in real-time through the use of coherent Raman imaging (CRI), without the use of dyes. CRI relies on intrinsic chemical contrast based on vibrational properties of molecules and intrinsic optical sectioning by nonlinear excitation. We demonstrate that multicolor images originating from CH2 and CH3 vibrations of lipids and protein, as well as two-photon absorption of hemoglobin, can be obtained with subcellular resolution from fresh tissue. These stain-free histopathological images show resolutions similar to those obtained by conventional techniques, but do not require tissue fixation, sectioning or staining of the tissue analyzed. Laboratory Investigation
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