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Proceedings Paper

Quantitative biochemical investigation of various neuropathologies using high-resolution spectral CARS microscopy
Author(s): Kelvin W. Poon; Craig Brideau; Geert J. Schenk; Roel Klaver; Antoine M. Klauser; Jean H. Kawasoe; Jeroen J. Geurts; Peter K. Stys
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Paper Abstract

The pathology of multiple sclerosis involves the gray and white matter regions of the brain and spinal cord often characterized by various combinations of demyelination, inflammatory infiltration, axonal degeneration, and later gliosis in chronic lesions. While acute and chronic white matter lesions are well characterized and easily identified, evidence indicates that the CNS of MS patients may be globally altered, with subtle abnormalities found in grossly normal appearing white matter (NAWM) with histochemical stains and magnetic resonance imaging only indicating a general alteration in tissue composition at best. Thus, the prototypical acute inflammatory lesion may merely represent the most obvious manifestation of a chronic widespread involvement of the CNS, which is difficult to examine reliably. The current study deals with the microstructure and biochemistry of demyelination, remyelination and axonal loss in various regions in post-mortem human MS brain, especially NAWM areas around more typical acute and chronic lesions. The myelin sheath, neuroglia and perivascular spaces were investigated through changes in the intrinsic molecular vibrational signatures of lipid biochemistry using a novel, label-free Coherent anti-Stokes Raman Scattering (CARS) microscope. The biochemistry of myelin lipids can be probed by detecting subtle changes to phospholipids and the intra-molecular disorder of their fatty acid acyl chains, various oxidation products and general protein contributions. NAWM regions surrounding pathological MS lesions were shown to reveal abnormalities despite morphological classifications indicating otherwise. CARS data were correlated with immunohistochemical stains and lipophilic dyes. Spectral data were analyzed using a unique non-linear algorithm, which allows quantification and classification through gated parameters and displayed through bivariate histograms. Our CARS microscopy system provides high-resolution, detailed morphological and unique biochemical information regarding CNS pathology in human MS examples and may be applicable to a broad range of other white matter centric neurological disorders.

Paper Details

Date Published: 10 March 2015
PDF: 9 pages
Proc. SPIE 9305, Optical Techniques in Neurosurgery, Neurophotonics, and Optogenetics II, 930504 (10 March 2015); doi: 10.1117/12.2076654
Show Author Affiliations
Kelvin W. Poon, Hotchkiss Brain Institute, Univ. of Calgary (Canada)
Craig Brideau, Hotchkiss Brain Institute, Univ. of Calgary (Canada)
Geert J. Schenk, Vrije Univ. Medical Ctr. (Netherlands)
Roel Klaver, Vrije Univ. Medical Ctr. (Netherlands)
Antoine M. Klauser, Univ. of Calgary (Canada)
Jean H. Kawasoe, Univ. of Calgary (Canada)
Jeroen J. Geurts, Vrije Univ. Medical Ctr. (Netherlands)
Peter K. Stys, Hotchkiss Brain Institute, Univ. of Calgary (Canada)


Published in SPIE Proceedings Vol. 9305:
Optical Techniques in Neurosurgery, Neurophotonics, and Optogenetics II
Henry Hirschberg; E. Duco Jansen; Samarendra K. Mohanty; Nitish V. Thakor; Qingming Luo; Steen J. Madsen, Editor(s)

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