Optical coherence tomography assessment of vessel wall degradation in aneurysmatic thoracic aortas

Eusebio Real; Alma Eguizabal; Alejandro Pontón; J. Fernando Val-Bernal; Marta Mayorga; José M. Revuelta; José M. López-Higuera; Olga M. Conde

Optical Coherence Tomography and Coherence Techniques VI
SPIE Proceedings (Optica Publishing Group, 2013),
paper 88020G

Optical coherence tomography assessment of vessel wall degradation in aneurysmatic thoracic aortas

Eusebio Real, Alma Eguizabal, Alejandro Pontón, J. Fernando Val-Bernal, Marta Mayorga, José M. Revuelta, José M. López-Higuera, and Olga M. Conde

European Conference on Biomedical Optics 2013

Munich Germany
12–16 May 2013
ISBN: 9780819496515

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Endoscopic and Intravascular OCT (EIOCT)

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E. Real, A. Eguizabal, A. Pontón, J. F. Val-Bernal, M. Mayorga, J. M. Revuelta, J. M. López-Higuera, and O. M. Conde, "Optical coherence tomography assessment of vessel wall degradation in aneurysmatic thoracic aortas," in Optical Coherence Tomography and Coherence Techniques VI, B. Bouma and R. Leitgeb, eds., Vol. 8802 of SPIE Proceedings (Optica Publishing Group, 2013), paper 88020G.

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Abstract

Optical coherence tomographic images of ascending thoracic human aortas from aneurysms exhibit disorders on the smooth muscle cell structure of the media layer of the aortic vessel as well as elastin degradation. Ex-vivo measurements of human samples provide results that correlate with pathologist diagnosis in aneurysmatic and control aortas. The observed disorders are studied as possible hallmarks for aneurysm diagnosis. To this end, the backscattering profile along the vessel thickness has been evaluated by fitting its decay against two different models, a third order polynomial fitting and an exponential fitting. The discontinuities present on the vessel wall on aneurysmatic aortas are slightly better identified with the exponential approach. Aneurysmatic aortic walls present uneven reflectivity decay when compared with healthy vessels. The fitting error has revealed as the most favorable indicator for aneurysm diagnosis as it provides a measure of how uniform is the decay along the vessel thickness.

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