Publikation: Diffusing-wave spectroscopy with dynamic contrast variation : disentangling the effects of blood flow and extravascular tissue shearing on signals from deep tissue
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We investigate the effects of blood flow and extravascular tissue shearing on diffusing-wave spectroscopy (DWS) signals from deep tissue, using an ex vivo porcine kidney model perfused artificially at controlled arterial pressure and flow. Temporal autocorrelation functions g(1)(τ) of the multiply scattered light field show a decay which is described by diffusion for constant flow, with a diffusion coefficient scaling linearly with volume flow rate. Replacing blood by a non-scattering fluid reveals a flow-independent background dynamics of the extravascular tissue. For a sinusoidally driven perfusion, field autocorrelation functions g(1)(τ, t′) depend on the phase t′ within the pulsation cycle and are approximately described by diffusion. The effective diffusion coefficient Deff(t′) is modulated at the driving frequency in the presence of blood, showing coupling with flow rate; in the absence of blood, Deff(t′) is modulated at twice the driving frequency, indicating shearing of extravascular tissue as the origin of the DWS signal. For both constant and pulsatile flow the contribution of extravascular tissue shearing to the DWS signal is small.
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NINCK, Markus, Markus UNTENBERGER, Thomas GISLER, 2010. Diffusing-wave spectroscopy with dynamic contrast variation : disentangling the effects of blood flow and extravascular tissue shearing on signals from deep tissue. In: Biomedical Optics Express. 2010, 1(5), pp. 1502-1513. ISSN 2156-7085. Available under: doi: 10.1364/BOE.1.001502BibTex
@article{Ninck2010Diffu-12489,
year={2010},
doi={10.1364/BOE.1.001502},
title={Diffusing-wave spectroscopy with dynamic contrast variation : disentangling the effects of blood flow and extravascular tissue shearing on signals from deep tissue},
number={5},
volume={1},
issn={2156-7085},
journal={Biomedical Optics Express},
pages={1502--1513},
author={Ninck, Markus and Untenberger, Markus and Gisler, Thomas}
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<dcterms:abstract xml:lang="eng">We investigate the effects of blood flow and extravascular tissue shearing on diffusing-wave spectroscopy (DWS) signals from deep tissue, using an ex vivo porcine kidney model perfused artificially at controlled arterial pressure and flow. Temporal autocorrelation functions g(1)(τ) of the multiply scattered light field show a decay which is described by diffusion for constant flow, with a diffusion coefficient scaling linearly with volume flow rate. Replacing blood by a non-scattering fluid reveals a flow-independent background dynamics of the extravascular tissue. For a sinusoidally driven perfusion, field autocorrelation functions g(1)(τ, t′) depend on the phase t′ within the pulsation cycle and are approximately described by diffusion. The effective diffusion coefficient Deff(t′) is modulated at the driving frequency in the presence of blood, showing coupling with flow rate; in the absence of blood, Deff(t′) is modulated at twice the driving frequency, indicating shearing of extravascular tissue as the origin of the DWS signal. For both constant and pulsatile flow the contribution of extravascular tissue shearing to the DWS signal is small.</dcterms:abstract>
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