Estimation of optoacoustic contrast agent concentration with self-calibration blind logarithmic unmixing

X. Luís Deán-Ben; Andreas Buehler; Daniel Razansky; Vasilis Ntziachristos

doi:10.1088/0031-9155/59/17/4785

Estimation of optoacoustic contrast agent concentration with self-calibration blind logarithmic unmixing

X. Luís Deán-Ben, Andreas Buehler, Daniel Razansky, Vasilis Ntziachristos

Assistant Professorship of Molecular Imaging Engineering (2012 — 2023)

Helmholtz Zentrum München German Research Center for Environmental Health

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Chromophore quantification in optoacoustic tomography is challenging due to signal contributions from strongly absorbing background tissue chromophores and the depth-dependent light attenuation. Herein we present a procedure capable of correcting for wavelength-dependent light fluence variations using a logarithmic representation of the images taken at different wavelengths assisted with a blind unmixing approach. It is shown that the serial expansion of the logarithm of an optoacoustic image contains a term representing the ratio between absorption of the probe of interest and other background components. Under assumptions of tissue-like background absorption variations, this term can be readily isolated with an unmixing algorithm, attaining quantitative maps of photo-absorbing agent distribution.

Original language	English
Pages (from-to)	4785-4797
Number of pages	13
Journal	Physics in Medicine and Biology
Volume	59
Issue number	17
DOIs	https://doi.org/10.1088/0031-9155/59/17/4785
State	Published - 7 Sep 2014

Keywords

multispectral unmixing
optoacoustic probes
optoacoustic tomography
quantitative imaging

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10.1088/0031-9155/59/17/4785

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title = "Estimation of optoacoustic contrast agent concentration with self-calibration blind logarithmic unmixing",

abstract = "Chromophore quantification in optoacoustic tomography is challenging due to signal contributions from strongly absorbing background tissue chromophores and the depth-dependent light attenuation. Herein we present a procedure capable of correcting for wavelength-dependent light fluence variations using a logarithmic representation of the images taken at different wavelengths assisted with a blind unmixing approach. It is shown that the serial expansion of the logarithm of an optoacoustic image contains a term representing the ratio between absorption of the probe of interest and other background components. Under assumptions of tissue-like background absorption variations, this term can be readily isolated with an unmixing algorithm, attaining quantitative maps of photo-absorbing agent distribution.",

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AU - Buehler, Andreas

AU - Razansky, Daniel

AU - Ntziachristos, Vasilis

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N2 - Chromophore quantification in optoacoustic tomography is challenging due to signal contributions from strongly absorbing background tissue chromophores and the depth-dependent light attenuation. Herein we present a procedure capable of correcting for wavelength-dependent light fluence variations using a logarithmic representation of the images taken at different wavelengths assisted with a blind unmixing approach. It is shown that the serial expansion of the logarithm of an optoacoustic image contains a term representing the ratio between absorption of the probe of interest and other background components. Under assumptions of tissue-like background absorption variations, this term can be readily isolated with an unmixing algorithm, attaining quantitative maps of photo-absorbing agent distribution.

AB - Chromophore quantification in optoacoustic tomography is challenging due to signal contributions from strongly absorbing background tissue chromophores and the depth-dependent light attenuation. Herein we present a procedure capable of correcting for wavelength-dependent light fluence variations using a logarithmic representation of the images taken at different wavelengths assisted with a blind unmixing approach. It is shown that the serial expansion of the logarithm of an optoacoustic image contains a term representing the ratio between absorption of the probe of interest and other background components. Under assumptions of tissue-like background absorption variations, this term can be readily isolated with an unmixing algorithm, attaining quantitative maps of photo-absorbing agent distribution.

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KW - optoacoustic probes

KW - optoacoustic tomography

KW - quantitative imaging

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Estimation of optoacoustic contrast agent concentration with self-calibration blind logarithmic unmixing

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