Analytical solutions for time-resolved fluorescence lifetime imaging in a turbid medium such as tissue

David Hattery; Victor Chernomordik; Murray Loew; Israel Gannot; Amir Gandjbakhche

doi:10.1364/JOSAA.18.001523

Analytical solutions for time-resolved fluorescence lifetime imaging in a turbid medium such as tissue

David Hattery^*, Victor Chernomordik, Murray Loew, Israel Gannot, Amir Gandjbakhche

^*Corresponding author for this work

Department of Bio-Medical Engineering

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

40 Scopus citations

Abstract

An analytical solution is developed to quantify a site-specific fluorophore lifetime perturbation that occurs, for example, when the local metabolic status is different from that of surrounding tissue. This solution may be used when fluorophores are distributed throughout a highly turbid media and the site of interest is embedded many mean scattering distances from the source and the detector. The perturbation in lifetime is differentiated from photon transit delays by random walk theory. This analytical solution requires a priori knowledge of the tissue-scattering and absorption properties at the excitation and emission wavelengths that may be obtained from concurrent time-resolved reflection measurements. Additionally, the solution has been compared with the exact, numerically solved solution. Thus the presented solution forms the basis for practical lifetime imaging in turbid media such as tissue.

Original language	English
Pages (from-to)	1523-1530
Number of pages	8
Journal	Journal of the Optical Society of America A: Optics and Image Science, and Vision
Volume	18
Issue number	7
DOIs	https://doi.org/10.1364/JOSAA.18.001523
State	Published - Jul 2001

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abstract = "An analytical solution is developed to quantify a site-specific fluorophore lifetime perturbation that occurs, for example, when the local metabolic status is different from that of surrounding tissue. This solution may be used when fluorophores are distributed throughout a highly turbid media and the site of interest is embedded many mean scattering distances from the source and the detector. The perturbation in lifetime is differentiated from photon transit delays by random walk theory. This analytical solution requires a priori knowledge of the tissue-scattering and absorption properties at the excitation and emission wavelengths that may be obtained from concurrent time-resolved reflection measurements. Additionally, the solution has been compared with the exact, numerically solved solution. Thus the presented solution forms the basis for practical lifetime imaging in turbid media such as tissue.",

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AU - Chernomordik, Victor

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AU - Gannot, Israel

AU - Gandjbakhche, Amir

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AB - An analytical solution is developed to quantify a site-specific fluorophore lifetime perturbation that occurs, for example, when the local metabolic status is different from that of surrounding tissue. This solution may be used when fluorophores are distributed throughout a highly turbid media and the site of interest is embedded many mean scattering distances from the source and the detector. The perturbation in lifetime is differentiated from photon transit delays by random walk theory. This analytical solution requires a priori knowledge of the tissue-scattering and absorption properties at the excitation and emission wavelengths that may be obtained from concurrent time-resolved reflection measurements. Additionally, the solution has been compared with the exact, numerically solved solution. Thus the presented solution forms the basis for practical lifetime imaging in turbid media such as tissue.

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Analytical solutions for time-resolved fluorescence lifetime imaging in a turbid medium such as tissue

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