A novel description of FDG excretion in the renal system: application to metformin-treated models

This paper introduces a novel compartmental model describing the excretion of 18F-fluoro-deoxyglucose (FDG) in the renal system and a numerical method based on the maximum likelihood for its reduction. This approach accounts for variations in FDG concentration due to water re-absorption in renal tub...

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Published in	Magma (New York, N.Y.) Vol. 59; no. 10; pp. 2469 - 2484
Main Authors	Garbarino, S, Caviglia, G, Sambuceti, G, Benvenuto, F, Piana, M
Format	Journal Article
Language	English
Published	England IOP Publishing 21.05.2014 Springer Verlag
Subjects	Algorithms Animals compartmental models Computer Science FDG excretion Fluorodeoxyglucose F18 - metabolism Glucose - metabolism Image Processing Kidney - diagnostic imaging Kidney - drug effects Kidney - metabolism Likelihood Functions metformin Metformin - pharmacology Mice Models, Biological parameter identification Phosphorylation - drug effects Positron-Emission Tomography Radioactive Tracers Signal and Image Processing
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Abstract	This paper introduces a novel compartmental model describing the excretion of 18F-fluoro-deoxyglucose (FDG) in the renal system and a numerical method based on the maximum likelihood for its reduction. This approach accounts for variations in FDG concentration due to water re-absorption in renal tubules and the increase of the bladder's volume during the FDG excretion process. From the computational viewpoint, the reconstruction of the tracer kinetic parameters is obtained by solving the maximum likelihood problem iteratively, using a non-stationary, steepest descent approach that explicitly accounts for the Poisson nature of nuclear medicine data. The reliability of the method is validated against two sets of synthetic data realized according to realistic conditions. Finally we applied this model to describe FDG excretion in the case of animal models treated with metformin. In particular we show that our approach allows the quantitative estimation of the reduction of FDG de-phosphorylation induced by metformin.
AbstractList	This paper introduces a novel compartmental model describing the excretion of 18F-fluoro-deoxyglucose (FDG) in the renal system and a numerical method based on the maximum likelihood for its reduction. This approach accounts for variations in FDG concentration due to water re-absorption in renal tubules and the increase of the bladder's volume during the FDG excretion process. From the computational viewpoint, the reconstruction of the tracer kinetic parameters is obtained by solving the maximum likelihood problem iteratively, using a non-stationary, steepest descent approach that explicitly accounts for the Poisson nature of nuclear medicine data. The reliability of the method is validated against two sets of synthetic data realized according to realistic conditions. Finally we applied this model to describe FDG excretion in the case of animal models treated with metformin. In particular we show that our approach allows the quantitative estimation of the reduction of FDG de-phosphorylation induced by metformin.
Author	Garbarino, S Caviglia, G Piana, M Sambuceti, G Benvenuto, F
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SubjectTerms	Algorithms Animals compartmental models Computer Science FDG excretion Fluorodeoxyglucose F18 - metabolism Glucose - metabolism Image Processing Kidney - diagnostic imaging Kidney - drug effects Kidney - metabolism Likelihood Functions metformin Metformin - pharmacology Mice Models, Biological parameter identification Phosphorylation - drug effects Positron-Emission Tomography Radioactive Tracers Signal and Image Processing
Title	A novel description of FDG excretion in the renal system: application to metformin-treated models
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