Functional Molecular Imaging In Hepatology

The eBook discusses how the special physiology of the liver must be considered when applying functional molecular imaging in hepatology. The main topics of the eBook include the clinical and ...
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Calculating the Metabolic Clearance of a Mother Substance from the Clearance of its Analogue Tracer Measured by PET

Pp. 32-36 (5)

Ludvik Bass, Michael Sørensen, Ole Lajord Munk and Susanne Keiding

Abstract

PET is a powerful technique for measuring the regional metabolism of radiolabelled tracers in vivo, but the question remains how to convert the clearance of an analogue tracer measured by PET to the clearance of its mother substance, e.g., for [18F]fluoro-2-deoxy-D-glucose (18F-FDG) and glucose. The ratio between the extraction fraction of the tracer (E*) and that of the mother substance (E), as measured by arteriovenous concentrations across the organ, is often used as a proportionality factor for converting the PET-determined clearance of tracer to the clearance of the mother substance. However, this approach is founded in compartmental modelling which assumes a well-mixed concentration in the vascular compartment equal to the inlet (arterial) blood concentration. For the in vivo situation with perfused capillaries (for the liver, sinusoids), the removal of substrate from the blood by the cells creates concentration gradients in the capillary/sinusoid. We recently derived and validated that the lumped constant (Λ) equals ln(1–E*)/ln(1– E), being a correct in vivo proportionality factor in capillary beds for the removal of tracer and mother substance in the cells. This relationship is independent of the concentration of the mother substance, whereas E*/E may vary with the concentration of the mother substance.

Keywords:

Tracer kinetics; Lumped constant; Bi-substrate enzyme kinetics; Sinusoidal microcirculation; Intrinsic clearance; Positron emission tomography; 18F-FDG; 18F-FDGal.

Affiliation:

Department of Mathematics, University of Queensland, Brisbane, Australia