Analogue tracers and lumped constant in capillary beds
The lumped constant is a proportionality factor for converting a tracer analogue's metabolic rate to that of its mother substance. In a uniform system, it is expressed as the ratio of the tracer analogue's extraction fraction ( E ⁎) to the extraction fraction of its mother substance ( E)....
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Published in | Journal of theoretical biology Vol. 285; no. 1; pp. 177 - 181 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
England
Elsevier Ltd
21.09.2011
|
Subjects | |
Online Access | Get full text |
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Summary: | The lumped constant is a proportionality factor for converting a tracer analogue's metabolic rate to that of its mother substance. In a uniform system, it is expressed as the ratio of the tracer analogue's extraction fraction (
E
⁎) to the extraction fraction of its mother substance (
E).
Here we show that, in capillary beds perfused by unidirectional blood flow, unequal concentration gradients of the tracer analogue and of the mother substance influence extraction fractions both locally and across the organ and that the direct proportionality of
E
⁎ and
E must be replaced by ln(1−
E
⁎)/ln(1−
E) to yield
Λ, i.e. the lumped constant derived from first principles of bi-substrate enzyme and membrane kinetics. In other words, at a given capillary blood flow (
F), the ratio of systemic clearances (F
E
⁎/FE), often used in compartmental kinetic analysis, must be replaced by the ratio of the intrinsic clearances, [−
F ln(1−
E
⁎)]/[−
F ln(1−
E)].
The conclusion is supported by 2-[
18F]fluoro-2-deoxy-
d-galactose removal kinetics in pig liver
in vivo from previous publications by the dependence of
E
⁎/
E and the independence of
Λ, on blood galactose concentration. Moreover, our corrections to the results of compartmental kinetics are quantified for comparing extraction fractions in different regions of interest (e.g. by positron emission tomography) and for calculating
Λ using whole-organ
E
⁎ and
E measured by arteriovenous concentration differences.
► Lumped constant (LC) converts tracer clearance to clearance of its mother substance. ► LC is calculated from extraction fractions of tracer (
E
⁎) and mother substance (
E). ► Calculation of LC must take into account microvascular kinetics. ► Accordingly, LC is defined as ln(1−
E
⁎)/ln(1−
E) and not
E
⁎/
E. |
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Bibliography: | http://dx.doi.org/10.1016/j.jtbi.2011.06.034 |
ISSN: | 0022-5193 1095-8541 |
DOI: | 10.1016/j.jtbi.2011.06.034 |