The minimal model approach to estimating insulin sensitivity (SI) and glucose effectiveness in promoting its own disposition at basal insulin (SG) is a powerful tool that has been underutilized given its potential applications. In part, this has been due to its inability to separate insulin and glucose effects on peripheral uptake from their effects on hepatic glucose inflow. Prior enhancements, with radiotracer labeling of the dosage, permit this separation but are unsuitable for use in pregnancy and childhood. In this study, we labeled the intravenous glucose tolerance test (IVGTT) dosage with [6,6-2H2]glucose, [2-2H]glucose, or both stable isotopically labeled glucose tracers and modeled glucose kinetics in six postabsorptive, nonobese adults. As previously found with the radiotracer model, the tracer-estimated derived from the stable-label IVGTT was greater than SI in each case except one, and the tracer-estimated was less than SG in each instance. More importantly, however, the stable-label IVGTT estimated each parameter with an average precision of ± 5% (range 3–9%) compared to average precisions of ±74% (range 7–309%) for SGand ±22% (range 3–72%) for SI. In addition, because of the different metabolic fates of the two deuterated tracers, there were minor differences in basal insulin-derived measures of glucose effectiveness, but these differences were negligible for parameters describing insulin-stimulated processes. In conclusion, the stable-label IVGTT is a simple, highly precise means of assessing insulin sensitivity and glucose effectiveness at basal insulin that can be used to measure these parameters in individuals of all ages, including children and pregnant women.
Original Articles|
August 01 1989
Stable-Label Intravenous Glucose Tolerance Test Minimal Model
Angelo Avogaro;
Angelo Avogaro
Departments of Pediatrics and Medicine, Washington University School of Medicine, St. Louis
Missouri
Department of Electronics and Informatics, University of Padova, and Institute of System Dynamics and Bioengineering, National Research Council
Padova, Italy
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James D Bristow;
James D Bristow
Departments of Pediatrics and Medicine, Washington University School of Medicine, St. Louis
Missouri
Department of Electronics and Informatics, University of Padova, and Institute of System Dynamics and Bioengineering, National Research Council
Padova, Italy
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Dennis M Bier;
Dennis M Bier
Departments of Pediatrics and Medicine, Washington University School of Medicine, St. Louis
Missouri
Department of Electronics and Informatics, University of Padova, and Institute of System Dynamics and Bioengineering, National Research Council
Padova, Italy
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Claudio Cobelli;
Claudio Cobelli
Departments of Pediatrics and Medicine, Washington University School of Medicine, St. Louis
Missouri
Department of Electronics and Informatics, University of Padova, and Institute of System Dynamics and Bioengineering, National Research Council
Padova, Italy
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Gianna Toffolo
Gianna Toffolo
Departments of Pediatrics and Medicine, Washington University School of Medicine, St. Louis
Missouri
Department of Electronics and Informatics, University of Padova, and Institute of System Dynamics and Bioengineering, National Research Council
Padova, Italy
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Address correspondence and reprint requests to Dennis M. Bier, MD, Metabolism Division, Box 8127, Washington University School of Medicine, 660 South Euclid Avenue, St. Louis, MO 63110.
Diabetes 1989;38(8):1048–1055
Article history
Received:
May 17 1988
Revision Received:
February 23 1989
Accepted:
February 23 1989
PubMed:
2753235
Citation
Angelo Avogaro, James D Bristow, Dennis M Bier, Claudio Cobelli, Gianna Toffolo; Stable-Label Intravenous Glucose Tolerance Test Minimal Model. Diabetes 1 August 1989; 38 (8): 1048–1055. https://doi.org/10.2337/diab.38.8.1048
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