Insulin secretion rates can be accurately estimated from plasma C-peptide levels with a two-compartment model for C-peptide distribution and degradation. In previous studies, the kinetic parameters of C-peptide clearance were derived in each subject from the decay curve observed after bolus intravenous injection of biosynthetic human C-peptide. To determine whether standard parameters for C-peptide clearance could be defined and used to calculate insulin secretion without obtaining a decay curve in each subject, we analyzed 200 decay curves of biosynthetic human C-peptide obtained in normal, obese, and non-insulindependent diabetes mellitus subjects studied in ourlaboratory. This analysis showed that the volume of distribution and kinetic parameters of C-peptide distribution and metabolism vary by <30% in a population highly heterogenous in terms of age, sex, degree of obesity, and degree of glucose tolerance. The volume of distribution correlated with the degree of obesity as quantified by body surface area (BSA). This dependence of C-peptide distribution volume on BSA was more marked in men than in women. The long half-life was slightly longer in elderly subjects than in younger adults. When effects of BSA, sex, and age were taken into account, the parameters of C-peptide kinetics were very similar in normal, obese, and diabetic subjects. Based on these findings, a simple procedure to derive standard parameters for C-peptide clearance taking into account degree of obesity, sex, and age was defined. These standard parameters resulted in estimations of mean insulin secretion rates, which differed in each subject by only 10-12% from those obtained with individual parameters. The approach of using standard ratherthan individual parameters did not systematically underestimate or overestimate insulin secretion so that group values for the fasting secretion rate, the mean 24-h secretion rate, and the number and the amplitude of secretory pulses obtained with standard parameters differed by only 1–2% from the values obtained with individual parameters. Furthermore, the accuracy of measurements based on standard parameters was not different from that associated with replicate determinations of the parameters of C-peptide clearance in the same subject. We conclude that it is possible to estimate insulin secretion rates from plasma C-peptide levels with standard parameters for C-peptide clearance rather than individually derived parameters without significant loss of accuracy.
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March 01 1992
Estimation of Insulin Secretion Rates from C-Peptide Levels: Comparison of Individual and Standard Kinetic Parameters for C-Peptide Clearance
Eve Van Cauter;
Eve Van Cauter
Department of Medicine, University of Chicago
Illinois
School of Medicine, Universite Libre de Bruxelles
Brussels, Belgium
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Fabienne Mestrez;
Fabienne Mestrez
Department of Medicine, University of Chicago
Illinois
School of Medicine, Universite Libre de Bruxelles
Brussels, Belgium
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Jeppe Sturis;
Jeppe Sturis
Department of Medicine, University of Chicago
Illinois
School of Medicine, Universite Libre de Bruxelles
Brussels, Belgium
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Kenneth S Polonsky
Kenneth S Polonsky
Department of Medicine, University of Chicago
Illinois
School of Medicine, Universite Libre de Bruxelles
Brussels, Belgium
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Address correspondence and reprint requests to Eve Van Cauter, PhD, Department of Medicine, Box 138, University of Chicago, 5841 South Maryland Avenue, Chicago, IL 60637.
Diabetes 1992;41(3):368–377
Article history
Received:
May 28 1991
Revision Received:
November 08 1991
Accepted:
November 08 1991
PubMed:
1551497
Citation
Eve Van Cauter, Fabienne Mestrez, Jeppe Sturis, Kenneth S Polonsky; Estimation of Insulin Secretion Rates from C-Peptide Levels: Comparison of Individual and Standard Kinetic Parameters for C-Peptide Clearance. Diabetes 1 March 1992; 41 (3): 368–377. https://doi.org/10.2337/diab.41.3.368
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