Hepatic glucose production estimated by tracer model and deconvolution: Role of endogenous glucose concentration

Antonio Zerman; Claudio Cobelli; Andrea Caumo; Peter Butler; Robert Rizza

Hepatic glucose production estimated by tracer model and deconvolution: Role of endogenous glucose concentration

Antonio Zerman, Claudio Cobelli, Andrea Caumo, Peter Butler, Robert Rizza

Endocrinology, Diabetes, Metabolism, and Nutrition

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The authors propose a novel, general approach to study the transition from the basal to an euglycemic, hyperinsulinemic state during a dual tracer experiment performed in humans. The approach is based on a physiological model of the glucose-insulin system and deconvolution. The use in the deconvolution algorithm of the calculated endogenous glucose concentration, instead of the measured total glucose concentration, is suggested.

Original language	English (US)
Title of host publication	Proceedings of the Annual Conference on Engineering in Medicine and Biology
Publisher	Publ by IEEE
Pages	2289-2290
Number of pages	2
Edition	pt 5
ISBN (Print)	0780302168
State	Published - Dec 1 1991
Event	Proceedings of the 13th Annual International Conference of the IEEE Engineering in Medicine and Biology Society - Orlando, FL, USA Duration: Oct 31 1991 → Nov 3 1991

Publication series

Name	Proceedings of the Annual Conference on Engineering in Medicine and Biology
Number	pt 5
Volume	13
ISSN (Print)	0589-1019

Other

Other	Proceedings of the 13th Annual International Conference of the IEEE Engineering in Medicine and Biology Society
City	Orlando, FL, USA
Period	10/31/91 → 11/3/91

ASJC Scopus subject areas

Signal Processing
Biomedical Engineering
Computer Vision and Pattern Recognition
Health Informatics

Cite this

Zerman, A., Cobelli, C., Caumo, A., Butler, P., & Rizza, R. (1991). Hepatic glucose production estimated by tracer model and deconvolution: Role of endogenous glucose concentration. In Proceedings of the Annual Conference on Engineering in Medicine and Biology (pt 5 ed., pp. 2289-2290). (Proceedings of the Annual Conference on Engineering in Medicine and Biology; Vol. 13, No. pt 5). Publ by IEEE.

Hepatic glucose production estimated by tracer model and deconvolution: Role of endogenous glucose concentration. / Zerman, Antonio; Cobelli, Claudio; Caumo, Andrea et al.
Proceedings of the Annual Conference on Engineering in Medicine and Biology. pt 5. ed. Publ by IEEE, 1991. p. 2289-2290 (Proceedings of the Annual Conference on Engineering in Medicine and Biology; Vol. 13, No. pt 5).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Zerman, A, Cobelli, C, Caumo, A, Butler, P & Rizza, R 1991, Hepatic glucose production estimated by tracer model and deconvolution: Role of endogenous glucose concentration. in Proceedings of the Annual Conference on Engineering in Medicine and Biology. pt 5 edn, Proceedings of the Annual Conference on Engineering in Medicine and Biology, no. pt 5, vol. 13, Publ by IEEE, pp. 2289-2290, Proceedings of the 13th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Orlando, FL, USA, 10/31/91.

Zerman A, Cobelli C, Caumo A, Butler P, Rizza R. Hepatic glucose production estimated by tracer model and deconvolution: Role of endogenous glucose concentration. In Proceedings of the Annual Conference on Engineering in Medicine and Biology. pt 5 ed. Publ by IEEE. 1991. p. 2289-2290. (Proceedings of the Annual Conference on Engineering in Medicine and Biology; pt 5).

Zerman, Antonio ; Cobelli, Claudio ; Caumo, Andrea et al. / Hepatic glucose production estimated by tracer model and deconvolution : Role of endogenous glucose concentration. Proceedings of the Annual Conference on Engineering in Medicine and Biology. pt 5. ed. Publ by IEEE, 1991. pp. 2289-2290 (Proceedings of the Annual Conference on Engineering in Medicine and Biology; pt 5).

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Hepatic glucose production estimated by tracer model and deconvolution: Role of endogenous glucose concentration

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