Analysis of double-tracer glucose kinetics in humans during oral glucose tolerance test

Karl Thomaseth; Amalia Gastaldelli; Alessandra Pavan; Rachele Berria; Leonard Glass; Ralph DeFronzo

Analysis of double-tracer glucose kinetics in humans during oral glucose tolerance test

Karl Thomaseth, Amalia Gastaldelli, Alessandra Pavan, Rachele Berria, Leonard Glass, Ralph DeFronzo

Department of Medicine

Resultado de la investigación: Conference contribution

Resumen

A mathematical model based on minimal physiological assumptions for describing simultaneously multiple glucose measurements during modified oral glucose tolerance test is presented. Parameter identification was carried out using a population approach, which allowed precise characterisation of average glucose kinetic parameters in the studied cohort, as well as between-subject variability associated with glucose tolerance state and other covariates. The statistical and computational complexity added with the formulation of non-linear hierarchical population kinetic models is compensated by improved robustness, over the traditional two-stage approach, in selecting the most adequate model structure/order at the individual level and the most significant determinants of glucose kinetics at the population level.

Idioma original	English (US)
Título de la publicación alojada	6th IFAC Symposium on Modeling and Control in Biomedical Systems, MCBMS 2006
Páginas	57-62
Número de páginas	6
Edición	PART 1
Estado	Published - dic 1 2006
Evento	6th IFAC Symposium on Modeling and Control in Biomedical Systems, MCBMS 2006 - Reims, France Duración: ago 20 2006 → ago 22 2006

Serie de la publicación

Nombre	IFAC Proceedings Volumes (IFAC-PapersOnline)
Número	PART 1
Volumen	6
ISSN (versión impresa)	1474-6670

Other

Other	6th IFAC Symposium on Modeling and Control in Biomedical Systems, MCBMS 2006
País/Territorio	France
Ciudad	Reims
Período	8/20/06 → 8/22/06

ASJC Scopus subject areas

Control and Systems Engineering

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Analysis of double-tracer glucose kinetics in humans during oral glucose tolerance test. / Thomaseth, Karl; Gastaldelli, Amalia; Pavan, Alessandra et al.
6th IFAC Symposium on Modeling and Control in Biomedical Systems, MCBMS 2006. PART 1. ed. 2006. p. 57-62 (IFAC Proceedings Volumes (IFAC-PapersOnline); Vol. 6, N.º PART 1).

Resultado de la investigación: Conference contribution

Thomaseth, K, Gastaldelli, A, Pavan, A, Berria, R, Glass, L & DeFronzo, R 2006, Analysis of double-tracer glucose kinetics in humans during oral glucose tolerance test. En 6th IFAC Symposium on Modeling and Control in Biomedical Systems, MCBMS 2006. PART 1 ed., IFAC Proceedings Volumes (IFAC-PapersOnline), n.º PART 1, vol. 6, pp. 57-62, 6th IFAC Symposium on Modeling and Control in Biomedical Systems, MCBMS 2006, Reims, France, 8/20/06.

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abstract = "A mathematical model based on minimal physiological assumptions for describing simultaneously multiple glucose measurements during modified oral glucose tolerance test is presented. Parameter identification was carried out using a population approach, which allowed precise characterisation of average glucose kinetic parameters in the studied cohort, as well as between-subject variability associated with glucose tolerance state and other covariates. The statistical and computational complexity added with the formulation of non-linear hierarchical population kinetic models is compensated by improved robustness, over the traditional two-stage approach, in selecting the most adequate model structure/order at the individual level and the most significant determinants of glucose kinetics at the population level.",

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AU - Gastaldelli, Amalia

AU - Pavan, Alessandra

AU - Berria, Rachele

AU - Glass, Leonard

AU - DeFronzo, Ralph

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AB - A mathematical model based on minimal physiological assumptions for describing simultaneously multiple glucose measurements during modified oral glucose tolerance test is presented. Parameter identification was carried out using a population approach, which allowed precise characterisation of average glucose kinetic parameters in the studied cohort, as well as between-subject variability associated with glucose tolerance state and other covariates. The statistical and computational complexity added with the formulation of non-linear hierarchical population kinetic models is compensated by improved robustness, over the traditional two-stage approach, in selecting the most adequate model structure/order at the individual level and the most significant determinants of glucose kinetics at the population level.

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KW - Medical applications

KW - Parameter identification

KW - Physiological models

KW - Reduced-order models

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Analysis of double-tracer glucose kinetics in humans during oral glucose tolerance test

Resumen

Serie de la publicación

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ASJC Scopus subject areas

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