Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes

Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes

Glucose tolerance test (GTT) is standard diagnostic procedure that tests the efficiency of blood glucose-lowering hormones (insulin, incretins, leptin). Contrary, insulin tolerance test (ITT) is probing efficiency of blood glucose-rising hormones (glucagon, thyroxine, growth hormone, glucocorticoids...

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Main Authors: Marija Heffer, Vedrana Ivić, Rudolf Scitovski
Format: Article
Language:English
Published: Croatian Operational Research Society 2020-01-01
Series:Croatian Operational Research Review
Online Access:https://hrcak.srce.hr/file/349419
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spelling doaj-67b14f98e1284197af0a8e7fda6974562020-11-25T03:16:42ZengCroatian Operational Research SocietyCroatian Operational Research Review1848-02251848-99312020-01-0111112113310.17535/crorr.2020.0010240688Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetesMarija Heffer0Vedrana Ivić1Rudolf Scitovski2Faculty of Medicine, J. J. Strossmayer University of Osijek, Osijek, CroatiaFaculty of Medicine, J. J. Strossmayer University of Osijek, Osijek, CroatiaDepartment of Mathematics, J. J. Strossmayer University of Osijek, Osijek, CroatiaGlucose tolerance test (GTT) is standard diagnostic procedure that tests the efficiency of blood glucose-lowering hormones (insulin, incretins, leptin). Contrary, insulin tolerance test (ITT) is probing efficiency of blood glucose-rising hormones (glucagon, thyroxine, growth hormone, glucocorticoids, adrenalin, noradrenalin). These two hormone systems together maintain blood glucose levels in a narrow range. Various pathophysiological mechanisms give rise to a reversible condition - prediabetes which then progresses to an irreversible chronic disease - diabetes, both marked with deviation of blood glucose levels outside the set range. In diagnostic purpose, the patient is given glucose load, and blood glucose is measured right before and 2 hours after load. Measurements are more frequent after insulin injection (ITT) or if both tests are performed on experimental animals. In this paper we analyse the mathematical model for GTT and ITT. The obtained model function is an useful tool in describing the dynamics of blood glucose changes.https://hrcak.srce.hr/file/349419
collection DOAJ
language English
format Article
sources DOAJ
author Marija Heffer
Vedrana Ivić
Rudolf Scitovski
spellingShingle Marija Heffer
Vedrana Ivić
Rudolf Scitovski
Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes
Croatian Operational Research Review
author_facet Marija Heffer
Vedrana Ivić
Rudolf Scitovski
author_sort Marija Heffer
title Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes
title_short Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes
title_full Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes
title_fullStr Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes
title_full_unstemmed Parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes
title_sort parameter identification in the mathematical model of glucose and insulin tolerance test - the mathematical markers of diabetes
publisher Croatian Operational Research Society
series Croatian Operational Research Review
issn 1848-0225
1848-9931
publishDate 2020-01-01
description Glucose tolerance test (GTT) is standard diagnostic procedure that tests the efficiency of blood glucose-lowering hormones (insulin, incretins, leptin). Contrary, insulin tolerance test (ITT) is probing efficiency of blood glucose-rising hormones (glucagon, thyroxine, growth hormone, glucocorticoids, adrenalin, noradrenalin). These two hormone systems together maintain blood glucose levels in a narrow range. Various pathophysiological mechanisms give rise to a reversible condition - prediabetes which then progresses to an irreversible chronic disease - diabetes, both marked with deviation of blood glucose levels outside the set range. In diagnostic purpose, the patient is given glucose load, and blood glucose is measured right before and 2 hours after load. Measurements are more frequent after insulin injection (ITT) or if both tests are performed on experimental animals. In this paper we analyse the mathematical model for GTT and ITT. The obtained model function is an useful tool in describing the dynamics of blood glucose changes.
url https://hrcak.srce.hr/file/349419
work_keys_str_mv AT marijaheffer parameteridentificationinthemathematicalmodelofglucoseandinsulintolerancetestthemathematicalmarkersofdiabetes
AT vedranaivic parameteridentificationinthemathematicalmodelofglucoseandinsulintolerancetestthemathematicalmarkersofdiabetes
AT rudolfscitovski parameteridentificationinthemathematicalmodelofglucoseandinsulintolerancetestthemathematicalmarkersofdiabetes
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