Dynamic modeling of glucose metabolism for the assessment of type II diabetes mellitus

Diabetes mellitus is one of the deadliest diseases affecting millions of people worldwide. Due to ethical issues, physiological restrictions and high expenses of human experimentation, mathematical modeling is a popular alternative approach in obtaining reliable information on a disease in a safe an...

Full description

Bibliographic Details
Main Author: Vahidi, Omid
Language:English
Published: University of British Columbia 2013
Online Access:http://hdl.handle.net/2429/43995
id ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.2429-43995
record_format oai_dc
spelling ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.2429-439952014-03-26T03:39:30Z Dynamic modeling of glucose metabolism for the assessment of type II diabetes mellitus Vahidi, Omid Diabetes mellitus is one of the deadliest diseases affecting millions of people worldwide. Due to ethical issues, physiological restrictions and high expenses of human experimentation, mathematical modeling is a popular alternative approach in obtaining reliable information on a disease in a safe and cost effective way. In this thesis, I have developed and expanded a compartmental model of blood glucose regulation for type II diabetes mellitus based on a former detailed physiological model for healthy human subjects. The original model considers the interactions of glucose, insulin and glucagon on regulating the blood sugar. I have expanded the model by eliminating the main drawback of the original model which was its limitation on the route of glucose entrance to the body only to the intravenous glucose injection. I have added a model of glucose absorption in the gastrointestinal tract and incorporated the stimulatory hormonal effects of incretins on pancreatic insulin secretion followed by oral glucose intake. The parameters of the expanded model are estimated and the results of the model are validated using available clinical data sets taken from diabetic and healthy subjects. The estimation of model parameters is accomplished through solving nonlinear optimization problems. To obtain more information about the medical status of the subjects, I have designed some in silico tests based on the existing clinical tests, applied them to the model, and analyzed the model results. To accommodate model uncertainties and measurement noises, noise effects are included into the states and outputs of the model and a filtering method called particle filters is employed to estimate the hidden states of the model. The estimated model states are used to calculate the glucose metabolic rates which in turn provide more information about the medical condition of the patients. Another contribution of the type II diabetes model is developing a pharmacokinetic-pharmacodynamic model to study pharmaceutic impact of different medications on diabetes treatment. A preliminary study on metformin treatment on diabetic patients is performed using the developed type II diabetes model. 2013-03-04T15:32:40Z 2013-03-05T10:17:46Z 2013 2013-03-04 2013-05 Electronic Thesis or Dissertation http://hdl.handle.net/2429/43995 eng University of British Columbia
collection NDLTD
language English
sources NDLTD
description Diabetes mellitus is one of the deadliest diseases affecting millions of people worldwide. Due to ethical issues, physiological restrictions and high expenses of human experimentation, mathematical modeling is a popular alternative approach in obtaining reliable information on a disease in a safe and cost effective way. In this thesis, I have developed and expanded a compartmental model of blood glucose regulation for type II diabetes mellitus based on a former detailed physiological model for healthy human subjects. The original model considers the interactions of glucose, insulin and glucagon on regulating the blood sugar. I have expanded the model by eliminating the main drawback of the original model which was its limitation on the route of glucose entrance to the body only to the intravenous glucose injection. I have added a model of glucose absorption in the gastrointestinal tract and incorporated the stimulatory hormonal effects of incretins on pancreatic insulin secretion followed by oral glucose intake. The parameters of the expanded model are estimated and the results of the model are validated using available clinical data sets taken from diabetic and healthy subjects. The estimation of model parameters is accomplished through solving nonlinear optimization problems. To obtain more information about the medical status of the subjects, I have designed some in silico tests based on the existing clinical tests, applied them to the model, and analyzed the model results. To accommodate model uncertainties and measurement noises, noise effects are included into the states and outputs of the model and a filtering method called particle filters is employed to estimate the hidden states of the model. The estimated model states are used to calculate the glucose metabolic rates which in turn provide more information about the medical condition of the patients. Another contribution of the type II diabetes model is developing a pharmacokinetic-pharmacodynamic model to study pharmaceutic impact of different medications on diabetes treatment. A preliminary study on metformin treatment on diabetic patients is performed using the developed type II diabetes model.
author Vahidi, Omid
spellingShingle Vahidi, Omid
Dynamic modeling of glucose metabolism for the assessment of type II diabetes mellitus
author_facet Vahidi, Omid
author_sort Vahidi, Omid
title Dynamic modeling of glucose metabolism for the assessment of type II diabetes mellitus
title_short Dynamic modeling of glucose metabolism for the assessment of type II diabetes mellitus
title_full Dynamic modeling of glucose metabolism for the assessment of type II diabetes mellitus
title_fullStr Dynamic modeling of glucose metabolism for the assessment of type II diabetes mellitus
title_full_unstemmed Dynamic modeling of glucose metabolism for the assessment of type II diabetes mellitus
title_sort dynamic modeling of glucose metabolism for the assessment of type ii diabetes mellitus
publisher University of British Columbia
publishDate 2013
url http://hdl.handle.net/2429/43995
work_keys_str_mv AT vahidiomid dynamicmodelingofglucosemetabolismfortheassessmentoftypeiidiabetesmellitus
_version_ 1716656617366224896