Thoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease

Thoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease

Here we present a modular agent-based mathematical model of the human cardiovascular and renal systems. It integrates the previous models primarily developed by A. C. Guyton, F. Karaaslan, K. M. Hallow, and Y. V. Solodyannikov. We performed the model calibration to find an equilibrium state within t...

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Autores principales: Elena Kutumova, Ilya Kiselev, Ruslan Sharipov, Galina Lifshits, Fedor Kolpakov
Formato: article
Lenguaje:EN
Publicado: Frontiers Media S.A. 2021
Materias:
mathematical modeling
agent-based model
modular model
cardiovascular system
renal system
blood pressure regulation
Physiology
QP1-981
Acceso en línea:https://doaj.org/article/932ec238dd0f45d79f5c4262de1f5729
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spelling oai:doaj.org-article:932ec238dd0f45d79f5c4262de1f57292021-11-11T17:15:05ZThoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease1664-042X10.3389/fphys.2021.746300https://doaj.org/article/932ec238dd0f45d79f5c4262de1f57292021-11-01T00:00:00Zhttps://www.frontiersin.org/articles/10.3389/fphys.2021.746300/fullhttps://doaj.org/toc/1664-042XHere we present a modular agent-based mathematical model of the human cardiovascular and renal systems. It integrates the previous models primarily developed by A. C. Guyton, F. Karaaslan, K. M. Hallow, and Y. V. Solodyannikov. We performed the model calibration to find an equilibrium state within the normal vital sign ranges for a healthy adult. We verified the model’s abilities to reproduce equilibrium states with abnormal physiological values related to different combinations of cardiovascular diseases (such as systemic hypertension, chronic heart failure, pulmonary hypertension, etc.). For the model creation and validation, we involved over 200 scientific studies covering known models of the human cardiovascular and renal functions, biosimulation platforms, and clinical measurements of physiological quantities in normal and pathological conditions. We compiled detailed documentation describing all equations, parameters and variables of the model with justification of all formulas and values. The model is implemented in BioUML and available in the web-version of the software.Elena KutumovaElena KutumovaElena KutumovaIlya KiselevIlya KiselevIlya KiselevRuslan SharipovRuslan SharipovRuslan SharipovRuslan SharipovGalina LifshitsFedor KolpakovFedor KolpakovFedor KolpakovFrontiers Media S.A.articlemathematical modelingagent-based modelmodular modelcardiovascular systemrenal systemblood pressure regulationPhysiologyQP1-981ENFrontiers in Physiology, Vol 12 (2021)
institution DOAJ
collection DOAJ
language EN
topic mathematical modeling
agent-based model
modular model
cardiovascular system
renal system
blood pressure regulation
Physiology
QP1-981
spellingShingle mathematical modeling
agent-based model
modular model
cardiovascular system
renal system
blood pressure regulation
Physiology
QP1-981
Elena Kutumova
Elena Kutumova
Elena Kutumova
Ilya Kiselev
Ilya Kiselev
Ilya Kiselev
Ruslan Sharipov
Ruslan Sharipov
Ruslan Sharipov
Ruslan Sharipov
Galina Lifshits
Fedor Kolpakov
Fedor Kolpakov
Fedor Kolpakov
Thoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease
description Here we present a modular agent-based mathematical model of the human cardiovascular and renal systems. It integrates the previous models primarily developed by A. C. Guyton, F. Karaaslan, K. M. Hallow, and Y. V. Solodyannikov. We performed the model calibration to find an equilibrium state within the normal vital sign ranges for a healthy adult. We verified the model’s abilities to reproduce equilibrium states with abnormal physiological values related to different combinations of cardiovascular diseases (such as systemic hypertension, chronic heart failure, pulmonary hypertension, etc.). For the model creation and validation, we involved over 200 scientific studies covering known models of the human cardiovascular and renal functions, biosimulation platforms, and clinical measurements of physiological quantities in normal and pathological conditions. We compiled detailed documentation describing all equations, parameters and variables of the model with justification of all formulas and values. The model is implemented in BioUML and available in the web-version of the software.
format article
author Elena Kutumova
Elena Kutumova
Elena Kutumova
Ilya Kiselev
Ilya Kiselev
Ilya Kiselev
Ruslan Sharipov
Ruslan Sharipov
Ruslan Sharipov
Ruslan Sharipov
Galina Lifshits
Fedor Kolpakov
Fedor Kolpakov
Fedor Kolpakov
author_facet Elena Kutumova
Elena Kutumova
Elena Kutumova
Ilya Kiselev
Ilya Kiselev
Ilya Kiselev
Ruslan Sharipov
Ruslan Sharipov
Ruslan Sharipov
Ruslan Sharipov
Galina Lifshits
Fedor Kolpakov
Fedor Kolpakov
Fedor Kolpakov
author_sort Elena Kutumova
title Thoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease
title_short Thoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease
title_full Thoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease
title_fullStr Thoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease
title_full_unstemmed Thoroughly Calibrated Modular Agent-Based Model of the Human Cardiovascular and Renal Systems for Blood Pressure Regulation in Health and Disease
title_sort thoroughly calibrated modular agent-based model of the human cardiovascular and renal systems for blood pressure regulation in health and disease
publisher Frontiers Media S.A.
publishDate 2021
url https://doaj.org/article/932ec238dd0f45d79f5c4262de1f5729
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