Article | Proceedings of the 10<sup>th</sup> International Modelica Conference; March 10-12; 2014; Lund; Sweden | Physiolibrary - Modelica library for Physiology Linköping University Electronic Press Conference Proceedings
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Title:
Physiolibrary - Modelica library for Physiology
Author:
Marek Mateják: Institute of Pathological Physiology, 1st Faculty of Medicine, Charles University in Prague, Prague, Czech Republic Tomáš Kulhánek: Institute of Pathological Physiology, 1st Faculty of Medicine, Charles University in Prague, Prague, Czech Republic Jan Šilar: Institute of Pathological Physiology, 1st Faculty of Medicine, Charles University in Prague, Prague, Czech Republic Pavol Privitzer: Institute of Pathological Physiology, 1st Faculty of Medicine, Charles University in Prague, Prague, Czech Republic Filip Ježek: Department of Cybernetics, Faculty of Electrical Engineering, Czech Technical University in Prague, Prague, Czech Republic Jiří Kofránek: Institute of Pathological Physiology, 1st Faculty of Medicine, Charles University in Prague, Prague, Czech Republic
DOI:
10.3384/ecp14096499
Download:
Full text (pdf)
Year:
2014
Conference:
Proceedings of the 10th International Modelica Conference; March 10-12; 2014; Lund; Sweden
Issue:
096
Article no.:
052
Pages:
499-505
No. of pages:
7
Publication type:
Abstract and Fulltext
Published:
2014-03-10
ISBN:
978-91-7519-380-9
Series:
Linköping Electronic Conference Proceedings
ISSN (print):
1650-3686
ISSN (online):
1650-3740
Publisher:
Linköping University Electronic Press; Linköpings universitet

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Physiolibrary is a free open-source Modelica library designed for modeling human physiology. It is accessible on the Modelica Libraries web page at https://www.modelica.org/libraries. This library contains basic physical laws governing human physiology; usable for cardiovascular circulation; metabolic processes; nutrient distribution; thermoregulation; gases transport; electrolyte regulation; water distribution; hormonal regulation and pharmacological regulation.

Keywords: Physiolibrary; HumMod; Modelica library; Physiology; Integrative physiology; System biology

Proceedings of the 10th International Modelica Conference; March 10-12; 2014; Lund; Sweden

Author:
Marek Mateják, Tomáš Kulhánek, Jan Šilar, Pavol Privitzer, Filip Ježek, Jiří Kofránek
Title:
Physiolibrary - Modelica library for Physiology
DOI:
http://dx.doi.org/10.3384/ecp14096499
References:

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Circulation: overall regulation. Annual review
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[2] Teaching, L.o.B.a.C.A. Physiolibrary in Matlab and Simuling. 2008; Available from: http://www.physiome.cz/simchips.

[3] Marek Mateják and J. Kofránek, HUMMOD–GOLEM EDITION–ROZSÁHLÝ MODEL FYZIOLOGICKÝCH SYSTÉMU Medsoft, 2011: p. 182-196.

[4] Marek Mateják and J. Kofránek, Rozsáhlý model fyziologických regulací v Modelice. Medsoft, 2010: p. 126-146.

[5] Kofránek, J., M. Mateják, and P. Privitzer. HumMod - large scale physiological model in Modelica. in 8th. International Modelica conference. 2011. Dresden, Germany.

[6] Kofránek, J., Mateják, M., Privitzer, P., Tribula, M., Kulhánek, T., Šilar, J., Pecinovský, R. HumMod-Golem Edition: large scale model of integrative physiology for virtual patient simulators. in World Congress in Computer Science 2013 (WORLDCOMP’13), International Conference on Modeling, Simulation and Visualisation Methods (MSV’13). 2013.

[7] Hester, R.L., et al., HumMod: a modeling environment for the simulation of integrative human physiology. Frontiers in physiology, 2011. 2.

[8] Center, L.b.U.o.M.M., HumMod. 2012: p. http://hummod.org/.

[9] Kofránek, J., M. Mateják, and P. Privitzer. Leaving toil to machines - building simulation kernel of educational software in modern software environments. in Mefanet 2009. 2009. Masaryk University, Brno.

[10] Kofránek, J., M. Mateják, and P. Privitzer, Web simulator creation technology. MEFANET report, 2010. 3: p. 52-97.

[11] Kofranek, J., et al., The Atlas of Physiology and Pathophysiology: Web-based multimedia enabled interactive simulations. Computer methods and programs in biomedicine, 2011. 104(2): p. 143-153.

[12] Proß, S. and B. Bachmann, An Advanced Environment for Hybrid Modeling and Parameter Identification of Biological Systems. [13] Cellier, F.E. and A. Nebot. Object-oriented Modeling in the Service of Medicine. in Proc. 6th Asia Simulation Conference. 2005.

[14] Larsdotter Nilsson, E. and P. Fritzson. BioChem-A Biological and Chemical Library for Modelica. in Proceedings of the 3rd International Modelica Conference (November 3-4, Linköping, Sweden). 2003. Modelica Assocation.

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[21] Fenner, J.W., et al., The EuroPhysiome, STEP and a roadmap for the virtual physiological human. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2008. 366(1878): p. 2979-2999.

[22] Hunter, P.J. and M. Viceconti, The VPHphysiome project: standards and tools for multiscale modeling in clinical applications. Biomedical Engineering, IEEE Reviews in, 2009. 2: p. 40-53.

[23] Smith, L., et al., SBML and CellML translation in Antimony and JSim. Bioinformatics, 2013: p. btt641.

[24] Mortimer, R.G., Mathematics for physical chemistry. 1999: Access Online via Elsevier.

Proceedings of the 10th International Modelica Conference; March 10-12; 2014; Lund; Sweden

Author:
Marek Mateják, Tomáš Kulhánek, Jan Šilar, Pavol Privitzer, Filip Ježek, Jiří Kofránek
Title:
Physiolibrary - Modelica library for Physiology
DOI:
https://doi.org10.3384/ecp14096499
Note: the following are taken directly from CrossRef
Citations:
  • R.D Grygoryan, A.G. Degoda, E.A. Dzhurinsk & D.S. Kharsun (2017). A simulator of a pulsatile heart. PROBLEMS IN PROGRAMMING, (4): 098. DOI: 10.15407/pp2017.04.098
  • Marek Matejak, Libor Seid & Michal Potůček (2018). DEFINICE SOUKROMÍ PACIENTA V ELEKTRONICKÝCH ZDRAVOTNÍCH ZÁZNAMECH. Medsoft, 30(1): 120. DOI: 10.35191/medsoft_2018_1_30_120_124
  • Marek Mateják, Filip Ježek, Martin Tribul & Jiří Kofránek (2015). Physiolibrary 2.3 - An Intuitive Tool for Integrative Physiology. IFAC-PapersOnLine, 48(1): 699. DOI: 10.1016/j.ifacol.2015.05.213
  • Filip Ježek, Svitlana Strunina, Brian E Carlso & Jiří Hozman (2019). A simulation study of left ventricular decompression using a double lumen arterial cannula prototype during a veno-arterial extracorporeal membrane oxygenation. The International Journal of Artificial Organs, 42(12): 748. DOI: 10.1177/0391398819858084
  • R.D. Grygoryan, T.V. Aksonov & A.G. Degoda (2018). Specialised computer simulator "SimEnPhysiol". PROBLEMS IN PROGRAMMING, (2-3): 280. DOI: 10.15407/pp2018.02.280
  • Marek Matejá & Jiří Kofránek (2020). MOLÁRNÍ MNOŽSTVÍ VODY. Medsoft, 32(1): 59. DOI: 10.35191/medsoft_2020_1_32_59_62
  • Marek Matejá & Jiří Kofránek (2020). MOLAR AMOUNT OF WATER. Medsoft, : 85. DOI: 10.35191/medsoft_2020_1_32_85_88
  • Jiří Kofránek, Filp Ježek, Jan Šilar, Arnošt Mládek, Marek Matejá & Tomáš Kulhánek (2020). NOVÁ GENERACE ELEKTRONICKÝCH UČEBNIC SE SIMULAČNÍM JÁDREM.. Medsoft, 32(1): 63. DOI: 10.35191/medsoft_2020_1_32_63_72
  • Jan Šilar, David Polák, Arnošt Mládek, Filip Ježek, Theodore W Kurtz, Stephen E DiCarlo, Jan Živn & Jiri Kofranek (2019). Development of In-Browser Simulators for Medical Education: Introduction of a Novel Software Toolchain. Journal of Medical Internet Research, 21(7): e14160. DOI: 10.2196/14160
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