SimThyr explained

Logo Alt:SimThyr icon
Author:Johannes W. Dietrich, Ulla Mitzdorf, Renate Pickardt, Rudolf Hoermann, John E. M. Midgley
Developer:Ruhr University Bochum
Latest Release Version:4.0.6
Operating System:macOS, Windows and Linux
Platform:PowerPC, IA-32, x86-64 and ARM,
m68k (legacy versions only)
Genre:Free scientific application software for physiological simulations
License:BSD-style
Language:British English, German (SimThyr 2.0 or older only)
Qid:Q59421094
Programming Language:Pascal and Object Pascal

SimThyr is a free continuous dynamic simulation program for the pituitary-thyroid feedback control system.[1] The open-source program is based on a nonlinear model of thyroid homeostasis.[2] [3] [4] In addition to simulations in the time domain the software supports various methods of sensitivity analysis. Its simulation engine is multi-threaded and supports multiple processor cores. SimThyr provides a GUI, which allows for visualising time series, modifying constant structure parameters of the feedback loop (e.g. for simulation of certain diseases), storing parameter sets as XML files (referred to as "scenarios" in the software) and exporting results of simulations in various formats that are suitable for statistical software. SimThyr is intended for both educational purposes and in-silico research.[4] [5]

Mathematical model

The underlying model of thyroid homeostasis is based on fundamental biochemical, physiological and pharmacological principles, e.g. Michaelis-Menten kinetics, non-competitive inhibition and empirically justified kinetic parameters.[1] The model has been validated in healthy controls and in cohorts of patients with hypothyroidism and thyrotoxicosis.[6]

Scientific uses

Multiple studies have employed SimThyr for in silico research on the control of thyroid function.[7] [8]

The original version was developed to check hypotheses about the generation of pulsatile TSH release.[9] Later and expanded versions of the software were used to develop the hypothesis of the TSH-T3 shunt in the hypothalamus-pituitary-thyroid axis,[10] to assess the validity of calculated parameters of thyroid homeostasis (including SPINA-GT and SPINA-GD)[11] [12] and to study allostatic mechanisms leading to non-thyroidal illness syndrome.[13] [14]

SimThyr was also used to show that the release rate of thyrotropin is controlled by multiple factors other than T4 and that the relation between free T4 and TSH may be different in euthyroidism, hypothyroidism and thyrotoxicosis.[15]

Public perception, reception and discussion of the software

SimThyr is free and open-source software. This ensures the source code to be available, which facilitates scientific discussion and reviewing of the underlying model.[16] [17] Additionally, the fact that it is freely available may result in economical benefits.[18] [19]

The software provides an editor that enables users to modify most structure parameters of the information processing structure.[20] This functionality fosters simulation of several functional diseases of the thyroid and the pituitary gland. Parameter sets may be stored as MIRIAM- and MIASE-compliant XML files.

On the other hand, the complexity of the user interface and the lack of the ability to model treatment effects have been criticized.[21]

See also

External links

Notes and References

  1. Dietrich . JW . Landgrafe . G . Fotiadou . EH . TSH and Thyrotropic Agonists: Key Actors in Thyroid Homeostasis. . Journal of Thyroid Research . 2012 . 2012 . 351864 . 10.1155/2012/351864 . 23365787. 3544290 . free .
  2. Hoermann . R . Midgley . JE . Larisch . R . Dietrich . JW . Homeostatic Control of the Thyroid-Pituitary Axis: Perspectives for Diagnosis and Treatment. . Frontiers in Endocrinology . 2015 . 6 . 177 . 10.3389/fendo.2015.00177 . 26635726 . 4653296 . free .
  3. Berberich . Julian . Mathematical Modeling of the Pituitary-Thyroid Feedback Loop: Matlab/Simulink Files for Simulation and Sensitivity Analysis . 13 September 2018 . 10.5281/zenodo.1415331 .
  4. Book: Dietrich . Johannes W. . Der Hypophysen-Schilddrüsen-Regelkreis : Entwicklung und klinische Anwendung eines nichtlinearen Modells . 2002 . Logos-Verlag . Berlin . 978-3897228504.
  5. Book: Dietrich . Johannes W. . Midgley . John E. M. . Hoermann . Rudolf . Homeostasis and Allostasis of Thyroid Function . 2018 . Frontiers Media SA . Lausanne . 9782889455706.
  6. Hoermann . R . Pekker . MJ . Midgley . JEM . Larisch . R . Dietrich . JW . Triiodothyronine secretion in early thyroid failure: The adaptive response of central feedforward control. . European Journal of Clinical Investigation . February 2020 . 50 . 2 . e13192 . 10.1111/eci.13192 . 31815292. 208956920 .
  7. Ramos . André . Chaves . Rafael . Favero . Elói . Simulação baseada em Dinâmica de Sistemas para o ensino da fisiologia do eixo Hipotálamo-hipófise-tireoide no contexto da graduação em medicina . Brazilian Symposium on Computers in Education (Simpósio Brasileiro de Informática Na Educação - SBIE) . 11 November 2019 . 30 . 1 . 962 . 10.5753/cbie.sbie.2019.962 . 213401607 . pt . 2316-6533. free .
  8. Ghosh . Devleena . Mandal . Chittaranjan . Clustering Based Parameter Estimation of Thyroid Hormone Pathway . IEEE/ACM Transactions on Computational Biology and Bioinformatics . 2020 . PP . 1 . 343–354 . 10.1109/TCBB.2020.2995589. 32750849 . 219479222 .
  9. DIETRICH . J. W. . TESCHE . A. . PICKARDT . C. R. . MITZDORF . U. . Thyrotropic Feedback Control: Evidence for an Additional Ultrashort Feedback Loop from Fractal Analysis . Cybernetics and Systems . 2004 . 35 . 4 . 315–331 . 10.1080/01969720490443354. 13421388 .
  10. Hoermann . R . Midgley . JE . Larisch . R . Dietrich . JW . Integration of Peripheral and Glandular Regulation of Triiodothyronine Production by Thyrotropin in Untreated and Thyroxine-Treated Subjects . Horm Metab Res . 2015 . 47 . 9 . 674–80 . 10.1055/s-0034-1398616 . 25750078. 9824656 .
  11. Dietrich . JW . Landgrafe-Mende . G . Wiora . E . Chatzitomaris . A . Klein . HH . Midgley . JE . Hoermann . R . Calculated Parameters of Thyroid Homeostasis: Emerging Tools for Differential Diagnosis and Clinical Research. . Frontiers in Endocrinology . 2016 . 7 . 57 . 10.3389/fendo.2016.00057 . 27375554 . 4899439 . free .
  12. Hoermann . Rudolf . Midgley . John E. M. . Larisch . Rolf . Dietrich . Johannes W. . The role of functional thyroid capacity in pituitary thyroid feedback regulation . European Journal of Clinical Investigation . October 2018 . 48 . 10 . e13003 . 10.1111/eci.13003 . 30022470. 51698223 .
  13. Hoermann . R . Midgley . JE . Larisch . R . Dietrich . JW . Is pituitary TSH an adequate measure of thyroid hormone-controlled homoeostasis during thyroxine treatment? . European Journal of Endocrinology . February 2013 . 168 . 2 . 271–80 . 10.1530/EJE-12-0819 . 23184912. 34158774 . free .
  14. Chatzitomaris . A . Hoermann . R . Midgley . JE . Hering . S . Urban . A . Dietrich . B . Abood . A . Klein . HH . Dietrich . JW . Thyroid Allostasis-Adaptive Responses of Thyrotropic Feedback Control to Conditions of Strain, Stress, and Developmental Programming. . Frontiers in Endocrinology . 2017 . 8 . 163 . 10.3389/fendo.2017.00163 . 28775711. 5517413 . free .
  15. Midgley . JE . Hoermann . R . Larisch . R . Dietrich . JW . Physiological states and functional relation between thyrotropin and free thyroxine in thyroid health and disease: in vivo and in silico data suggest a hierarchical model. . Journal of Clinical Pathology . April 2013 . 66 . 4 . 335–42 . 10.1136/jclinpath-2012-201213 . 23423518 . 46291947 . 4 December 2018.
  16. Web site: Gezelter . Dan . SimThyr – simulation software for pituitary thyroid feedback The OpenScience Project . The OpenScience Project . 6 February 2019 . https://web.archive.org/web/20190404101222/http://openscience.org/simthyr-simulation-software-for-pituitary-thyroid-feedback/ . 4 April 2019.
  17. Web site: Glensbo . Henrik . Fokus i 2020 - stofskiftesygdom.dk . www.stofskiftesygdom.dk . Stofskiftesygdom . 2 April 2020.
  18. Book: Lupínek . Jiří . Freeware simulační a vizualizační nástroje pro GNU/Linux . 2012 . Západočeská univerzita v Plzni . 11025/5282 . cs.
  19. Arslan . M. Oguz . Özgür ve Açık Kaynak Yazılımın Ekonomik Faydaları: Saglık Sektörü Için Bir Degerlendirme [Economic Benefits of Free and Open Source Software: An Evaluation for Health Sector.] ]. Hacettepe Sağlık İdaresi Dergisi . 2014 . 17 . 119–31 .
  20. Dietrich . J. W. . SimThyr 4.0 Handbook and Reference . 2017 . figshare . 10.6084/m9.figshare.4902098.
  21. Han . Simon Xian He . THYROSIM: A Web Application for Human Thyroid System Regulation Education and Research . 2013 . UCLA . Los Angeles . en.