Geodesic
The mathematical model of the dynamics of human gas exchange in hypoxic conditions
Matematičeskoe modelirovanie, Tome 26 (2014) no. 4, pp. 51-64.

Voir la notice de l'article provenant de la source Math-Net.Ru

A mathematical model of the dynamics of the main indicators of gas exchange in man is developed based on a simulation model of the respiratory system of humans, dwelling in hypoxic conditions, the adequacy of which is confirmed by experimental results.
Keywords: mathematical modeling of gas exchange, the mathematical modeling of the respiratory system, the modeling of hypoxic conditions. 
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T. V. Matyushev; M. V. Dvornikov; A. V. Bogomolov; Yu. A. Kukushkin; A. V. Polyakov. The mathematical model of the dynamics of human gas exchange in hypoxic conditions. Matematičeskoe modelirovanie, Tome 26 (2014) no. 4, pp. 51-64. http://geodesic.mathdoc.fr/item/MM_2014_26_4_a4/

[1] Matyushev T. V., “Matematicheskaya model passivnykh mekhanizmov regulyatsii respiratornoi sistemy organizma”, Biomeditsinskaya radioelektronika, 2010, no. 5, 26–33

[2] Matyushev T. V., Dvornikov M. V., “Matematicheskaya model khimicheskoi regulyatsii respiratornoi sistemy organizma”, Biomeditsinskaya radioelektronika, 2011, no. 9, 67–71

[3] Kislova Yu. V., Bogomolov A. V., Soloshenko N. V., “Metodika matematicheskogo modelirovaniya fiziologicheskikh reaktsii serdechno-sosudistoi sistemy cheloveka na travmaticheskie povrezhdeniya konechnostei, oslozhnennye krovopoterei”, Biomeditsinskie tekhnologii i radioelektronika, 2005, no. 1, 21–25

[4] Kislova Yu. V., Bogomolov A. V., Soloshenko N. V., Zagorodnikov S. N., “Matematicheskoe modelirovanie nervnoi regulyatsii gemodinamiki cheloveka”, Biomeditsinskie tekhnologii i radioelektronika, 2005, no. 12, 68–72

[5] Matyushev T. V., Nikiforov D. A., “Obosnovanie i razrabotka algoritma passivnykh mekhanizmov vneshnego dykhaniya cheloveka”, Uchenye zametki TOGU, 1:1 (2010), 74–78

[6] Matyushev T. V., Stepanov V. K., Dvornikov M. V., Bukhtiyarov I. V., “Matematicheskii analiz protsessa massoperenosa kisloroda krovyu”, Biomeditsinskaya radioelektronika, 2009, no. 9, 21–28 | MR

[7] Kislova Yu. V., Bogomolov A. V., Soloshenko N. V., “Matematicheskoe modelirovanie reaktsii serdechno-sosudistoi sistemy cheloveka pri gipotermii”, Meditsinskaya tekhnika, 2006, no. 4, 10–13

[8] Matyushev T. V., Stepanov V. K., Dvornikov M. V., Ryzhenkov S. P., “Matematicheskii analiz osnovnykh zakonomernostei gazovogo obmena i kislotno-schelochnogo sostoyaniya krovi”, Klinicheskaya fiziologiya krovoobrascheniya, 2008, no. 3, 74–79

[9] Matyushev T. V., Dvornikov M. V., “Imitatsiya vliyaniya povyshennoi kontsentratsii dvuokisi ugleroda na gazoobmen cheloveka na osnove matematicheskoi modeli respiratornoi sistemy”, Biomeditsinskaya radioelektronika, 2011, no. 12, 49–58

[10] Bukharov I. B., “Optimalnaya strukturno-funktsionalnaya organizatsiya sistem krovoobrascheniya i vneshnego dykhaniya”, Matematicheskoe modelirovanie, 17:9 (2005), 3–26 | MR | Zbl

[11] Simakov S. S., Kholodov A. S., “Chislennoe issledovanie soderzhaniya kisloroda v krovi cheloveka pri nizkochastotnykh vozdeistviyakh”, Matematicheskoe modelirovanie, 20:4 (2008), 87–103 | MR

[12] Konechchi E. B., “Dekompressionnye yavleniya na iskusstvennykh sputnikakh s zhivymi suschestvami na bortu”, Chelovek v usloviyakh vysotnogo i kosmicheskogo poleta, Izd. inostrannoi literatury, M., 1960, 349–417

[13] Amosov N. M., Palets B. L., Agapov B. T. i dr., Teoreticheskie issledovaniya fiziologicheskikh sistem, Naukova dumka, Kiev, 1977, 361 pp.

[14] Grodinz F., Teoriya regulirovaniya i biologicheskie sistemy, Mir, M., 1966, 133 pp.

[15] Zilbert A. P., Regionarnye funktsii legkikh, PGU, Petrozavodsk, 1973, 280 pp.

[16] Matyushev T. V., Stepanov V. K., Ryzhenkov S. P., “Raschet dinamiki sdvigov osnovnykh parametrov gazoobmena na imitatsionnoi modeli”, Sistemnyi analiz i upravlenie v biomeditsinskikh sistemakh, 6:3 (2007), 776–780