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Section: Review articles Download (pdf, 2.5MB )UDC[[612.223.12:615.834]:612.127]-092.4DOI10.17238/issn2542-1298.2019.7.2.216AuthorsViktor V. Zinchuk*, Elena S. Biletskaya**Grodno State Medical University (Grodno, Republic of Belarus) Corresponding author: Viktor Zinchuk, address: ul. Gor’kogo 80, Grodno, 230009, Republic of Belarus; e-mail: zinchuk@grsmu.by AbstractThe authors analysed their own and literature data on oxygen-dependent mechanisms of the physiological effects of ozone on the body. Administration of ozone activates metabolism, improves blood circulation and oxygen supply to ischemic tissues. Moreover, ozone can shift the oxidation-reduction equilibrium of metabolic systems, induce compensatory mobilization of endogenous antioxidants from the depot and activate the enzymatic unit of antiradical protection; these effects are aimed at stabilizing the dynamic equilibrium between free radical lipid oxidation and the body’s antioxidant processes. In addition, the effect of this physical factor on the oxygen transport function of the blood is discussed. Ozone changes the functional properties of haemoglobin, in particular, through hydrogen sulfide– cysteine–cystine pathway and NO-ergic mechanisms. The increase in the concentration of nitrogen monoxide in the blood is associated with ozone’s ability to activate factors facilitating the expression of NO synthase. The interaction of nitrogen monoxide with hydrogen sulfide can affect the modification of affinity of haemoglobin for oxygen through formation of various haemoglobin derivatives, modulation of the intra-erythrocyte system forming oxygen-binding properties of blood, as well as through systemic mechanisms forming functional properties of haemoglobin. The effect of ozone is manifested in an increase in the content of such gas transmitters as nitrogen monoxide and hydrogen sulfide, which influences the modification of oxygen-binding properties of blood. The antihypoxic action of ozone is realized with the participation of intra-erythrocyte gas-transmitting mechanisms, which justifies its application in medical practice. The established patterns specify the effects of ozone and can be used as a theoretical basis for developing new ways to improve the body’s adaptation mechanisms during hypoxia.Keywordsozone, blood, oxygen, gas transmittersReferences1. Kytikova O.Yu., Novgorodtsev A.D., Gvozdenko T.A. Meditsinskiy ozon kak redoks-okislitel’nyy gormetin v geriatrii [Оzone as a Redox Hormetin in Geriatrics]. Zdorov’e. Meditsinskaya ekologiya, 2014, vol. 55, no. 1, pp. 26–30.2. Luongo M., Brigida A.L., Mascolo L., Gaudino G. Possible Therapeutic Effects of Ozone Mixture on Hypoxia in Tumor Development. Anticancer Res., 2017, vol. 37, no. 2, pp. 425–435. 3. Poma A., Colafarina S., Aruffo E., Zarivi O., Bonfigli A., Bucchianico S., Di Carlo P. Effects of Ozone Exposure on Human Epithelial Adenocarcinoma and Normal Fibroblasts Cells. PLoS ONE, 2017, vol. 12, no. 9. DOI: 10.1371/ journal.pone.0184519 4. Megele R., Riemenschneider M.J., Dodoo-Schittko F., Feyrer M., Kleindienst A. Intra-Tumoral Treatment with Oxygen-Ozone in Glioblastoma: A Systematic Literature Search and Results of a Case Series. Oncol. Lett., 2018, vol. 16, no. 5, pp. 5813–5822. 5. Lebed’ S.L., Boyarinov G.A., Fraerman A.P. Primenenie ozonirovannogo fiziologicheskogo rastvora v posleoperatsionnom periode u bol’nykh s novoobrazovaniyami golovnogo mozga [The Use of Ozonized Saline Solution in the Postoperative Period in Patients with Brain Tumours]. Bioradikaly i antioksidanty, 2018, vol. 5, no. 1, pp. 30–39. 6. Valacchi G., Sticozzi C., Zanardi I., Belmonte G., Cervellati F., Bocci V., Travagli V. Ozone Mediators Effect on “in vitro” Scratch Wound Closure. Free Radic. Res., 2016, vol. 50, no. 9, pp. 1022–1031. 7. Feng L., Zhang K., Gao M., Shi C., Ge C., Qu D., Zhu J., Shi Y., Han J. Inactivation of Vibrio parahaemolyticus by Aqueous Ozone. J. Microbiol. Biotechnol., 2018, vol. 28, no. 8, pp. 1233–1246. 8. Peirone C., Mestre V.F., Medeiros-Fonseca B., Colaço B., Pires M.J., Martins T., Gil da Costa R.M., Neuparth M.J., Medeiros R., Bastos M.M.S.M., Marques-Magallanes J.A., Oliveira P.A. Ozone Therapy Prevents the Onset of Dysplasia in HPV16-Transgenic Mice – A Pre-Clinical Efficacy and Safety Analysis. Biomed. Pharmacother., 2018, vol. 104, pp. 275–279. 9. Murzaliev A.D., Zholdoshbekov E.Zh., Avasov B.A. Opyt ispol’zovaniya ozonoterapii v urologii [Ozone Therapy in Urology]. Vestnik Smolenskoy gosuarstvennoy meditsinskoy akademii, 2018, vol. 17, no. 1, pp. 94–98. 10. Ibraimov D.S. Effektivnost’ kompleksnogo lecheniya bol’nykh ostrym pankreatitom [Efficiency of Complex Treatment of Patients with Acute Pancreatitis]. Sovremennaya meditsina: aktual’nye voprosy, 2017, vol. 55, no. 3, pp. 65–72. 11. Bilge A., Öztürk Ö., Adali Y., Üstebay S. Could Ozone Treatment Be a Promising Alternative for Osteomyelitis? An Experimental Study. Acta Ortop. Bras., 2018, vol. 26, no. 1, pp. 67–71. 12. Volkhovskaya N.B., Kolesova O.E. Eksperimental’nye issledovaniya vozdeystviya ozonirovannogo fiziologicheskogo rastvora na sostoyanie okislitel’no-vosstanovitel’nogo ravnovesiya [Experimental Studies of the Effect of Ozonized Saline Solution on the State of Redox Equilibrium]. Simvol nauki, 2015, no. 10, pp. 217–221. 13. Kuril’chik A.V., Smirnova E.V., Bul’da V.I. Ozonoterapiya v sovremennoy klinicheskoy praktike [Ozone Therapy in Contemporary Clinical Practice]. Praktikuyuchiy lіkar, 2016, vol. 5, no. 3, pp. 92–94. 14. Gulieva M.G., Zeynalova E.I., Figarova N.A., Rafiev F.D. Ozonoterapiya [Ozone Therapy]. Oftal’mologiya, 2010, no. 2, pp. 102–109. 15. Balmagambetova S.K. Primenenie ozonovykh tekhnologiy v akusherstve i ginekologii [Application of Ozone Technologies in Obstetrics and Gynecology]. Meditsinskiy zhurnal Zapadnogo Kazakhstana, 2011, vol. 29, no. 1, pp. 19–26. 16. Peretyagin S.P., Kontorshchikova K.N., Martusevich A.A. Otsenka effekta razlichnykh doz ozona na protsessy lipoperoksidatsii i kislorodoobespechenie krovi in vitro [The Assessment of the Effect of Different Ozone Doses on the Processes of Lipid Peroxidation and Oxygen Supply of Blood in vitro]. Meditsinskiy al’manakh, 2012, vol. 21, no. 2, pp. 101–104. 17. Deryugina A.V., Galkina Ya.V., Simutis I.S., Boyarinov G.A., Martusevich A.A. Eksperimental’noe obosnovanie ispol’zovaniya ozona v transfuzionnoy terapii krovopoteri u krys [Experimental Substantiation of the Use of Ozone in Transfusion Therapy of Blood Loss in Rats]. Izvestiya Ufimskogo nauchnogo tsentra RAN, 2017, no. 1, pp. 41–45. 18. Ivashchenko V.V., Plakhotnikov I.A., Shalamov V.I., Sagalevich A.I., Koval’chuk V.S., Polunin G.E., Bulavitskiy Yu.V. Primenenie meditsinskogo ozona v kompleksnom lechenii oslozhnennykh form ostrogo paraproktita [Ozone Therapy in Treatment of Complicated Acute Paraproctitis]. Vestnik neotlozhnoy i vosstanovitel’noy meditsiny, 2012, vol. 13, no. 2, pp. 273–274. 19. Karateeva S.Yu., Khomko O.I., Khomko L.P., Sidorchuk R.I., Grodetskiy V.K., Khomko B.O. Ozonoterapiya v kompleksnom lechenii gnoynykh oslozhneniy u bol’nykh sakharnym diabetom [The Role of Ozone in the Treatment of Pioinflammatory Complications in Patients with Diabetes Mellitus]. Unity Sci.: Int. Sci. Period. J., 2015, no. 2, pp. 154–156. 20. Elvis A.M., Ekta J.S. Ozone Therapy: A Clinical Review. J. Nat. Sci. Biol. Med., 2011, vol. 2, no. 1, pp. 66–70. 21. Solov’eva A.G., Peretyagin P.A., Peretyagin S.P., Martusevich A.K. Sostoyanie sistemy lipoperoksidatsii krovi krys pri dlitel’nom vozdeystvii ozona [The State of Blood Lipid Peroxidation in Rats Under Prolonged Course of Ozone Administration]. Bioradikaly i antioksidanty, 2017, vol. 4, no. 1, pp. 31–37. 22. Zinchuk V.V., Biletskaya E.S., Gulyay I.E. Effekt ozona na prooksidantno-antioksidantnyy balans krovi v opytakh in vitro [The Effect of Ozone on the Prooxidant-Antioxidant Balance of Blood in in vitro Experiments]. Novosti mediko-biologicheskikh nauk, 2018, vol. 17, no. 2, pp. 40–44. 23. Koval’chuk L.S., Koval’chuk P.N. Terapiya patsientov pozhilogo vozrasta s ishemicheskoy bolezn’yu serdtsa s vklyucheniem ozono-kislorodnoy smesi [The Therapy of Elderly Patients with Ischemic Heart Disease Using Ozone-Oxygen Mixture]. Problemy zdorov’ya i ekologii, 2017, vol. 53, no. 3, pp. 35–39. 24. Galieva N.V., Fazylov V.Kh., Chizhova M.A. Fiziko-khimicheskie svoystva ozona i ego primenenie v meditsine (kliniko-eksperimental’noe obosnovanie) [Physical and Chemical Properties of Ozone and Its Application in Medicine (Clinical and Experimental Study)]. Vestnik tekhnologicheskogo universiteta, 2016, vol. 19, no. 17, pp. 172–175. 25. Kondrat’eva E.V., Lobanova E.G. Vliyanie ozona na membrannyy potentsial mitokhondriy trombotsitov [The Influence of Ozone on the Membrane Potential of Mitochondria of Thrombocytes]. Meditsinskiy al’manakh, 2013, vol. 27, no. 3, pp. 58–59. 26. Gereykhanova L.G., Lomonosov K.M., Bashlakova K.A. Okislitel’nyy stress v patogeneze vitiligo i metody ego korrektsii [Oxidative Stress in the Pathogenesis of Vitiligo and Methods for Its Correction]. Rossiyskiy zhurnal kozhnykh i venericheskikh bolezney, 2016, vol. 1, no. 19, pp. 45–48. DOI: 10.18821/1560-9588-2016-19-1-45-48 27. Klemente Apumayta Kh.M., Sidorova I.S., Murashko A.V., Pak S.V., Grechkanev G.O., Dvoryanskiy S.A., Iutinskiy E.M. Vliyanie ozonoterapii i giperbaricheskoy oksigenatsii na kliniko-laboratornye i morfologicheskie pokazateli u bol’nykh s khronicheskoy platsentarnoy nedostatochnost’yu [The Influence of Ozonotherapy and Hyperbaric Oxygenation on Clinical-Laboratory and Morphologic Indices of Patients with Chronic Placental Insufficiency]. Meditsinskiy al’manakh, 2010, vol. 11, no. 2, pp. 176–179. 28. Novgorodtsev A.D., Kochagina Yu.A. Potentsial ozonoterapii v onkologii [The Potential of Ozone Therapy in Oncology]. Onkologiya – XXI vek [Oncology – 21st Century]. Perm, 2017, pp. 155–159. 29. Wicher S.A., Jacoby D.B., Fryer A.D. Newly Divided Eosinophils Limit Ozone-Induced Airway Hyperreactivity in Nonsensitized Guinea Pigs. Am. J. Physiol. Lung Cell. Mol. Physiol., 2017, vol. 312, no. 6, pp. 969–982. 30. Klemente Apumayta Kh.M., Grechkanev G.O. Vozdeystvie ozono- i giperbaroterapii na pokazateli gemostaza, immuniteta, perekisnogo okisleniya lipidov u beremennykh s subkompensirovannoy khronicheskoy platsentarnoy nedostatochnost’yu [Effect of Ozone and Hyperbaric Therapy on Haemostasis, Immune System and Lipid Peroxidation in Pregnant Women with Subcompensated Chronic Placental Insufficiency]. Ural’skiy meditsinskiy zhurnal, 2010, vol. 75, no. 10, pp. 141–145. 31. Fedorova T.A., Dubrovina N.V., Sokur T.N., Burlev A.V., Bakuridze E.M. Ozonoterapiya i pokazateli perekisnogo okisleniya lipidov v kompleksnom lechenii beremennykh s zhelezodefitsitnoy anemiey [Ozone Therapy and the Indices of Lipid Peroxidation in a Complex Treatment of the Pregnant with Iron-Deficient Anemia]. Meditsinskiy al’manakh, 2013, vol. 27, no. 3, pp. 159–160. 32. Shanazarov N.A., Lisovskaya N.Yu., Lisovskiy E.V., Shakirova A.F. Vozmozhnosti metoda ozonoterapii v reabilitatsii onkologicheskikh patsientov (obzor literatury) [The Capability of Ozonotherapy in Rehabilitation of Oncological Patients (Literature Review)]. Nauchnoe obozrenie. Meditsinskie nauki, 2016, no. 2, pp. 113–119. 33. Katiukhin L.N. Influence of the Course of Treatment by Injections of Ozonized Saline on Rheological Properties of Erythrocytes in Patients with Complex Pathology. Hum. Physiol., 2016, vol. 42, no. 6, pp. 672–677. DOI: 10.7868/ S013116461605009X 34. Zinchuk V.V., Glutkina N.V. Kislorodsvyazyvayushchie svoystva gemoglobina i monooksida azota [Oxygen-Binding Capacities of Hemoglobin and Nitric Oxide]. Rossiyskiy fiziologicheskiy zhurnal im. I.M. Sechenova, 2013, vol. 99, no. 5, pp. 537–554. 35. Ross B.K., Hlastala M.P., Frank R. Lack of Ozone Effects on Oxygen Hemoglobin Affinity. Arch. Environ. Health, 1979, vol. 34, no. 3, pp. 161–163. 36. Zanardi I., Borrelli E., Valacchi G., Travagli V., Bocci V. Ozone: A Multifaceted Molecule with Unexpected Therapeutic Activity. Curr. Med. Chem., 2016, vol. 23, no. 4, pp. 304–314. 37. Coppola L., Giunta R., Verrazzo G., Luongo C., Sammartino A., Vicario C., Giugliano D. Influence of Ozone on Haemoglobin Oxygen Affinity in Type-2 Diabetic Patients with Peripheral Vascular Disease: in vitro Studies. Diabete Metab., 1995, vol. 21, no. 4, pp. 252–255. 38. Deryugina A.V., Galkina Ya.V., Martusevich A.A., Simutis I.S., Boyarinov G.A. Rol’ ozona v izmenenii aktivnosti Na-K-ATFazy i soderzhanii ATF i 2,3-DFG v eritrotsitakh krovi pri modelirovanii ostroy krovopoteri u krys [The Role of Ozone in Changing the Activity of Na-K-ATPase and the Content of ATP and 2,3-DPG in Erythrocytes at Modelling of Acute Blood Loss in Rats]. Bioradikaly i antioksidanty, 2016, vol. 3, no. 3, pp. 33–35. 39. Koval’chuk P.N., Koval’chuk L.S. Opyt primeneniya razlichnykh metodik ozonoterapii v lechenii oslozhneniy sakharnogo diabeta [Experience of the Application of Different Ozonotherapy Techniques in the Treatment for Pancreatic Diabetes Complications]. Problemy zdorov’ya i ekologii, 2011, no. 2, pp. 120–123. 40. Biletskaya E.S. Vozmozhnye mekhanizmy deystviya ozona na organizm [Possible Mechanisms of Ozone Action on the Body]. Agadzhanyanovskie chteniya [Agadzhanyan Readings]. Moscow, 2018, pp. 52–54. 41. Chekman I.S., Syrovaya A.O., Makarov V.A., Makarov V.V., Lapshin V.V., Shapoval E.V. Ozon i ozonoterapiya [Ozone and Ozone Therapy]. Kharkov, 2013. 144 p. 42. Apsatarov Zh.E., Lyubinskiy V.L. Vliyanie ozona na dinamiku reologicheskikh pokazateley krovi [The Effect of Ozone on the Dynamics of Blood Rheological Parameters]. Reanimatologiya i intensivnaya terapiya. Anesteziologiya, 2000, no. 4, pp. 19–20. 43. Grechkanev G.O., Kontorshchikova K.N., Kachalina T.S. Eksperimental’noe obosnovanie ozonoterapii akusherskikh oslozhneniy [Experimental Substantiation of Ozone Therapy for Obstetric Complications]. Nizhegorodskiy meditsinskiy zhurnal, 2002, no. 1, pp. 20–25. 44. Lapshina O.V., Antipenko E.A., Kontorshchikova K.N., Baranova A.V., Sedyshev D.V., Gustov A.V. Vliyanie ozonoterapii na okislitel’nyy gomeostaz patsientov s miasteniey [The Influence of Ozone Therapy on Oxidative Homeostasis in Patients with Myasthenia]. Prakticheskaya meditsina, 2017, vol. 2, no. 1, pp. 80–83. 45. Maslennikov O.V., Kontorshchikova K.N., Shakhov B.E. Rukovodstvo po ozonoterapii [Guidelines on Ozone Therapy]. Nizhny Novgorod, 2015. 346 p. 46. Zinchuk V.V. Rol’ kislorodsvyazyvayushchikh svoystv krovi i gazotransmitterov v razvitii oksidativnykh povrezhdeniy i gipoksicheskikh sostoyaniy [The Role of Oxygen-Binding Properties of Blood and Gas Transmitters in the Development of Oxidative Damage and Hypoxic States]. Novosti mediko-biologicheskikh nauk, 2016, vol. 14, no. 4, pp. 55–63. 47. Biletskaya E.S., Gurlo N.A., Toisteva D.A. Effekt ozona na mekhanizmy transporta kisloroda krov’yu [The Effect of Ozone on the Mechanisms of Oxygen Transport in the Blood]. Kislorod i svobodnye radikaly [Oxygen and Free Radicals]. Grodno, 2018, pp. 17–18. |
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