2687-0940Актуальные проблемы медицины2687-094010.52575/2687-0940-2021-44-4-460-470100ХИРУРГИЯ<strong>Механизм воздействия молекулярного водорода в комплексном лечении ран мягких тканей и общей хирургической инфекции</strong><strong>Mechanism of exposure to molecular hydrogen in complex treatment of soft tissue wounds and general surgical infection</strong>АндреевАлександр АлексеевичAndreevAlexander A.ЛаптиёваАнастасия ЮрьевнаLaptiyovaAnastasiya Yu.laptievaa@mail.ruГлуховАлександр АнатольевичGlukhovAlexander A.КоняшинДаниил АлександровичKonyashinDaniil A.КоноваловПавел АндреевичKonovalovPavel A.ЗолотухинВладимир ОлеговичZolotukhinVladimir O.202144400

Молекулярный водород (МВ) достаточно давно известен как инертный газ, однако о его полезных свойствах стало известно только в 2007 году, когда были получены сведения о его антиоксидантных возможностях. Эффекты Н2 позволяют использовать его при комплексном лечении ран мягких тканей. В этом обзоре обсуждаются основные биологические действия, а также механизмы действия МВ при нарушениях целостности тканевых структур и септических повреждений органов со стороны основных способностей водорода: противоапоптических, противовоспалительных, антиоксидантных и аутофагических. Подробно описываются способы транспортировки, дозировки Н2, а также их достоинства и недостатки в практической медицине. Рассмотрены перспективы развития его внедрения в самые различные области лечения и основные проблемы, на которые до сих пор нет ответа.

Molecular hydrogen (MH) has been known for a long time as an inert gas, but its beneficial properties became known only in 2007, when information about its antioxidant capabilities was obtained. The effects of MH make it possible to use it in the complex treatment of soft tissue wounds. This review discusses the main biological actions, as well as the mechanisms of action of MH in violation of the integrity of tissue structures and septic damage to organs from the main abilities of hydrogen: anti-apoptotic, anti-inflammatory, antioxidant, and autophagic. The methods of transportation, dosage of H2, as well as their advantages and disadvantages in practical medicine are described in detail. The prospects for the development of its implementation in the most diverse areas of treatment and the main problems, which still have no answer, are considered.

молекулярный водородокислительный стрессраны мягких тканеймолекулярные механизмыmolecular hydrogenoxidative stresssoft tissue woundsmolecular mechanismsСписок литературыCarnio E.C., Stabile A.M., Batalh&atilde;o M.E., Silva J.S., Antunes-Rodrigue J., Branco L.G., Magder S. 2019. Vasopressin release during endotoxaemic shock in mice lacking inducible nitric oxide synthase. Pfl&uuml;gers Archiv. 450 (6): 390&ndash;394.Carramusa L., Ballestrem C., Zilberman Y., Bershadsky A. 2017.Mammalian diaphanous-related formin Dia1 controls the organization of E-cadherin-mediated cell-cell junctions. Journal of cell science. 120 (21): 3870&ndash;3882.Dole M., Wilson F.R. Fife W.P. 1975. Hyperbaric Hydrogen Therapy: A Possible Treatment for Cancer. Science, 190, 152&ndash;154. http://dx.doi.org/10.1126/science.1166304Dole M., You J., Lee J., Safonov V.L., Berman D., Zhu D. 2020. Engineered Regeneration. 1: 1&ndash;5.Fam-Hai L.A., He H., Fam-Hai S. 2008. Radicals, Antioxidants in Disease and Health. International Journal of Biomedical Sciences: IJBS. 4 (2): 89&ndash;96.Fu Y., Ito M., Fujita Y., Ito M., Ichihara M., Masuda A., Suzuki Y., Maesawa S., Kajita&nbsp;Y., Hirayama M., Ohsawa I., Ohta S., Ohno K. 2009. Molecular hydrogen is protective against 6-hydroxydopamine-induced nigrostriatal degeneration in a rat model of Parkinson&#39;s disease. Neuroscience letters. 453 (2): 81&ndash;85.Ge Y., Wu F., Sun X., Xiang Zh., Yang L., Huang Sh., Lu Z., Sun Yu., Yu W.-F. 2014. Intrathecal infusion of hydrogen-rich normal saline attenuates neuropathic pain via inhibition of activation of spinal astrocytes and microglia in rats. PLoS One. 9 (5): e97436.Itoh T., Hamada N., Terazawa R., Ito M., Ohno K., Ichihara M., Ito M. 2018. Molecular hydrogen inhibits lipopolysaccharide/interferon &gamma;-induced nitric oxide production through modulation of signal transduction in macrophages. Biochemical and biophysical research communications. 411 (1): 143&ndash;149.Kamata H., Honda S.-I., Maeda S., Chang L., Hirata H., Karin M. 2005. Reactive oxygen species promote TNF&alpha;-induced death and sustained JNK activation by inhibiting MAP kinase phosphatases. Cell. 120 (5): 649&ndash;661.Kubota M., Shimmura Sh., Kubota Sh., Miyashita H., Kato N., Noda K., Ozawa Y., Usui&nbsp;T., Ishida S., Umezawa K., Kurihara T., Tsubota K. 2011. Hydrogen and N-acetyl-L-cysteine rescue oxidative stress-induced angiogenesis in a mouse cornealalkali-burn model // Investigative ophthalmology &amp; visual science. 52 (1): 427&ndash;433.Li G., Yang M., Yang N.-N., Yin X.-X., Song W.-g. 2017. Molecular hydrogen: a preventive and therapeutic medical gas for various diseases. Oncotarget. 8 (60): 102653&ndash;102673.Malec V., Gottschald O.R., Li S., Rose F., Seeger W., H&auml;nze J. 2017. HIF-1&alpha; signaling is augmented during intermittent hypoxia by induction of the Nrf2 pathway in NOX1-expressing adenocarcinoma A549 cells. Free Radical Biology and Medicine. 48 (12): 1626&ndash;1635.Nicolson G., Mattos G. F. D., Settineri R., Costa C., Ellithorpe R.R., Rosenblatt S., Valle&nbsp;J.L, Jimenez A., Ohta S., John S. 2016. Clinical effects of hydrogen administration: from animal and human diseases to exercise medicine. International Journal of Clinical Medicine.7 (01): 32.Qiu P., Liu Y., Zhang J. 2019. Recent advances in studies of molecular hydrogen against sepsis. International journal of biological sciences. 15 (6): 1261.Qiu P., Liu Y., Zhang J. 2019. Recent advances in studies of molecular hydrogen against sepsis. International journal of biological sciences. 15 (6): 1261.Ren J.D., Wu X.B., Jiang R., Hao D.P., Liu Y. 2018. Molecular hydrogen inhibits lipopolysaccharide-triggered NLRP3 inflammasome activation in macrophages by targeting the mitochondrial reactive oxygen species. Biochimica et Biophysica Acta (BBA)-Molecular Cell Research. 1863 (1): 50&ndash;55.Saramago E.A., Borges G.S., Singolani-Jr C.G., Nogueira J.E., Soriano R.N., C&aacute;rnio&nbsp;E.C., Branco L.G. 2019. Molecular hydrogen potentiates hypothermia and prevents hypotension and fever in LPS-induced systemic inflammation. Brain, behavior, and immunity. 75: 119&ndash;128.Schulze-Osthoff K., Los M., Baeuerle P.A. 1995. Redox signalling by transcription factors NF-&kappa;B and AP-1 in lymphocytes. Biochemical pharmacology. 50 (6): 735&ndash;741.Shao A., Wu H., Hong Yu., Tu S., Sun X., Wu Q., Zhao Q., Zhang J., Sheng J. 2016. Hydrogen-rich saline attenuated subarachnoid hemorrhage-induced early brain injury in rats by suppressing inflammatory response: possible involvement of NF-&kappa;B pathway and NLRP3 inflammasome. Molecular neurobiology. 53 (5): 3462&ndash;3476.Shi Q., Chen C., Deng W.H., Wang P., Zuo T., Zhao L., Wang W.X. 2016. Hydrogen-rich saline attenuates acute hepatic injury in acute necrotizing pancreatitis by inhibiting inflammation and apoptosis, involving JNK and p38 mitogen-activated protein kinase&ndash;dependent reactive oxygen species. Pancreas. 45 (10): 1424&ndash;1431.Shi Y., Li Z., Zheng W., Liu X., Sun C., Laugsand J.-B., Liu Z., Cui G. 2015. Changes of immunocytic phenotypes and functions from human colorectal adenomatous stage to cancerous stage: Update. Immunobiology. 220 (10): 1186&ndash;1196.Tao G., Song G., Qin S. 2019. Molecular hydrogen: current knowledge on mechanism in alleviating free radical damage and diseases. Acta biochimica et biophysica Sinica. 51 (12):1189&ndash;1197.Wang L., Zhao C., Wu S., Xiao G., Zhuge X., Lei P., Xie K. 2018. Hydrogen gas treatment improves the neurological outcome after traumatic brain injury via increasing miR-21 expression. Shock. 50 (3): 308&ndash;315.Wu J., Wang R., Yang D., Tang W., Chen Z., Sun Q., Liu L., Zang R. 2018.Hydrogen postconditioning promotes survival of rat retinal ganglion cells against ischemia/reperfusion injury through the PI3K. Akt pathway. Biochemical and biophysical research communications. 495 (4): 2462&ndash;2468.Xie K., Yu Y., Huang Y, Zheng L., Li J., Chen H., Han H., Hou L., Gong G., Wang G. 2012. Molecular hydrogen ameliorates lipopolysaccharide-induced acute lung injury in mice through reducing inflammation and apoptosis. Shock. 37 (5): 548&ndash;555.Xin Y., Liu H., Zhang P., Chang L., Xie K. 2017. Molecular hydrogen inhalation attenuates postoperative cognitive impairment in rats. Neuroreport. 28 (11): 694&ndash;700Zhang G., Li Z., Meng C., Kang J., Zhang M., Ma L., Zhou H. 2018. The anti-inflammatory effect of hydrogen on lung transplantation model of pulmonary microvascular endothelial cells during cold storage period. Transplantation. 102 (8): 1253&ndash;1261.Zhang Y., Li Y.F., Shan T.-L., Deng X., Delwart E., Feng X.-P. 2016. A novel species of torque teno mini virus (TTMV) in gingival tissue from chronic periodontitis patients. Scientific reports. 6 (1): 1&ndash;7.Zhang Y., Xu J., Long Z., Wang C., Wang L., Sun P., Wang T. 2016. Hydrogen (H2) inhibits isoproterenol-induced cardiac hypertrophy via antioxidative pathways. Frontiers in Pharmacology. 7: 392.Zhou H., Fu Z., Wei Y., Liu J., Cui X., Yang W., Ding W., Pan P., Li W. 2013. Hydrogen inhalation decreases lung graft injury in brain-dead donor rats. The Journal of heart and lung transplantation. 32 (2): 251&ndash;258.