Homeostatic and endocrine responses as the basis for systemic therapy with medical gases: ozone, xenon and molecular hydrogen.

IF 3 Q2 MEDICINE, RESEARCH & EXPERIMENTAL
Eugene Iv Nazarov, Igor Alb Khlusov, Mami Noda
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引用次数: 3

Abstract

Among medical gases, including gases used therapeutically, this review discusses the comparative physiological activity of three gases - ozone (O3), xenon (Xe) and molecular hydrogen (H2), which together form representatives of three types of substances - typical oxidizing, inert, and typical reducing agents. Upon analysis of published and proprietary data, we concluded that these three medical gases can manipulate the neuroendocrine system, by modulating the production or release of hormones via the hypothalamic-pituitary-adrenal, hypothalamic-pituitary-thyroid, hypothalamic-pituitary-gonadal axes, or the gastrointestinal pathway. With repeated administration of the gases over time, these modulations become a predictable consequence of conditioned homeostatic reflexes, resulting in regulation of physiological activity. For example, the regular activation of the unconditioned defense reflex in response to repeated intoxication by ozone leads to the formation of an anticipatory stable conditioned response, which counteracts the toxic action of O3. The concept of a Pavlovian conditioned reflex (or hormoligosis) is a brief metaphor for the understanding the therapeutic effect of systemic ozone therapy.

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体内平衡和内分泌反应作为医疗气体:臭氧,氙和分子氢的全身治疗的基础。
在医疗气体中,包括用于治疗的气体,这篇综述讨论了三种气体——臭氧(O3)、氙(Xe)和分子氢(H2)——的比较生理活性,它们共同形成了三种类型物质的代表——典型的氧化剂、惰性剂和典型的还原剂。通过对已发表和专有数据的分析,我们得出结论,这三种医用气体可以通过下丘脑-垂体-肾上腺、下丘脑-垂体甲状腺、下丘脑-脑垂体-性腺轴或胃肠道调节激素的产生或释放,从而操纵神经内分泌系统。随着时间的推移,这些调节成为条件稳态反射的可预测结果,从而导致生理活动的调节。例如,对臭氧反复中毒反应的非条件防御反射的定期激活会导致预期稳定的条件反应的形成,从而抵消臭氧的毒性作用。巴甫洛夫条件反射(或hormoligosis)的概念是理解全身臭氧治疗效果的一个简短比喻。
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来源期刊
Medical Gas Research
Medical Gas Research MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
5.10
自引率
13.80%
发文量
35
期刊介绍: Medical Gas Research is an open access journal which publishes basic, translational, and clinical research focusing on the neurobiology as well as multidisciplinary aspects of medical gas research and their applications to related disorders. The journal covers all areas of medical gas research, but also has several special sections. Authors can submit directly to these sections, whose peer-review process is overseen by our distinguished Section Editors: Inert gases - Edited by Xuejun Sun and Mark Coburn, Gasotransmitters - Edited by Atsunori Nakao and John Calvert, Oxygen and diving medicine - Edited by Daniel Rossignol and Ke Jian Liu, Anesthetic gases - Edited by Richard Applegate and Zhongcong Xie, Medical gas in other fields of biology - Edited by John Zhang. Medical gas is a large family including oxygen, hydrogen, carbon monoxide, carbon dioxide, nitrogen, xenon, hydrogen sulfide, nitrous oxide, carbon disulfide, argon, helium and other noble gases. These medical gases are used in multiple fields of clinical practice and basic science research including anesthesiology, hyperbaric oxygen medicine, diving medicine, internal medicine, emergency medicine, surgery, and many basic sciences disciplines such as physiology, pharmacology, biochemistry, microbiology and neurosciences. Due to the unique nature of medical gas practice, Medical Gas Research will serve as an information platform for educational and technological advances in the field of medical gas.
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