Review of clinical applications of nitric oxide-containing air-plasma gas flow generated by Plason device

Q1 Medicine
Alexandra V. Butenko , Anatoly B. Shekhter , Alexander V. Pekshev , Andrey B. Vagapov , Alexey L. Fayzullin , Natalia B. Serejnikova , Nikolay A. Sharapov , Viktoria A. Zaborova , Victor N. Vasilets
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引用次数: 5

Abstract

Background

Nitric oxide (NO) is a gaseous molecule produced by NO-synthases that regulates a wide range of physiological and pathophysiological processes. Endogenous NO signaling system plays an important role in all stages of wound healing. In 1998, a team from Bauman Moscow State Technical University and Sechenov First Moscow State Medical University (Sechenov University) developed the Plason device. Plason generates NO-containing air-plasma flow from atmospheric air and allows to apply required doses of NO to affected areas. It was shown, that exogenous NO penetrates through a wound surface, an intact skin, mucous membranes and a cornea, which leads to the wide range of applications. The experimental and clinical studies of 1992–2006 proved exogenous NO-therapy to be beneficial in patients with extensive purulent wounds, trophic ulcers, diabetic foot syndrome, purulent-inflammatory disease of soft tissues and scars.

Methods

Up to now Plason is the only certified in Russia and Europe medical device generating NO from atmospheric air at high therapeutically significant concentrations (500–1200 ppm). It is used in Russia, Ukraine, Belarus and Slovakia. Other air-plasma devices, “Tianox” (Sarov, Russia) and “iNO pulse” (Bellerophon Inc., USA) generated low concentrations of NO (10–100 ppm) were found effective against severe acute respiratory syndrome and recently tested for treatment of COVID-19. The purpose of this review is to acquaint global medical community with the extensive experience of Russian clinicians in NO-therapy. It covers the NO-therapy studies in multiple medical fields published after 2006.

Results and conclusions

Application of the Plason device was beneficial in treatment of wounds, purulent, traumatic and scar lesions, joint diseases, including sports injuries, as well as in abdominal surgery, dentistry, ophthalmology, otolaryngology and other areas of medicine.

等离子体装置产生含一氧化氮空气-等离子体气流的临床应用综述
一氧化氮(NO)是一种由NO合成酶产生的气体分子,它调节了广泛的生理和病理生理过程。内源性NO信号系统在创面愈合的各个阶段起重要作用。1998年,来自鲍曼莫斯科国立技术大学和谢切诺夫第一莫斯科国立医科大学(谢切诺夫大学)的一个团队开发了等离子体装置。等离子体产生含NO的空气-等离子体流,从大气空气中产生,并允许向受影响区域施加所需剂量的NO。研究表明,外源性NO可穿透创面、完整皮肤、粘膜和角膜,具有广泛的应用前景。1992-2006年的实验和临床研究证明外源性no治疗对广泛化脓性伤口、营养性溃疡、糖尿病足综合征、软组织化脓性炎症性疾病和疤痕患者有益。方法Plason是迄今为止俄罗斯和欧洲唯一通过认证的从大气中产生高治疗意义浓度(500 - 1200ppm) NO的医疗器械。它在俄罗斯、乌克兰、白俄罗斯和斯洛伐克使用。其他空气等离子装置,“Tianox”(Sarov,俄罗斯)和“iNO pulse”(Bellerophon Inc.,美国)产生低浓度的NO (10-100 ppm),被发现对严重急性呼吸综合征有效,最近用于治疗COVID-19。本综述的目的是使全球医学界熟悉俄罗斯临床医生在no治疗方面的丰富经验。它涵盖了2006年以后在多个医学领域发表的no疗法研究。结果与结论等离子体装置适用于创伤、化脓性、创伤性、瘢痕性病变、关节疾病(包括运动损伤)以及腹部外科、牙科、眼科、耳鼻喉科等医学领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Clinical Plasma Medicine
Clinical Plasma Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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