Sporicidal Action of Pulsed Radiation of Hot Plasma.

IF 1.1 Q4 MEDICINE, RESEARCH & EXPERIMENTAL
I M Piskarev, I P Ivanova
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引用次数: 0

Abstract

Nitration is one of the main reaction mechanisms of long-living reactive species (oxygen and nitrogen products) formed under the action of pulsed radiation of hot plasma. The long lifetime of reactive species formed in a discharge zone (up to several days) enables them to penetrate deep into the objects covered with a protective coat. Spores are such objects. The aim of the investigation was to study sporicidal activity of hot plasma pulsed radiation of spark electric discharge by the analysis findings of active products formed in an aqueous L-tyrosine solution under the effect of the discharge.

Materials and methods: In the study, we used a Pilimin IR-10 spark discharge generator as a source of pulsed radiation of hot plasma; a corona discharge generator - as a source of cold plasma; a DKB-9 low-pressure mercury lamp - as a source of continuous radiation of UV band, wavelength of 253.7 nm. The samples were processed in Petri dishes, 40 mm in diameter, their volume being 4 and 10 cm3. The study used an L-tyrosine solution in distilled water (the concentration: 160 mg/L), a suspension of bacteria and spores of micromycetes (its concentration being ~106 cells per 1 ml). Tyrosine conversion products were identified spectrophotometrically before and after treatment. The biocidal and sporicidal effects were assessed by counting CFU (colony-forming units) after seeding incubation at 27-37°C.

Results: The oxidation of tyrosine by HO2 radicals was found to be impossible. Under 2 the action of nitrogen compounds, nitration proceeds with 3-nitrotyrosine formation. The nitration reaction is slow, taking about 100 h. A possible nitration mechanism is through the formation of the nitronium ion NO2+ in an acidic medium.The biocidal effect of hot plasma radiation turned out to be weaker than that of UV radiation of a DKB-9 lamp. This is due to the difference in their emission spectrum. The sporicidal effect of hot plasma radiation was more pronounced: a 10-fold decrease in the number of CFU was observed at radiation doses of 200-280 J. Under the action of UV radiation, at the same doses, the decrease in the number of CFU was from 3 to ~30%. The sporicidal effect of hot plasma radiation is due to the decay of a long-living …ONOOH/ONOO-… complex with the formation of a nitric oxide and a nitronium ion in an acidic medium.

Conclusion: The study showed the viability of spores under the action of pulsed radiation of hot plasma to decrease. While the light radiation of a UV lamp, under studied conditions, slightly penetrates the protective coating of a spore. The sporicidal effect of hot plasma radiation is due to the decay of a long-living …ONOOH/ONOO-… complex with the formation of a nitric oxide and a nitronium ion in an acidic medium. Nitration plays a decisive role in the sporicidal action of the hot plasma radiation of a spark discharge. The principle of the sporicidal effect of gas-discharge plasma radiation can be used to develop disinfecting devices.

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热等离子体脉冲辐射的杀菌作用。
硝化作用是热等离子体脉冲辐射作用下形成的长寿命活性物质(氧和氮产物)的主要反应机制之一。在放电区形成的活性物质寿命长(可达几天),使它们能够深入渗透到覆盖有保护层的物体中。孢子就是这样的物体。通过对l -酪氨酸水溶液在放电作用下形成的活性产物的分析,研究了热等离子体脉冲辐射火花放电的杀菌活性。材料与方法:采用匹利敏IR-10型火花放电发生器作为热等离子体脉冲辐射源;电晕放电发生器——作为冷等离子体的来源;一盏DKB-9型低压汞灯——作为光源连续辐射紫外波段,波长为253.7 nm。样品在直径40 mm的培养皿中处理,体积分别为4和10 cm3。本研究使用蒸馏水中的L-酪氨酸溶液(浓度为160 mg/L),细菌和微菌孢子悬浮液(浓度为每1 ml ~106个细胞)。用分光光度法测定处理前后酪氨酸转化产物。在27-37°C孵育后,通过计数菌落形成单位(CFU)来评估杀虫和杀孢效果。结果:发现酪氨酸不可能被HO2•自由基氧化。在氮化合物的作用下,硝化作用通过生成3-硝基酪氨酸进行。硝化反应缓慢,耗时约100 h。可能的硝化机理是通过在酸性介质中形成氮离子NO2+。热等离子体辐射的杀灭效果弱于DKB-9灯的紫外辐射。这是由于它们的发射光谱不同。热等离子体辐射的杀孢作用更为明显:在200 ~ 280 j的辐射剂量下,CFU的数量减少了10倍;在相同剂量下,紫外线辐射的CFU数量减少了3% ~30%。热等离子体辐射的杀孢作用是由于在酸性介质中,随着一氧化氮和氮离子的形成,长寿命的…ONOOH/ONOO-…复合物发生衰变。结论:在热等离子体脉冲辐射作用下,孢子活力下降。而紫外线灯的光辐射,在研究条件下,稍微穿透孢子的保护涂层。热等离子体辐射的杀孢作用是由于在酸性介质中,随着一氧化氮和氮离子的形成,长寿命的…ONOOH/ONOO-…复合物发生衰变。硝化作用在火花放电热等离子体辐射的杀菌作用中起决定性作用。利用气体放电等离子体辐射的杀菌作用原理,可以研制消毒装置。
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
Sovremennye Tehnologii v Medicine
Sovremennye Tehnologii v Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
1.80
自引率
0.00%
发文量
38
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