Surface treatment with non-thermal humid argon plasma as a treatment for allergic contact dermatitis in a mouse model

Q1 Medicine Clinical Plasma Medicine Pub Date : 2018-12-01 DOI:10.1016/j.cpme.2018.09.002
Xiong Qing , Wang Xia , Yin Rui , Xiong Lin , Chen Qiang , Zheng Meng-Xue , Xu Le , Huang Qing-Hua , Michael R Hamblin
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引用次数: 8

Abstract

Purpose

Cold plasma generated at atmospheric pressure has attracted intense interest in biomedical applications. However, studies of cold plasma in dermatology, and as a possible therapy for non-infectious skin diseases, including burn and wound healing, psoriasis, and allergic contact dermatitis (ACD) etc., are still quite scarce. The present study reports the treatment of ACD in vivo, using a non-thermal humid plasma source in a mouse model and shows the latter could be a potential alternative approach for therapy of ACD and other inflammatory skin diseases.

Methods

The model of ACD on the mouse back was induced by a solution of DNFB and treated by argon plasma containing small amounts of either N2, O2, or H2O. The developments of ACD regions were photographed and histopathological analysis by H&E-staining was performed.

Results

The best effect was obtained using humid plasma (H2O addition), where the ACD symptoms decreased after one or two 1-min plasma treatments. Even for severe ACD with ulcers and crust formation, the humid plasma-treated mice recovered faster than the control group.

Conclusions

The therapeutic ability of the humid argon plasma discharge was proposed to be induced by reactive oxygen species (HxOy) transported from the discharge zone, which are adhesive and accumulate on the skin surface, penetrating the subcutis to eliminate inflammation. However, in treatments using plasma with addition of oxygen or nitrogen (without water) the active gaseous species are blocked due to poor adhesion to and penetration into the dry ACD skin, with correspondingly poor treatment effects. The enhanced in vivo healing in ACD mice indicate the non-thermal humid plasma could be a potential alternative approach for therapy of ACD and other inflammatory skin diseases.

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非热湿氩等离子体表面处理对小鼠模型过敏性接触性皮炎的治疗作用
目的常压下产生的低温等离子体在生物医学领域的应用引起了人们的极大兴趣。然而,冷等离子体在皮肤病学中的研究,以及作为非感染性皮肤病(包括烧伤和伤口愈合、牛皮癣和过敏性接触性皮炎(ACD)等)的可能治疗方法的研究仍然很少。本研究报道了在小鼠模型中使用非热湿等离子体源在体内治疗ACD,并表明后者可能是治疗ACD和其他炎症性皮肤病的潜在替代方法。方法用DNFB溶液诱导小鼠背部ACD模型,用含少量N2、O2或H2O的氩等离子体处理。拍摄ACD区域的发展情况,并用H& e染色进行组织病理学分析。结果湿血浆(加水)治疗效果最佳,1 ~ 2次1 min血浆治疗后ACD症状减轻。即使对于严重的ACD伴有溃疡和结痂,接受湿润血浆治疗的小鼠也比对照组恢复得更快。结论湿氩气等离子体放电的治疗能力是由放电区输送的活性氧(HxOy)引起的,这些活性氧具有黏附性并积聚在皮肤表面,穿透皮下消除炎症。然而,在使用添加氧气或氮气(不含水)的等离子体进行治疗时,由于活性气态物质与干燥的ACD皮肤的粘附性和渗透性较差,因此治疗效果较差。ACD小鼠体内愈合的增强表明,非热湿血浆可能是治疗ACD和其他炎症性皮肤病的潜在替代方法。
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Clinical Plasma Medicine
Clinical Plasma Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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