比较两种不同的等离子装置kINPen和Adtec SteriPlas对伤口愈合的分子和细胞作用

Q1 Medicine Clinical Plasma Medicine Pub Date : 2018-03-01 DOI:10.1016/j.cpme.2018.01.002
Stephanie Arndt , Anke Schmidt , Sigrid Karrer , Thomas von Woedtke
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引用次数: 47

摘要

在过去的几年里,血浆医学已经从一个不为人知和很少被接受的医学领域发展成为医学研究和临床治疗的一个组成部分。等离子体治疗在伤口愈合中的细胞机制已经得到了很好的研究,并且专门用于治疗伤口愈合障碍的等离子体来源已经可用。然而,用一个等离子体源获得的处理结果不能简单地转移到另一个等离子体装置。这种不可转移性的原因是由反应物质的“鸡尾酒”、辐射(首先是紫外线)、从等离子体流向人体的电流、工作气体的流动以及向被处理表面的热传递所引起的生物效应,这取决于等离子体产生技术。因此,为了避免产生毒性、诱变或其他破坏性作用,需要对每个等离子体装置的物理和生物医学性能参数进行综合评估,然后才能将其作为药品使用。目的比较体外和体内研究的伤口愈合中最重要的分子和细胞机制。方法本研究比较了两种获得ce认证的医疗器械IIa级的等离子体设备,kINPen®MED包括实验前代设备kINPen09和kINPen11(总结如下kINPen, plasma jet, neoplas and neoplas tools GmbH, Greifswald, Germany)和MicroPlaSter/Adtec SteriPlas(等离子体炬,Adtec plasma Technology/Adtec Europe, Hiroshima, Japan/Hunslow, UK)。结果kINPen和MicroPlaSter在光学和技术上都是完全不同的等离子装置。这两种设备在细胞效应方面几乎相当,如胶原蛋白表达,诱导伤口愈合相关细胞因子和生长因子,激活免疫细胞和其他保护机制,以及改善伤口愈合。这两种装置对细胞增殖和迁移的影响不同,可能是由于不同的治疗时间和方式,如等离子装置的不同作用机制,以及细胞来源。结论低温大气等离子体对创面愈合具有多种积极作用,kINPen和MicroPlaSter是两种具有大量可比基础研究的设备。
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Comparing two different plasma devices kINPen and Adtec SteriPlas regarding their molecular and cellular effects on wound healing

Background

Over the past years, plasma medicine has developed from an unknown and little accepted medical field into an integral part of medical research and subsequently of clinical treatment. The cellular mechanisms mediated by plasma treatment in wound healing are well investigated, and plasma sources specifically developed for treating wound healing disorders are already available. Nevertheless, the treatment results obtained with one plasma source cannot be simply transferred to another plasma device. The reason for this non-transferability is the biological effects caused by the ‘cocktail’ of reactive species, radiation (above all ultraviolet light), the electrical current flow from plasma to the body, the flow of working gas, and the heat transfer to the treated surface, depending on the plasma generation technology. Therefore, to avoid toxic, mutagenic, or otherwise damaging effects, the physical and biomedical performance parameters of each plasma device need to be comprehensively evaluated before the device can be used as a medicinal product.

Objective

This article compared the most important molecular and cellular mechanisms investigated in vitro and in vivo in the context of wound healing.

Methods

This study compared two plasma devices that are CE-certified medical devices class IIa, the kINPen®MED including the experimental predecessor devices kINPen09 and kINPen11 (summarized below under kINPen, plasma jet, neoplas and neoplas tools GmbH, Greifswald, Germany) and the MicroPlaSter/Adtec SteriPlas (plasma torch, Adtec Plasma Technology/Adtec Europe, Hiroshima, Japan/Hunslow, UK).

Results

The kINPen and the MicroPlaSter are ̶ both optically and technically ̶ completely different plasma devices. The two devices are almost comparable with regard to their cellular effects such as collagen expression, induction of wound healing-relevant cytokines and growth factors, activation of immune cells and other protective mechanisms, as well as improved wound healing. The two devices differ with regard to their effect on cell proliferation and migration, probably due to different treatment times and modalities such as different mechanisms of action of the plasma devices, as well as sources of the cells.

Conclusions

This comparative study showed that cold atmospheric plasma has several positive effects on wound healing and that kINPen and MicroPlaSter are two devices with substantial, comparable basic research.

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Clinical Plasma Medicine
Clinical Plasma Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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