Antibiofilm Efficacies of Direct and Remote Plasmas and Plasma-Treated Water on Extremophile Halomonas Caseinilytica

IF 4.6 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING IEEE Transactions on Radiation and Plasma Medical Sciences Pub Date : 2023-10-23 DOI:10.1109/TRPMS.2023.3326408
Tamer Akan;Ahmet Çabuk;Pınar Aytar Çelik;E. Serhat Yavaş;Çağrı Durmuş
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Abstract

In this study, three plasma treatments on biofilm forms of Halomonas caseinilytica (an extremophile organism) i.e., direct and remote nonthermal atmospheric pressure plasma (NTAPP), and plasma-treated water (PTW) were investigated. In contrast to the direct and the remote NTAPP methods, the distilled water (DW) was separately treated with the direct NTAPP, and then, the PTW was applied to the biofilm forms of H. caseinilytica. This indirect treatment method was compared to direct and remote NTAPP treatments. NTAPPs were also applied to the planktonic forms of H. caseinilytica. The petri dishes exposed both directly and remotely to NTAPPs displayed considerable inhibition zones for bacteria, indicating the plasma’s bactericidal effectiveness against planktonic H. caseinilytica. We found that the direct NTAPP exposure resulted in a four-log reduction in colony-forming unit (CFU) count after 15 s of treatment (complete inactivation time was 180 s) while remote NTAPP exposure resulted in a slightly larger than a two-log reduction in CFU count after 15 s of treatment (complete inactivation time was 300 s), against H. caseinilytica biofilms. When the H. caseinilytica biofilms were suspended in PTW, it took 300 s to achieve complete inactivation. Scanning electron microscopy (SEM) was used to investigate changes in the structure of the H. caseinilytica biofilms treated with direct and remote NTAPPs, and PTW.
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直接等离子体、远程等离子体和等离子体处理过的水对嗜极卤单胞菌的抗生物膜功效
本研究调查了三种等离子体对酪酸卤单胞菌(一种嗜极生物)生物膜形态的处理方法,即直接和远程非热大气压等离子体(NTAPP)以及等离子体处理水(PTW)。与直接和远程 NTAPP 方法不同的是,蒸馏水(DW)先用直接 NTAPP 单独处理,然后再用 PTW 处理酪蛋白水蚤的生物膜形式。这种间接处理方法与直接和远程 NTAPP 处理方法进行了比较。酪脂镰刀菌的浮游生物也使用了 NTAPP。直接和远程接触 NTAPPs 的培养皿都显示出相当大的细菌抑制区,这表明等离子体对浮游酪脂菌具有杀菌效果。我们发现,直接接触 NTAPP 15 秒(完全失活时间为 180 秒)后,菌落形成单位(CFU)数减少了 4 个对数值,而远程接触 NTAPP 15 秒(完全失活时间为 300 秒)后,针对酪脂菌生物膜的菌落形成单位(CFU)数减少了略多于 2 个对数值。当酪蛋白丝虫生物膜悬浮在 PTW 中时,需要 300 秒才能完全灭活。使用扫描电子显微镜(SEM)研究了经直接、远程 NTAPPs 和 PTW 处理的酪蛋白丝虫生物膜结构的变化。
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来源期刊
IEEE Transactions on Radiation and Plasma Medical Sciences
IEEE Transactions on Radiation and Plasma Medical Sciences RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
8.00
自引率
18.20%
发文量
109
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