Autofluorescence-Guided Removal of Bacterial Biofilms From Tissues Using Cold Atmospheric Pressure Plasma (CAP)

IF 4.6 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Michael O. Okebiorun;Cody Oberbeck;Cameron Waite;Samuel Clark;Zahraa Alomar;Dalton Miller;Ken Cornell;Jim Browning
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Abstract

Cold atmospheric pressure plasma (CAP) has the potential to completely remove biofilms from surfaces. The goal of this study is to employ the autofluorescence nature of bacterial biofilms to guide the removal of these biofilms using a CAP scalpel. Pseudomonas fluorescens biofilms, which produce a green fluorescence under 405-nm UV light, were grown on 12 chicken samples. The tissue model (chicken tissue) is placed on a motorized $X$ $Y$ stage with the plasma discharge device directly above the sample. Fluorescent-guided CAP treatment of biofilm regions was carried out using a 1.37-lpm Ar/H2O plasma device with $39.5\times 54\,\,{\mathrm{ mm}}^{2}$ dimension and a $1\times 0.6\,\,{\mathrm{ mm}}^{2}$ plasma discharge outlet with discharge speed was 1 mm/s and sample distance of 4 mm. The discharge voltage and current were 3.24 kV and 1.2 mA, respectively. Results based on analysis of the fluorescent images show that 97% biofilm removal; colony-forming unit analysis confirms that up to 99.98% of the bacteria are now absent from the tissue’s surface. This is the first instance of two new applications: 1) using CAP to remove bacterial biofilms from soft tissues and 2) employing CAP in an image-guided procedure.
利用冷常压等离子体 (CAP) 在自发荧光引导下清除组织中的细菌生物膜
冷大气压等离子体 (CAP) 有可能彻底清除表面的生物膜。本研究的目的是利用细菌生物膜的自发荧光特性,指导使用 CAP 手术刀清除这些生物膜。荧光假单胞菌生物膜在 405 纳米紫外光下会产生绿色荧光,该生物膜生长在 12 个鸡肉样本上。组织模型(鸡组织)被放置在电动 X$ - Y$ 平台上,等离子放电装置位于样品正上方。使用 1.37-lpm Ar/H2O 等离子体设备对生物膜区域进行荧光引导的 CAP 处理,该设备的尺寸为 39.5 次方 54 英寸,等离子体放电出口为 1 次方 0.6 英寸,放电速度为 1 mm/s,样品距离为 4 mm。放电电压和电流分别为 3.24 kV 和 1.2 mA。根据荧光图像分析得出的结果显示,生物膜去除率达 97%;菌落形成单位分析证实,组织表面的细菌去除率高达 99.98%。这是两种新应用的首个实例:1)使用 CAP 清除软组织中的细菌生物膜;2)在图像引导程序中使用 CAP。
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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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