Mohammed Ubaid Hussein scite author profile

Background: In the present study used device jet plasma needle with atmospheric pressure which generates non thermal plasma jet to measure treatment potent with plasma against pathogenic bacteria founded in UTI was inactivated with plasma at 10 sec, Objective:. This work included the application of the plasma produced from the system in the field of bacterial sterilization , where sample of Gram- negative bacteria (Escherichia coli) were exposed to intervals (1-10)second . Midstream Urine samples swabs were obtained from patients with urinary tract infections. Type of the study: Cross -sectional study. Methods: The work were used in this study obtained from studying 100 urine samples, the age of patients ranged between 10 years to 60 years. They were 60 females and 40 males. These samples were cultured on culture media to isolate bacterial colonies .After that, bacteria were identified by means of highly specific investigations Escherichia coli, plasma needle treatment is applied on bacteria through sterilization, and adhesion. Results : It was found that the percentage of the killing of Gram-negative bacteria (E.coli) was 100% at (10) second, also decreasing bacterial adhesion on epithelial cells, where numbers adhesion bacterial with uroepithelial cells decrease after treatment with plasma needle . Conclusion : From this work, it has been observed that applied voltage ,distance between plasma needle and treatment model as well as time treatment effect on inactivation bacteria and sterilization ,also it effect on decreasing bacterial adhesion on epithelial cells, where numbers adhesion bacterial with uroepithelial cells decrease after treatment with plasma needle .

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Effect of Atmospheric Non-Thermal Plasma on Adhesion Process of Pseudomonas Spp Bacteria

Khalaf¹,

Hussein²,

Al-Fahdawi³

2015

JNUS

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Ambient Decontamination by Non -Thermal Plasma in Atmospheric Pressure Air

Hussein

Mohsen

2018

J. Phys.: Conf. Ser.

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The effect of Dielectric Thickness on Dielectric Barrier Discharge properties at Atmospheric Pressure

Hussein¹,

Khalaf²

2015

ETJ

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Non-thermal atmospheric pressure plasma is new branch and tool in physics .Building generation dielectric barrier discharge (DBD) system at atmospheric pressure and studying of its thermal characterizations. The discharge was produced by applying high voltage (5-25 KV) and frequency (12 kHz). The thermal characterization was done by measuring discharge temperature at different applied voltage and different distances from barrier. The results indicate that the applied voltage and distance between electrodes effect on discharge (increasing or decreasing) according to operation conditions because they affects, as expected, the DBD plasma temperature decreases with the increasing of the dielectric thicknesses which results in the decrease of the discharge voltage across the gap, accordingly, the discharge across gap is also weakened.

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