HIGHLY EFFICIENTLY INACTIVATION OF MICROBIAL PATHOGENS USING ADVANCED OZONE GENERATOR UNIT AS AN ECO- FRIENDLY PROMISING STRATEGY
Khalifa, K., Barghoth, M., Desouky, S., Elsayed, H., Roushdy, M. (2022). HIGHLY EFFICIENTLY INACTIVATION OF MICROBIAL PATHOGENS USING ADVANCED OZONE GENERATOR UNIT AS AN ECO- FRIENDLY PROMISING STRATEGY. EKB Journal Management System, 66(2), 193-207. doi: 10.21608/ajps.2022.269252
Khalifa Ali Khalifa; Mohammed Barghoth; Said Desouky; Hanaa Elsayed; Mohamed Roushdy. "HIGHLY EFFICIENTLY INACTIVATION OF MICROBIAL PATHOGENS USING ADVANCED OZONE GENERATOR UNIT AS AN ECO- FRIENDLY PROMISING STRATEGY". EKB Journal Management System, 66, 2, 2022, 193-207. doi: 10.21608/ajps.2022.269252
Khalifa, K., Barghoth, M., Desouky, S., Elsayed, H., Roushdy, M. (2022). 'HIGHLY EFFICIENTLY INACTIVATION OF MICROBIAL PATHOGENS USING ADVANCED OZONE GENERATOR UNIT AS AN ECO- FRIENDLY PROMISING STRATEGY', EKB Journal Management System, 66(2), pp. 193-207. doi: 10.21608/ajps.2022.269252
Khalifa, K., Barghoth, M., Desouky, S., Elsayed, H., Roushdy, M. HIGHLY EFFICIENTLY INACTIVATION OF MICROBIAL PATHOGENS USING ADVANCED OZONE GENERATOR UNIT AS AN ECO- FRIENDLY PROMISING STRATEGY. EKB Journal Management System, 2022; 66(2): 193-207. doi: 10.21608/ajps.2022.269252

HIGHLY EFFICIENTLY INACTIVATION OF MICROBIAL PATHOGENS USING ADVANCED OZONE GENERATOR UNIT AS AN ECO- FRIENDLY PROMISING STRATEGY

Al-Azhar Journal of Pharmaceutical Sciences
Article 13, Volume 66, Issue 2, September and October 2022, Page 193-207  XML PDF (551.6 K)
Document Type: Original Article
DOI: 10.21608/ajps.2022.269252
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Authors
Khalifa Ali Khalifa email 1; Mohammed Barghoth2; Said Desouky2; Hanaa Elsayed3; Mohamed Roushdy2
1Microbiology and chemistry, Fuclty of science, Al-Asher
2Department of Botany and Microbiology, Faculty of Science (Boys), Al-Azhar University, 11884 Nasr, Cairo, Egypt.
3Department of Food Chemistry and Metabolism, National Nutrition Institute, 16 Elkaser Alainy St. Cairo, Egypt.
Abstract
Searching for an alternative disinfection and sanitization strategy to control and prevent the contamination and diseases caused by microbial pathogens represents one of the critical challenges for all world governments. So that the antimicrobial efficiency of ozone gas as a terminal disinfectant was estimated at a relatively small level (1.2 mg/l/h) using a unit that was generated as a local unit assembled at the faculty of science against six reference strains including Staphylococcus aureus (ATCC 6538), Bacillus subtilis (ATCC 9372), Bacillus spizizenii (ATCC 6633), Escherichia coli (ATCC 8739), Pseudomonas aeroginosa (ATCC 9027), and Candida albicans (ATCC 10231) for 10, 20, 30 and 40 minutes under laboratory conditions. After 10 min of ozone treatment, the log reduction of cell viability was 97.15%, 59.25%, 24.20%, 24.09%, 14.50 %, 13.47%, and 0.46% for P. aeroginosa, strains combination, E. coli, C. albicans, B. spizizenii, B. subtilis, and S. aureus, respectively. The twenty-minute exposure to ozone resulted in a reduction in microbial viability percent 98.17%, 82.88%, 69.63%, 62.79%, 49.43%, 29.57%, and 28.08%, for P. aeroginosa, strains combination, B. subtilis, and E. coli, C. albicans, S. aureus, and B. spizizenii, respectively. The efficacy of ozone for P. aeroginosa, E. coli, and strains combination increased by more than 98% after 30 min of ozone treatment followed by 90.41%, 86.76%, 52.63%, and 36.64% for B. subtilis, C. albicans, B. spizizenii, and S. aureus, respectively. The maximum ozone efficacy reached 100% for all reference stains except B. spizizenii (62.10%) after 40 min of ozone treatment making this strategy a candidate tool recommended for the management and control of the pathogenic microorganisms.
Keywords
Ozone treatment; Microbial elimination; S. aureus; B. subtilis; B.spizizenii; E. coli; P. aeroginosa; C. albicans
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