Journal of Microorganism Control
Online ISSN : 2758-6391
Print ISSN : 2758-6383
Volume 28, Issue 2
Displaying 1-4 of 4 articles from this issue
Original
  • YOSHINORI NISHIKI, TATSUYA IMAZU, KATSUHIKO NAKAMURO, HIROTAKA NAITOU, ...
    2023 Volume 28 Issue 2 Pages 43-48
    Published: 2023
    Released on J-STAGE: July 03, 2023
    JOURNAL FREE ACCESS

    Abstract: The comparison of the inactivation rate of SARS-CoV-2 by ozone in water with that in gas, based on data from references and experiments, has indicated the inactivation rate of the former is remarkably higher than that of the latter. To investigate the reason for this difference, we analyzed the reaction rate using a diffusional reaction model, in which ozone is carried by micro spherical viruses to inactivate the target viruses. Using this model, we can evaluate the amount of ozone required to inactivate a virus based on the ct value. We found that inactivation in gas phase requires 1014–1015 ozone molecules per virus virion, while the inactivation in aqueous phase requires 5×1010 to 5×1011 ozone molecules. This implies that the efficiency in gas phase is 200–20,000 times lower than that in aqueous phase. This is not attributed to the lower probability of collision in gas phase than in aqueous phase. Rather, it may be due to the fact that the ozone and radicals generated by ozone react and subsequently dissipate. We proposed the diffusion of ozone into a spherical virus at a steady state and the decomposition reaction model through radicals.

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Original
  • TATSUYA NAKAYAMA, SHIORI YAMAMOTO, NATSUKI OHATA, TAKAHIRO YAMAGUCH ...
    2023 Volume 28 Issue 2 Pages 49-56
    Published: 2023
    Released on J-STAGE: July 03, 2023
    JOURNAL FREE ACCESS

    Abstract: The transmission of potentially life-threatening plasmid-mediated antibiotic-resistant bacteria poses a major threat to public health. This study aimed to determine the presence of commonly observed plasmids encoding plasmid-mediated antibiotic-resistance genes in Salmonella and Escherichia coli isolates from fishery products. Eighty river fishes were purchased from retail stores and supermarkets in Vietnam. Only Salmonella-positive fishes were used for antibiotic-resistant E. coli isolation. Salmonella serotyping was performed using Salmonella antisera. Isolated bacterial DNA was extracted, and antibiotic susceptibility, resistance genes, and replicon typing were determined. Our results showed that Salmonella was isolated from 12.5% (10/80) of the river fishes. Cefotaxime-resistant Salmonella was isolated from 3.8% (3/80) of the fishes and colistin-resistant Salmonella from 1.3% (1/80) . Salmonella serotyping revealed Potsdam, Schwarzengrund, Bardo/Newport, Give, Infantis, Kentucky, and Typhimurium. Multiplex polymerase chain reaction revealed the presence of extended-spectrum β-lactamase-related genes blaCTX-M-55 and blaCTX-M-65 and the colistin resistance gene mcr-1. To date, no study has reported an antibiotic-resistance plasmid present in multiple bacteria collected from the same food. Thus, horizontal transmission of antibiotic-resistance plasmids may occur at the food level.

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Original
  • TO H. NGOC, DANG T. H. OANH, LE T. M. DUYEN, TRAN T. T. XUAN, HOA ...
    2023 Volume 28 Issue 2 Pages 57-64
    Published: 2023
    Released on J-STAGE: July 03, 2023
    JOURNAL FREE ACCESS

    Abstract: Bacillary necrosis of pangasius (BNP) is a disease caused by Edwardsiella ictaluri bacteria in striped catfish Pangasianodon hypophthalmus that results in high mortality rates. To control this disease, bacteriophages have been considered as alternatives to antibiotics. In this study, we applied the lytic bacteriophage PVN06 in striped catfish fingerlings to prevent E. ictaluri infection. In an experimental trial, the phage was administered to fish by feeding phage-coated feed with doses of 7.17±0.09, 8.17±0.09 and 9.17±0.09 log PFU/g feed per day before bacterial infection. Fish were infected by bacteria once with concentrations ranging from 3.01 to 7.01 log CFU/ml tank water. A day after infection, phage treatment resumed at a rate of once per day until the end of the trial. The results of the trial show that bacterial infection caused typical symptoms of BNP in fish with the cumulative fish death rate of 36.7±2.9 to 75.0±5.0%, depending on the bacterial concentration used for infection. Phage treatment with 9.17±0.09 log PFU/g significantly reduced the mortality rate, while treatments with 8.17±0.09 and 7.17±0.09 log PFU/g did not. This phage dose resulted in a 61.7-fold reduction in the toxicity of the bacterial pathogen and the survival rate of 15–23.3% in fish. Our study has demonstrated that the bacteriophage PVN06 protected striped catfish from BNP.

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Note
  • TETSUYOSHI YAMADA, TAKASHI MURAMATSU, TATSUYA KIRIYAMA, SATOSHI FU ...
    2023 Volume 28 Issue 2 Pages 65-68
    Published: 2023
    Released on J-STAGE: July 03, 2023
    JOURNAL FREE ACCESS

    Abstract: The concentration of the indoor gaseous hypochlorous acid (HOCl (g)) varied significantly during disinfection. The kinetics of self-decomposition of HOCl (g) was studied at temperatures within the range of 10℃ to 40℃ and relative humidity between 30% RH and 90% RH in a lab-scale confined polyvinylidene fluoride gas bag space. The decay curve of HOCl (g) , obtained by plotting the logarithm of the HOCl (g) concentration against time, was analyzed using an integrated model that showed two simultaneous first-order processes. One process was assumed to be the adsorption of HOCl (g) onto the gas bag surface, whereas the other was the self-decomposition of HOCl (g) in the gas space. The decay curve is reduced to the sum of two independent and simultaneous first-order processes. The decay rate constant for self-decomposition depended on temperature and relative humidity. The half-life time of HOCl (g) was estimated to be between 76.9 h and 116 h depending on the temperature and relative humidity conditions.

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