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Detection of Salmonella in shawarma sandwiches sold in restaurants in Al Bayda, Libya, during the year 2023

DOI https://doi.org/10.55640/corr-v02i01-02
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Randa Mahmoud 1 , Abdulsalam Saleh 1 , Mousa S.M.Gaballah 1 ,
4 Department of Health food hygiene Omar AL Mukhtar University, AL Beida, Libya
4 Department of Health food hygiene Omar AL Mukhtar University, AL Beida, Libya
4 Department of Health food hygiene Omar AL Mukhtar University, AL Beida, Libya

Abstract

Background and aims. Through this study, 60 shawarma sandwiches collected that are regularly served to customers in Al-Bayda city restaurants, and from most of the 12 well-known restaurants in Al-Bayda city that specialize in selling shawarma, after the samples were transferred to the laboratory through designated, sterile boxes, their contamination with salmonella was then examined. Salmonella was isolated from some sandwiches taken from 5 different restaurants (8%), and E. coli bacteria was also isolated from some sandwiches. This gives us a clear and dangerous indicator and explains the spread of numerous cases of food poisoning, and that this type of food tends to become contaminated easily, especially in the absence of control. Health and health inspections and non-compliance with health procedures by restaurant workers. Through preliminary observation of all restaurants from which samples were taken, it was found that there were no health requirements. Therefore, we recommended taking strict measures by the competent authorities to preserve human health, especially with the spread of food poisoning diseases, and to ensure the safety of food consumers. Restaurants.

Keywords

Shawarma, Salmonella, Al-Bayda

References

📄 Bhaskar S. Foodborne diseases—disease burden. Food safety in the 21st century: Elsevier; 2017. p. 1-10.
📄 Hassanain NA, Hassanain MA, Ahmed WM, Shaapan RM, Barakat AM, El-Fadaly H. Public health importance of foodborne pathogens. World Journal of Medical Sciences. 2013;9(4):208-22.
📄 Cook GM, Greening C, Hards K, Berney M. Energetics of pathogenic bacteria and opportunities for drug development. Advances in microbial physiology. 2014;65:1-62.
📄 Chet I, Mitchell R. Ecological aspects of microbial chemotactic behavior. Annual review of microbiology. 1976;30(1):221-39.
📄 Zeng M, Inohara N, Nuñez G. Mechanisms of inflammation-driven bacterial dysbiosis in the gut. Mucosal immunology. 2017;10(1):18-26.
📄 Reniere ML. Reduce, induce, thrive: bacterial redox sensing during pathogenesis. Journal of bacteriology. 2018;200(17):10.1128/jb. 00128-18.
📄 Fàbrega A, Vila J. Salmonella enterica serovar Typhimurium skills to succeed in the host: virulence and regulation. Clinical microbiology reviews. 2013;26(2):308-41.
📄 Brown A. The Role of the ArcA Metabolic Regulator in Gram-Negative Bacteremia 2023.
📄 Hamad R, Saleh AA. Incidence of Some Food Poisoning Bacteria in Raw Meat Products with Molecular Detection of Salmonella in Al Beida City, Libya. Alexandria Journal for Veterinary Sciences. 2019;61(2).
📄 Aidara-Kane A, Angulo FJ, Conly JM, Minato Y, Silbergeld EK, McEwen SA, et al. World Health Organization (WHO) guidelines on use of medically important antimicrobials in food-producing animals. Antimicrobial Resistance & Infection Control. 2018;7:1-8.
📄 Mohammed KA, Hamad RM, Saleh A, Akwieten HE, Abd Alaziz MM. Assessment of Antibacterial Impact of Onion Powder on Escherichia coli contaminating broiler chicken cuts. Benha Veterinary Medical Journal. 2022;42(1):6-11.
📄 Zhanabayeva D, Paritova A, Murzakaeva G, Zhanabayev A, Kereev A, Asauova ZS, et al. Pcr diagnosis for the identification of the virulent gene of salmonella in poultry meat. 2021.
📄 Vico JP, Mainar-Jaime RC. The use of meat juice or blood serum for the diagnosis of Salmonella infection in pigs and its possible implications on Salmonella control programs. Journal of Veterinary Diagnostic Investigation. 2011;23(3):528-31.
📄 Rincón-Gamboa SM, Poutou-Piñales RA, Carrascal-Camacho AK. Antimicrobial resistance of Non-Typhoid Salmonella in meat and meat products. Foods. 2021;10(8):1731.
📄 Arunrut N, Kiatpathomchai W, Ananchaipattana C. Development and evaluation of real‐time loop mediated isothermal amplification assay for rapid and sensitive detection of Salmonella spp. in chicken meat products. Journal of Food Safety. 2018;38(6):e12564.
📄 Robinson R. Salmonella infection: Diagnosis and control. New Zealand Veterinary Journal. 1970;18(12):259-77.
📄 Vinayaka AC, Huynh VN, Quyen TL, Nguyen T, Golabi M, Madsen M, et al. Validation of point-of-care device for rapid detection of Salmonella enterica in meat products. Analytical Chemistry. 2023;95(34):12656-63.
📄 Kaushik P, Kumari S, Bharti SK, Dayal S. Isolation and prevalence of Salmonella from chicken meat and cattle milk collected from local markets of Patna, India. Veterinary World. 2014;7(2):62.
📄 El-Sharkawy H, Tahoun A, El-Gohary AE-GA, El-Abasy M, El-Khayat F, Gillespie T, et al. Epidemiological, molecular characterization and antibiotic resistance of Salmonella enterica serovars isolated from chicken farms in Egypt. Gut Pathogens. 2017;9:1-12.
📄 Zeynep Ş, ALTINTAŞ Ö, ATICI EG, Elitok Y, Selahattin Ş. Distribution of Salmonella serovars of animal origin in Türkiye between 2015 and 2020. Etlik Veteriner Mikrobiyoloji Dergisi.33(2):7-14.

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