Assessment of Microbial Quality, Antibiotic Resistance Pattern and Virulence Factors of Pathogens in Meat Samples Collected from Alappuzha Town, Kerala (India)

Authors

  • RAJALAKSHMI Raveendran Pillai Department of Biotechnology, St. Mary’s College for Women, Thiruvalla - 689101, Kerala State, India
  • Rajan RESHMA Department of Biotechnology and Research, K. V. M. College of Science and Technology, Kokkothamangalam P.O., Cherthala- 688527, Alappuzha District, Kerala State, India
  • Ramachandran Nair PRATAP CHANDRAN Department of Biotechnology and Research, K. V. M. College of Science and Technology, Kokkothamangalam P.O., Cherthala- 688527, Alappuzha District, Kerala State, India

DOI:

https://doi.org/10.48402/IMIST.PRSM/jasab-v7i2.57150

Keywords:

Antibiotic susceptibility, Blood agar, Hemolysis, MAR index, Vibrio cholerae

Abstract

This study in Alappuzha Town, Kerala, India, assesses the microbial quality of meat samples, antibiotic resistance, and the virulence of Vibrio species. It confirms the presence of harmful pathogens (Mycobacterium spp., Saccharomces spp., E. coli, V. parahaemolyticus, V. cholerae, V. vulnificus), emphasizing the critical need for stringent food quality controls and hygiene standards in meat production. Comprehensive biochemical tests further characterise the isolated Vibrio spp. Antibiotic sensitivity tests reveal varying resistance profiles among different Vibrio spp., with particular concern regarding the 100% resistance observed for Ampicillin and Metronidazole. Virulence assays uncover the pathogenic potential of Vibrio cholerae through enzymatic (lipase, protease, DNAse and toxin (hemolysin) production) activities, highlighting its impact on human body. This research underscores the importance of adhering to hygiene guidelines in food handling and the necessity for proper cooking practices to mitigate health risks, making a significant contribution to our understanding of food safety and public health in the context of meat consumption.

References

Hussain, A. O. (2018). Isolation and diagnosis of some pathogenic bacterial species contamination from red meat in shops and markets in Thi-Qar city. Journal of College of Education for Pure Science, 8(2), 226-236.

Farmer, J. J. III, Janda, J. M., Brenner, F. W., Cameron, D. N., & Birkhead, K. M. (2005). Genus 1. Vibrio Pacini 1854, 411AL. In D. J. Brenner, N. R. Krieg, & J. T. Staley (Eds.), Bergey’s manual of systematic bacteriology (2nd ed., Vol. 2, The Proteobacteria, part B: The Gammaproteobacteria, pp. 494–546). Springer.

Chandran, P. R., Kiran, K., DibuDivakaran, & Prajisha, P. K. (2011). Analysis of bacteriological quality of drinking water samples from Cherthala taluk, Kerala, India. Asian Journal of Water, Environment and Pollution, 8(4), 61-68.

Chandran, P. R. (2014). Harbouring of pathogenic microorganisms by aquatic weed, Eichhornia crassipes, in its rhizosphere. International Journal of ChemTech Research, 6(2), 1413-1417.

Drake, S. L., Depaola, A., & Jaykus, L. A. (2007). An overview of Vibrio vulnificus and Vibrio parahaemolyticus. Comprehensive Reviews in Food Science and Food Safety, 6, 120-144.

Jay, J. M., Loessner, M. J., & Golden, D. A. (2005). Foodborne gastroenteritis caused by Vibrio, Yersinia, and Campylobacter species. In Modern Food Microbiology (7th ed., pp. 657-664). Springer Science.

Oliver, J. D., & Kaper, J. B. (1997). Vibrio species. In M. P. Doyle et al. (Eds.), Food Microbiology: Fundamentals and Frontiers (pp. 228-264). ASM Press.

Thompson, F. L., Iida, T., & Swings, J. (2004). Biodiversity of Vibrios. Microbiology and Molecular Biology Reviews, 68, 403-431.

Adams, M. R., & Moss, M. O. (2008). Bacterial agents of food borne illness. In Food Microbiology (3rd ed., pp. 182-269). RSC.

Bernbom, N., Ng, Y. Y., Paludan-Müller, C., & Gram, L. (2009). Survival and growth of Salmonella and Vibrio in som-fak, a Thai low-salt garlic-containing fermented fish product. International Journal of Food Microbiology, 134(3), 223-229.

Thompson, F. L., & Swings, J. (2006). Taxonomy of the Vibrios. In F. L. Thompson, B. Austin, & J. Swings (Eds.), The Biology of Vibrios (pp. 29-43). ASM Press.

DePaola, A., Ulaszek, J., Kaysner, C. A., Tenge, B. J., Nordstrom, J. I., Wells, J., Puhr, N., & Gendel, S. M. (2003). Molecular, serological, and virulence characteristics of Vibrio parahaemolyticus isolated from environmental, food, and clinical sources in North America and Asia. Applied and Environmental Microbiology, 69, 3999-4005.

Gopinath, A., Chandran, P. R., Vysakhi, M. V., & Anu, S. (2012). Physical and bacteriological quality of well water samples from Kanakkary Panchayath, Kottayam District, Kerala State, India. International Journal of Plant, Animal, and Environmental Sciences, 2(3), 133-138.

Elhadi, N., Radu, S., Chen, C. H., & Nishibuchi, M. (2004). Prevalence of potentially pathogenic Vibrio species in the seafood marketed in Malaysia. Journal of Food Protection, 67(7), 1469-1475.

Mrityunjoy, A., Kaniz, F., Fahmida, J., Shanzida, J. S., Aftab, U. M., & Rashed, N. (2013). Prevalence of Vibrio cholerae in different food samples in the city of Dhaka, Bangladesh. International Food Research Journal, 20(2), 1017-1022.

Maaya, T., & Al-Abdullah, B. M. (2016). Sensory evaluation of different packaged roast beef treatments designed for the extension of its shelf life. Food and Nutrition Sciences, 7(11), 1052-1061.

Cappuccino, J. G., & Sherman, N. (2008). Microbiology: A Laboratory Manual. Pearson/Benjamin Cummings.

Arora, D. R. (2003). The Textbook of Microbiology. CBS Publisher.

National Committee for Clinical Laboratory Standards. (2000). Approved Standard: M2-A7. Performance Standards for Antimicrobial Susceptibility Testing (7th ed.). National Committee for Clinical Laboratory Standards.

Krumperman, P. H. (1983). Multiple antibiotic resistance indexing of Escherichia coli to identify high-risk sources of fecal contamination of foods. Applied Environmental Microbiology, 46(1), 165-170.

Prakasam, C., Siddharthan, E. P. N., & Hemalatha, N. (2017). Isolation, identification, enumeration, and antibiotic profiling of microbes from soil contaminated with hospital waste dumping. Journal of Pharmaceutical and Biological Sciences, 5(3), 126-133.

Suganthi, C., Mageswari, A., Karthikeyan, S., Anbalagan, M., Sivakumar, A., & Gothandam, K. M. (2013). Screening and optimization of protease production from a halotolerant Bacillus licheniformis isolated from saltern sediments. Journal of Genetic Engineering and Biotechnology, 11(1), 47-52.

Collee, J. G., Miles, R. S., & Watt, B. (1996). Tests for the identification of bacteria. In J. G. Collee, A. G. Fraser, B. P. Marmion, & A. Simmons (Eds.), Mackie and McCartney Practical Medical Microbiology (14th ed., pp. 131-152). Churchill Livingstone.

Selvabai, A. P., Banu, A. S. S., Jeya, M., & Shanmugam, P. (2017). Characterization of methicillin-resistant Staphylococcus aureus based on its virulence factors and antimicrobial susceptibility profile. Indian Journal of Microbiology Research, 4(1), 74-78.

Edberg, S. C., Gallo, P., & Kontnick, C. (1996). Analysis of the virulence characteristics of bacteria isolated from bottled, water cooler, and tap water. Microbial Ecology in Health and Disease, 9(2), 67-77.

Ottaviani, D., Leoni, F., Rocchegiani, E., Santarelli, S., Canonico, C., Masini, L., & Carraturo, A. (2008). First clinical report of pandemic Vibrio parahaemolyticus O3:K6 infection in Italy. Journal of Clinical Microbiology, 46(6), 2144-2145.

Roux, F. L., Wegner, K. M., Baker-Austin, C., Vezzulli, L., Osorio, C. R., Amaro, C., Huehn, S. (2015). The emergence of Vibrio pathogens in Europe: ecology, evolution, and pathogenesis. Frontiers in Microbiology, 6, 830.

Smiecinska, K. (2022). Changes in the sensory properties of beef stored under different modified atmospheres. Acta Scientiarum Polonorum Zootechnica, 20(4), 15-24.

Hikmawati, F., Susilowati, A., & Setyaningsih, R. (2019). Colony morphology and molecular identification of Vibrio spp. on green mussels (Perna viridis) in Yogyakarta, Indonesia tourism beach areas. Biodiversitas Journal of Biological Diversity, 20(10), 2891-2899.

Mitsuwan, W., Boripun, R., Saengsawang, P., Intongead, S., Boonplu, S., Chanpakdee, R., Morita, Y., Boonmar, S., Rojanakun, N., Suksriroj, N., Ruekaewma, C., & Tenitsara, T. (2025). Multidrug resistance, biofilm-forming ability, and molecular characterization of Vibrio species isolated from foods in Thailand. Antibiotics, 14(3), 235.

Bantawa, K., Rai, K., Subba Limbu, D., & Khanal, H. (2018). Food-borne bacterial pathogens in marketed raw meat of Dharan, eastern Nepal. BMC Research Notes, 11, 1-5.

Pandey, R., Sharma, S., & Sinha, K. K. (2023). Evidence of antibiotic resistance and virulence factors in environmental isolates of Vibrio species. Antibiotics, 12(6), 1062.

Shirvani, N. S. D., Raeisee, P., Motlagh, M. E., & Kabir, M. J. (2010). Evaluation of the performance of the referral system in family physician program in Iran University of Medical Sciences: 2009. Hakim Journal, 13(1), 19-25.

Okeke, I. N., Klugman, K. P., Bhutta, Z. A., Duse, A. G., Jenkins, P., O'Brien, T. F., Laxminarayan, R. (2005). Antimicrobial resistance in developing countries. Part II: strategies for containment. The Lancet Infectious Diseases, 5(9), 568-580.

Tenover, F. C. (2006). Mechanisms of antimicrobial resistance in bacteria. The American Journal of Medicine, 119(6), S3-S10.

Adesiyan, I. M., Bisi-Johnson, M. A., & Okoh, A. I. (2022). Incidence of antibiotic resistance genotypes of Vibrio species recovered from selected freshwaters in Southwest Nigeria. Scientific Reports, 12(1), 18912.

Adedeji, O. B., Okerentugba, P. O., Innocent-Adiele, H. C., Okonko, I. O., Ojeniyi, S. O., Adejoro, S. A., & Mohamed, S. A. (2012). Benefits, public health hazards, and risks associated with fish consumption. New York Science Journal, 5(9), 33-61.

Athira, T. S., Vijayan, B., Gopika, G., George, T., Sudhakaran, R., Franklin, N., & Chandran, P. R. (2019). Screening and identification of pathogenic microorganisms in backwaters of Alappuzha district, Kerala state, India. International Journal of Advanced Research in Biological Sciences, 6(4), 62-69.

Keen, E. F., Mende, K., Yun, H. C., Aldous, W. K., Wallum, T. E., Guymon, C. H., & Murray, C. K. (2012). Evaluation of potential environmental contamination sources for the presence of multidrug-resistant bacteria linked to wound infections in combat casualties. Infection Control & Hospital Epidemiology, 33(9), 905-911.

Edward, E. A., El Shehawy, M. R., Abouelfetouh, A., & Aboulmagd, E. (2023). Prevalence of different virulence factors and their association with antimicrobial resistance among Pseudomonas aeruginosa clinical isolates from Egypt. BMC Microbiology, 23(1), 1-13.

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Published

15-09-2025

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Vol. 7 No. 2 (2025): July - December

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