Prevalence and Molecular Characterization of Antibiotic-Resistant Escherichia coli O157:H7 Isolated from Human and Poultry Faeces in the Federal Capital Territory, Nigeria
Authors
Directorate of Research and Analysis, Ministry of Foreign Affairs, Abuja (Nigeria)
Department of Veterinary Public Health and Preventive Medicine Faculty of Veterinary Medicine, University of Abuja (Nigeria)
Department of Veterinary Public Health and Preventive Medicine Faculty of Veterinary Medicine, University of Abuja (Nigeria)
Department of Veterinary Public Health and Preventive Medicine Faculty of Veterinary Medicine, University of Abuja (Nigeria)
Department of Veterinary Public Health and Preventive Medicine Faculty of Veterinary Medicine, University of Abuja (Nigeria)
Article Information
DOI: 10.51584/IJRIAS.2026.11030016
Subject Category: Chemistry
Volume/Issue: 11/3 | Page No: 155-165
Publication Timeline
Submitted: 2026-03-05
Accepted: 2026-03-11
Published: 2026-03-28
Abstract
This study accessed the prevalence and molecular characteristics of antibiotic-resistant Escherichia coli O157:H7 in humans and poultry within the Federal Capital Territory (FCT), Nigeria. A total prevalence of 9% was observed in humans, with 7.5% in Internally Displaced Persons (IDP) camps and 10.5% in hospitals, while poultry showed a prevalence of 0.8%. The isolates exhibited multiple antibiotic resistance, with 100% resistance to oxytetracycline in both human and poultry samples. Extended-Spectrum Beta-Lactamase (ESBL) enzymes were detected, and virulent genes including rfbE, eaeA, stx1, and stx2 were identified. Phylogenetic analysis revealed close genetic relationships between human and poultry isolates, suggesting possible cross-transmission and zoonotic potential. These findings highlight the urgent need for judicious antibiotic use, regular surveillance, and molecular monitoring to guide antimicrobial therapy and prevent outbreaks. The study underscores the importance of adopting a One Health approach to address antimicrobial resistance and safeguard public health.
Keywords
Escherichia coli O157:H7, Antibiotic resistance
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References
1. Abebe, E., Gugsa, G. and Ahmed, M. (2020). Review on Major Food‐borne Zoonotic Bacterial Pathogens. Journal of tropical medicine, 2020(1), 4674235. [Google Scholar] [Crossref]
2. Aminullah, N., Azizi, M. N., Bawer, M. D., Mahaq, O. and Ahmadi, M. (2025). Poultry Production in Afghanistan: Trends, Challenges, and Future Prospects. Journal of World Poultry. Research, 15(4), 478-489. [Google Scholar] [Crossref]
3. Ayuba Sr, D., Elizabeth, O. O., Olayinka, K. E., Fadele, K. P., Ogaya, J. B., Lucero-Prisno III, D. E. and Kouwenhoven, M. B. N. (2025). Food Security of the Staple Food in Africa: A focus on rice, maize (corn), millet, cassava, and yam. In Advances in Food Security and Sustainability (Vol. 10, pp. 113-153). Elsevier. [Google Scholar] [Crossref]
4. Azubuike, S. O., Muirhead, C., Hayes, L. and McNally, R. (2018). Rising Global Burden of Breast Cancer: The Case of sub-Saharan Africa (with emphasis on Nigeria) and Implications for Regional Development: A Review. World Journal of Surgical Oncology, 16(1), 63. [Google Scholar] [Crossref]
5. Bawa, K. N. (2025). Gbagyi Nation and Her Quest for National Identity and Recognition. Esut Journal of Social Sciences, 10(2). [Google Scholar] [Crossref]
6. Cohen, M. B. (2022). Bacterial, Viral, and Toxic Causes of Diarrhea, Gastroenteritis, and Anorectal Infections. Yamada's Textbook of Gastroenterology, 2947-3005. [Google Scholar] [Crossref]
7. Ekoh, P. C., Okoye, U. O., George, E. O., Chukwuemeka, E. and Agbawodikeizu, P. U. (2023). Resettlement of Internally Displaced Persons (IDPs) in Nigeria: The Housing Problems facing IDPs in Abuja Camps and the Risk of Homelessness and Secondary Displacement. Journal of Social Distress and Homelessness, 32(2), 263-271. [Google Scholar] [Crossref]
8. Fadipe, E. O. and Hölzle, L. E. (2025). Phylogenetic Analysis and Public Health Implications of Salmonella Strains in Southwestern States of Nigeria Using InvA Gene Sequences. Animals, 15(23), 3399. [Google Scholar] [Crossref]
9. Gambushe, S. M., Zishiri, O. T. and El Zowalaty, M. E. (2022). Review of Escherichia coli O157: H7 Prevalence, Pathogenicity, Heavy Metal and Antimicrobial Resistance, African Perspective. Infection and Drug Resistance, 4645-4673. [Google Scholar] [Crossref]
10. Grudlewska-Buda, K., Bauza-Kaszewska, J., Wiktorczyk-Kapischke, N., Budzyńska, A., Gospodarek-Komkowska, E. and Skowron, K. (2023). Antibiotic Resistance in Selected Emerging Bacterial Foodborne Pathogens, An issue of Concern? Antibiotics, 12(5), 880. [Google Scholar] [Crossref]
11. Hassan, A. O., Ojo, B. O. and Abdulrahman, A. O. (2021). Escherichia coli as a Global pathogen. Funksec here, 3(1), 239-260. [Google Scholar] [Crossref]
12. Ibilewa, D. (2018). Vegetation and Wetland Resources Mapping in Kuje Area Council, Federal Capital Territory (FCT), Abuja, Nigeria. Ethiopian Journal of Environmental Studies & Management, 11(3). [Google Scholar] [Crossref]
13. Ison, S. A. (2016). Antibiotic Resistant Escherichia coli and Salmonella enterica, and the Characterization of E. coli O26 recovered from Bovine Feces. [Google Scholar] [Crossref]
14. Joseph, A., Cointe, A., Mariani Kurkdjian, P., Rafat, C. and Hertig, A. (2020). Shiga toxin-associated hemolytic Uremic Syndrome: A Narrative Review. Toxins, 12(2), 67. [Google Scholar] [Crossref]
15. Joseph, A., Cointe, A., Mariani Kurkdjian, P., Rafat, C. and Hertig, A. (2020). Shiga toxin-associated Hemolytic Uremic Syndrome: A Narrative Review. Toxins, 12(2), 67. [Google Scholar] [Crossref]
16. Madu, A. O. (2023). Impact of Urban Flooding on parts of Bwari Area Council, Federal Capital Territory (FCT), Abuja, Nigeria (Doctoral Dissertation). [Google Scholar] [Crossref]
17. Meng, J., LeJeune, J. T., Zhao, T. and Doyle, M. P. (2012). Enterohemorrhagic Escherichia coli. Food microbiology: Fundamentals and Frontiers, 287-309. [Google Scholar] [Crossref]
18. Naidoo, N. and Zishiri, O. T. (2025). Presence, Pathogenicity, Antibiotic Resistance, and Virulence Factors of Escherichia coli: a review. Bacteria, 4(1), 16. [Google Scholar] [Crossref]
19. Riley, L. W. (2020). Distinguishing Pathovars from Nonpathovars: Escherichia coli. Microbiology spectrum, 8(4), 10-1128. [Google Scholar] [Crossref]
20. Sanni, A. O. (2024). Eco-Epidemiology and Microbiological Evaluation of Poultry Salmonellosis in North Central Nigeria, and its Socio-Economics and Public Health Impacts (Doctoral Dissertation, University of Pretoria (South Africa). [Google Scholar] [Crossref]
21. Tang, K. W. K., Millar, B. C. and Moore, J. E. (2023). Antimicrobial Resistance (AMR). British Journal of Biomedical Science, 80, 11387. [Google Scholar] [Crossref]
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