Prevalence and risk factors of extended spectrum beta-lactamase producing bacteria among patients with lower respiratory tract infections in Benin City, Nigeria

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Ogefere Helen Oroboghae
Ibadin Ehidiamen Ephraim
Ehondor Tada Ogie

Résumé

Lower respiratory tract infection (LRTI) continues to be a major cause of rising morbidity and mortality rates in resource limited settings with drug resistance worsening treatment outcomes. This study was aimed at determining the prevalence and risk factors of extended spectrum beta-lactamase (ESBL) producing bacteria among patients with signs and symptoms of LRTI in Benin City, Nigeria. A total of 489 patients (non-repetitive) presenting with signs and symptoms of LRTI were recruited. Questionnaires were given and filled by participants. Sputum specimens were collected from these patients in sterile wide-mouth containers and sent to the Medical Microbiology Laboratory, University of Benin Teaching Hospital for microbiological analysis. Emergent colonies were identified and antimicrobial susceptibility tests carried out using British Society for Antimicrobial Chemotherapy (BSAC) guidelines. Gram negative rods were screened for ESBL using phenotypic method. ESBL showed high prevalence among Escherichia coli (57.1%) while its lowest prevalence was observed for Pseudomonas aeruginosa (7.1%). Klebsiella pneumoniae recovered from inpatients showed high likelihood of being ESBL positive (p = 0.0046). Bacterial strains recovered from inpatients were more likely to be ESBL producing and showed significant association in comparison with outpatients (OR = 3.567; 95%CI = 1.778, 7.153; p = 0.0005). ESBL producing bacteria showed a significant relationship with educational (p < 0.0001) and occupational status (p = 0.0135). Marked level of resistance was shown to antibiotics while the carbapenems showed the highest activity against isolates. The overall prevalence of ESBL producing bacteria was 26.5%. The study advocates caution in the use of carbapenems and harps on prudent use of antibiotics.

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Oroboghae, O. H. ., Ephraim, I. E. ., & Ogie, E. T. . (2018). Prevalence and risk factors of extended spectrum beta-lactamase producing bacteria among patients with lower respiratory tract infections in Benin City, Nigeria. Nigerian Journal of Pharmaceutical and Applied Science Research, 7(3), 1–6. Consulté à l’adresse http://mail.nijophasr.net/index.php/nijophasr/article/view/238
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Ogefere Helen Oroboghae

Department of Medical Laboratory Science, School of Basic Medical Sciences, University of Benin, Benin City.

Ibadin Ehidiamen Ephraim

*Department of Medical Laboratory Science, School of Basic Medical Sciences, University of Benin, Benin City.

**Medical Microbiology Unit, Medical Laboratory Services, University of Benin Teaching Hospital, Benin City.

Ehondor Tada Ogie

Department of Medicine, University of Benin Teaching Hospital, Benin City

Références

Abike TO, Olufunke OA, Temitope, OO (2018). Prevalence of extended spectrum ?-lactamases in multidrug resistant strains of Gram-negative bacteria. Afr J Microbiol Res 12(7): 147-151.

Akanbi MO, Ukoli CO, Erhabor GE, Akanbi FO, Gordon SB (2009). The burden of respiratory disease in Nigeria. Afr J Resp Med 4 (2): 10-17.

Andrew JM (2009). BSAC standardized disc susceptibility testing method (version3). J Antimicrob Chem 53: 713-728.

Barrow GI, Feltham RKA (2003). Cowan and Steel’s Manual for the Identification of Medical Bacteria.3rd ed. Cambridge pp 45-147: Cambridge University Press.

Falagas ME, Karageorgopoulos DE (2009). Extended-spectrum beta-lactamase-producing organisms. J Hosp Infect 73: 345 –354.

Horie H, Ito I, Konishi S, Yamamoto Y, Yamamoto Y, Uchida T, Yoshida Y (2018). Isolation of ESBL-producing Bacteria from Sputum in Community-acquired Pneumonia or Healthcare-associated Pneumonia Does Not Indicate the Need for Antibiotics with Activity against This Class. Intern Med 57(4): 487–495.

Ibadin, EE, Omoregie R, Igbarumah OI, Anogie NA, Ogefere, HO (2017). Prevalence of Extended spectrum ?-lactamase, AmpC ?-lactamase and metallo-?-lactamase among Gram negative bacilli recovered from clinical specimens in Benin City, Nigeria. Int J Enter Path 5(3): 85-91.

Khan S, Singh P, Ansari M, Gurung K (2014). Bacteria etiological agents causing lower respiratory tract infections in the western part of Nepal. Ibnosi J Med Biomed Sci 6(1):3-8.

Lawlor MS, Hsu J, Rick PD, Miller VL (2005). Identification of Klebsiella pneumonia virulence determinants using an intranasal infection model. Mol Microb 58 (4): 1054–1073.

Lee K, Lim YS, Yong D, Yum JH, Chong, Y (2003). Evaluation of Hodge test and the imipenem-EDTA double-disk synergy test for differentiating metallo-ß-lactamase producing isolates of Pseudomonas spp. and Acinetobacter spp. J Clin Microb 41: 4623-4629.

Livermore DM, Brown DF (2001). Detection of ?–lactamase–mediated resistance. J Antimicrob Chem 48 (1): 59 – 64.

Mishra SK, Kattel H, Pokhrel BM, Rijal BP (2015). High prevalence of Extended spectrum beta-lactamase producing bacterial pathogens in a Nepalese hospital. Ann Clin Chem Lab Med 1(2): 8-14.

Paterson DL, Bonomo RA (2005). Extended-spectrum ?-lactamases: a clinical update. Clin Microb Rev 18: 657-686.

Troeger C, Forouzanfar M, Rao PC, Khalil I, Brown A, Swartz S et al. (2017). Estimates of the global, regional, and national morbidity, mortality, and aetiologies of lower respiratory tract infections in 195 countries: a systematic analysis for the global burden of disease study 2015. Lancet Infect Dis. 17(11):1133-1161.

Vijay S, Dalela GV (2016). Prevalence of LRTI in patients presenting with productive cough and their antibiotic resistance pattern. J Clin Diag Res 10(1): 9-12.