Surveillance for Antibiogram Pattern of Nosocomial Bacteria from two Selected Hospitals in Kano State, Nigeria
DOI:
https://doi.org/10.47430/ujmr.2162.017Keywords:
S. aureus,, Risk-factor,, Surveillance,, Resistance,, AntimicrobialAbstract
In a bid to determine the level of antimicrobial resistance among bacterial pathogens feared to be nosocomially transmitted in some hospitals, Firstly, patients of HCAI was identified and followed-up accordingly with standardized questionnaire in the hospitals. Sample were collected for bacteriological assay using Culture and biochemical methods for the investigation of bacteria associated with nosocomial, Antibiogram pattern was assessed by Disk diffusion as to mark the resistant ones and presence of gene encoding for mecA and blaZ with the aid of PCR. At AKTH, A total of 63% of isolates were Gram-positive while 37% were Gram-negative bacteria. S. aureus were the most common isolates with frequency of 37%. Most of all the Gram-positive isolates were resistant to cefuroxime (30μg) and Amoxicillin (10μg) while they shown high sensitivity to other antibiotics tested against them. Only 18% of S. aureus are suspected MRSA. Most of Gram-negative isolates were found to be resistant to amoxicillin (10μg) 100%, gentamicin (10μg) 71% and chloramphenicol (30μg) 57%. At MMSH, 86% of the isolates were Gram-positive while 14% were Gram-negative bacteria. S. aureus, 42% were the most common isolates. All the isolates were resistance to cefuroxime and Amoxicillin (10μg) while they showed sensitivity to other tested antibiotics. while most shows sensitivity to other tested antibiotics. Only 24% of S. aureus were MRSA. 63% of the tested MRSA were mecA positive while 100% were blaZ positive. The high rates of resistome of isolates represent a substantial threat to the public where well-structured and continuous surveillance system for antimicrobial resistance is needed to encourage the monitoring of antimicrobial therapy.
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References
Anderson DI and Hughes D. (2010) ."Antibiotic Resistance and its cost: is it possible to reverse resistance?" National Review of Microbiology 8.4: 260-271.
https://doi.org/10.1038/nrmicro2319
Alkali,B., Agwu, E., Sarkintada, F., Idris, A.M and Takalmawa, H.U (2019). "Bacteria Agents Associated with Health care Associated infections in some selected TertiaryHospiatls of Kano Metropolis, North-west Nigeria". Nigerian Journal of Microbiology.33(1):4626-4632.
Anzaku., A.A., Alagi, M., Upla, P., Godwin, O., Owoseni, M., Dauda, O., Juliet, A., Temitope, OandUchenna, O (2018). "Surveillance of Antimicrobial Resistance in Emerging and Reemerging Infectious Diseases in Nigeria". EC Microbiology, 14.9: 567-577.
Clinical and laboratory standards institute (CLSI). (2014). "Performance Standards for Antimicrobial Susceptibility Testing; Twenty-fourth Informational Supplement. MO2-A11, M07-A9 and M11-A8. CLSI 950, west valley Road,suite 2500 Wayne, PA,19087 USA.
Clinical and laboratory standards institute (CLSI). (2021) "performance standards for Antimicrobial susceptibility testing", CLSI, Wayne, PA,USA.
Mgiorakos,A.,srinivasan,A,Carey,R,Carmeli,y,Falagas,M.jGiske,C.andHarbarth, J. (2012 )"Multidrug resistant, extensively drug-resistant and pandrug-resistant bacteria; an international expert proposal for interim standard definitions for acquired resistance" Chemical Microbiology and Infection,vol.18,no.3,268-281.
https://doi.org/10.1111/j.1469-0691.2011.03570.x
NNIS System. (2011). "CDC National Nosocomial Infections Surveillance (NNIS) system report, data summary from January 1992-April 2001, issued August 2001". Am J. Infect. Control; 29: 404-421.
https://doi.org/10.1067/mic.2001.119952
Okesola, A.O and Oni, A.A. (2009). "Antimicrobial Resistance among Common Bacterial Pathogens in South Western Nigeria". American-Eurasian Journal of Agricultural and Environmental Science 5.3: 327-330.
Poumajaf, F.A., Ardebili, A., Goudarzi, L., Khodabandeh, M., Narimani, T and Abbaszadeh, H (2014). "PCR-based identification of methicillin-resistant Staphylococcus aureus strains and their antibiotic resitance profiles". Asian pacific journal of Tropical biomedicine. Doi 10.12980/APJB.4.2014c423.
https://doi.org/10.12980/APJTB.4.2014C423
Sahu, M.C., Dubey, D., Rath, S., Debata, N.K and Padhy, R.N (2012). "Multidrug resitance of Pseudomonas aeruginosa as known from surveillance of nosocomial and community infections in an Indian teaching hospital". J. Public health. 20:413-423.
https://doi.org/10.1007/s10389-011-0479-2
Sevillano, E., Valderrey,C., Canduela, M.J., Umaran, A., Calvo, F and Gallego, L (2006). "Resistance to antibiotics in clinical isolates of Pseudomonas aeruginosa". Pathol. Biol. 54:493-497.
https://doi.org/10.1016/j.patbio.2006.07.030
Stenhem, M., Ortqvist, A., Ringberg, H., Larsson, L., Olsson Liljequist, B and Haeggman, S. (2010). "Imported methicillin-resistant Staphylococcus aureus, Sweden". Emerg Infect Dis; 16(2): 189-196.
https://doi.org/10.3201/eid1602.081655
Tolera, M., Abate, D,. Dheresa, M and Marami, D. (2018) "Bacteria Nosocomial Infections and Antimicrobial susceptibility Pattern among patients admitted at Hiwotfana Specialised University Hospital, Eastern Ethiopea". Advance in Medicine Vol. 18 Article 702127847.
https://doi.org/10.1155/2018/2127814
Vernet, G., Mary, C., Altmann, D. M., Dounmbo, O., Morpeth, S., Bhutta, Z.A and Klugman, K. P (2014) "Survaliance for Antimivrobial Drug Resistance in Under Resources Country. Emerging Infectional Diseases". www.cds.gov/eid. vol. 20, 3.
https://doi.org/10.3201/EID2003.121157
Kouchak, F and Askarian, M (2012). "Nosocomila infection: the definition criteria" Irranian Journal of medical science, vol. 37, no 2, 72-73
Cairns, S., Reilly, J and Stewart, S. (2011). "The prevalence of health care associated infections in older people in acute care hospitals". Infection Control Hospital Epidemiology; 32(8):763-767.
https://doi.org/10.1086/660871
Morgan, M.D and John, H. (2016). "Healthcare-Associated infections in the Elderly: what's New". Current Opinion in Infectious Disease; 29(4):388-393.
https://doi.org/10.1097/QCO.0000000000000283
Smith, W.P., Bennett, G and Bradley, S (2008). "Shea/Apic Guideline: Infection prevention and control in the long-term care facility". Infection Control Hospitals Epidemiolgy; 29(09):785-814.
https://doi.org/10.1086/592416
Hudzicki, J (2009). "Kirby-Bauer Disk Diffusion susceptibility test protocol". American society for Microbiology. 1-23.
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