Microorganisms Associated with Prostatitis Using Indwelling Urinary Catheters in Okigwe, Imo State, Nigeria
International Journal of Microbiology and Biotechnology
Volume 3, Issue 3, September 2018, Pages: 83-88
Received: Jun. 2, 2018;
Accepted: Jun. 25, 2018;
Published: Dec. 17, 2018
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Ogwuegbu Happiness Odinakachi, Department of Microbiology, Abia State University, Uturu, Nigeria
Nwaugo Victor Oluohaegbulam, Department of Microbiology, Abia State University, Uturu, Nigeria
Uranta Diamond Magnus, Department of Microbiology, Federal Polytechnic Ukana, Akwa Ibom, Nigeria
Nwokorie Chukwuma Chigozie, Department of Microbiology, Abia State University, Uturu, Nigeria
Alaedu Augustina Ogochukwu, Department of Biochemistry, Anambra State University, Uli, Nigeria
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Indwelling urinary catheters are standard medical devices utilized in both hospital and nursing home settings to relieve urinary retention and urinary incontinence in a prostatitis patient. The microorganisms associated with prostatitis using urinary catheters was carried out in Okigwe, Imo State using culture technique. 200 patients were examined for prostate specific antigens (PSA) using quantitative and qualitative tests and antibiotic susceptibility tests were also done. Out of 200 patients tested for PSA, 119 (59.5%) and 129 (64.5%) were positive for quantitative and qualitative respectively. 85 patients were catheterized with 80 (94.15%) having bacterial isolates while 75 (65.5%) of the 115 uncatheterized patients having bacterial growth. The organisms isolated from catheterized and uncatheterized patients were Escherichia coli 55 (3.5%), Klebsiella spp 12 (7.8%), Staphylococcus aureus 42 (27.0%), Streptococcus 20 (12.9%), Protus spp 13 (8.4%) and Pseudomanas 13 (8.4%). Higher bacterial loads were observed in the catheterized patients urine than in the uncatheterized. Streptomycin, Ceftriaxone and Augumentine were the drugs of choice in the sensitivity tests while high antimicrobial resistant rates were observed with Ampiclox, Septrin and Chlorophenicol. Generally, high prevalence rate of PSA and bacterial pathogens were reported in patients of high age (50 and above years). This calls for proper medical checks for men of 50 years and above. This check will prevent the development of prostatitis which could lead to fertility problems because of difficulty in ejaculation in prostatitis patients.
Prostatitis, Urine, Catheter, Bacteria, Antibiotic Sensitivity
To cite this article
Ogwuegbu Happiness Odinakachi,
Nwaugo Victor Oluohaegbulam,
Uranta Diamond Magnus,
Nwokorie Chukwuma Chigozie,
Alaedu Augustina Ogochukwu,
Microorganisms Associated with Prostatitis Using Indwelling Urinary Catheters in Okigwe, Imo State, Nigeria, International Journal of Microbiology and Biotechnology.
Vol. 3, No. 3,
2018, pp. 83-88.
Copyright © 2018 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Cheng-Ching W. U., Hung Y. U., Chao-Ping W. S. and Li-Fen L. U. (2015). Evaluation of a rapid quantitative determination method of PSA concentration with gold immune chromagraphic strips. Journal of Bio-Medical central., 3:55-109.
Chessbrough, M. (2006). Distinct Laboratory Practice in Tropical Countries part 2 page 106-110.
Demilie T., Beyene G., Melaku S., and Tsegaye W. (2012). Urinalysis bacterial profile and antibiotic susceptibility pattern. Ethiopian Journal of Health Sciences., 22 (2): 121-128.
Harrison S. C., Lawrence M. R and Taylor J. (2011). British Associated of urological surgeon’s suprapubic catheter practice guideline.
Huang, W. C., Wann, S. R. and Lin, S. L. (2004). Catheter-associated urinary tract infections in intensive care units can be reduced by prompting physicians to remove unnecessary catheters. Infectious Control Hospital Epidemiology., 25:974–978.
Jacobsen S. M, Stricker D. J., Moble H. L. and Shiritiff M. E. (2008). Complication catheter- Associated Urinary Tract Infection Due to Escherichia coli and Protus mirabilis. Journal of clinical Microbiology Reviews; 21 (1): 26- 59.
Johnson J. R., Kuskowski M. A. and Wilt T. S. (2009). Systematic review: antimicrobial urinary catheters to prevent catheter - associated urinary tract infections in hospitalized patients. Animal of internal medicine., 146: 116-126.
Karishan A., Rajinknamth A., Chiran J., Waliul T. and Vaikuntam S. (2006). An unusual complication of suprapubic catheter insertion. Journal of clinical Microbiology Review; 11 (22): 33-45.
Pontari, M. A., Joyce, G. F., Wise, M. and Mc Naughton – Collins, M. (2007). Prostatitis. Journal of Urology., 177: 2050-2057.
Roger C. L., Feneley L. B. and Hopleypeter N. T. (2015). Urinary catheter history, current and research agenda. Journal of medical engineering Technology; 39 (8): 459-470.
Stam W. E. (2000). Catheter–associated urinary tract infections: epidemiology, pathogenesis and prevention. American Journal of Medicine., 91:1328-1334.
Tickel J. C, Narayan P and, McKay J, (2009) l. Treatment of chronic prostatitis/chronic pelvic pain syndrome with tamsulosin: A randomized double blind trial. Journal of Urology.; 123:1594.
Tachshel SA, Volpe M. A, (2004). A prospective, 1-year trial using saw palmetto versus finasteride in the treatment of category III prostatitis/chronic pelvic pain syndrome. Journal of Urology.; 171:284.
Veagy PY, Liong ML, and Yuen KH, (2013). Terazosin therapy for chronic prostatitis/chronic pelvic pain syndrome: A randomized, placebo controlled trial. Journal of Urology.; 169:592.
Vula O, Eroglu M, Ozok U (2006). Use of terazosin in patients with chronic pelvic pain syndrome and evaluation by prostatitis symptom score index. International journal of Urologyl Nephro.; 32:433–6.