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Original Research

Bacterial profile of urinary tract infection and antimicrobial susceptibility pattern among pregnant women attending at Antenatal Clinic in Dil Chora Referral Hospital, Dire Dawa, Eastern Ethiopia

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Pages 251-260 | Published online: 18 Feb 2016

Abstract

Purpose

The aim of this study was to determine the bacterial profile of urinary tract infection (UTI) and antimicrobial susceptibility pattern among pregnant women attending at antenatal clinic in Dil Chora Referral Hospital, Dire Dawa, Eastern Ethiopia.

Patients and methods

An institutional-based cross-sectional study was conducted from February 18, 2015 to March 25, 2015. Clean-catch midstream urine specimens were collected from 186 pregnant women using sterile containers. Then, culture and antimicrobial susceptibility tests were performed by standard disk diffusion method. Patient information was obtained using pretested structured questionnaire. Data were entered and cleaned using EpiData Version 3 and then exported to Statistical Package for Social Science (Version 16) for further analysis.

Results

The prevalence of significant bacteriuria was 14%. Gram-negative bacteria were more prevalent (73%). Escherichia coli (34.6%), coagulase-negative staphylococci (19.2%), Pseudomonas aeruginosa (15.4%), and Klebsiella spp. (11.5%) were common bacterial isolates, where most of them were resistant against ampicillin, amoxicillin, tetracycline, trimethoprim–sulfamethoxazole, and chloramphenicol. Multidrug resistance (resistance in ≥2 drugs) was seen in 100% of the isolated bacteria. A majority of the bacterial isolates were sensitive to ciprofloxacin, ceftriaxone, erythromycin, and gentamicin.

Conclusion

This study found a number of bacterial isolates with very high resistance to the commonly prescribed drugs from pregnant women with and without symptoms of UTI. Therefore, the early routine detection of causative agents of UTI and determining their drug susceptibility pattern are important for pregnant women to avoid complications in mother and fetus. Ciprofloxacin, ceftriaxone, gentamicin, and erythromycin can be used with great care for the empirical treatment of UTI.

Introduction

Urinary tract infection (UTI) is the most common infection in women worldwide.Citation1 It can range from presence of bacteria in urine without symptoms (asymptomatic bacteriuria) to infections producing chiefly bladder symptoms (symptomatic UTIs).Citation2 It is a major health problem reported among 20% of the pregnant women and a common cause of admission in obstetrical wards.Citation3 It results in low birth weight fetus, intrauterine growth retardation, preterm labor and premature babies, intrauterine fetal death, and increased prenatal mortality and morbidity. Maternal complications include anemia, preeclampsia, renal failure, septicemia, and adult respiratory syndrome.Citation4Citation9

The prevalence of UTI during pregnancy that was reported varied. An overall prevalence of 20% from Saudi Arabia,Citation10 7.7% from India,Citation11 30% from Libya,Citation12 15.5% from Tanzania,Citation13 14% from Khartoum, Sudan,Citation14 and 75% from NigerCitation15 was reported, whereas in Ethiopia, the prevalence of 11.6% from Addis Ababa,Citation16 12% from Gondar,Citation17 and 9.5% from Bahir DarCitation18 was reported.

Different factors were identified likely to increase risk of UTI during pregnancy, including the history of UTI, sexual activity, history of catheterization, lower socioeconomic status, and multiparity.Citation9,Citation17,Citation19

Antibiotics were given for the treatment of UTI. However, the antibiotic susceptibility patterns of UTI vary according to regional and geographical locationsCitation10,Citation20Citation23 and also change through time.Citation24 The emergence of antibiotic resistance of UTIs is a serious public health issue, particularly in the developing world where apart from high level of poverty, ignorance, and poor hygienic practices, there is also a high prevalence of fake and spurious drugs of questionable quality in circulation.Citation25 Because of rapid increase and spread of mutant strains that are insusceptible to medical treatment, there is also a serious medical problem.Citation23

In many parts of Ethiopia, antibiotics have been widely used to empirically treat the clinically examined individuals with UTI. Thus, there might be an increasing incidence of microbial resistance to commonly used antibiotics for the treatment of UTI.Citation16Citation18,Citation26 Thus, knowing the magnitude of drug resistance is of critical importance as the changing rate of antibiotic resistance has a large impact on the empirical therapy of UTIs.Citation27

In Dil Chora Referral Hospital, Dire Dawa, routine culture and antibiotic susceptibility testing are not performed and the treatment is on empirical basis. This may lead to the overuse of antibiotics and development of resistant microbial species. However, there is no published information on the prevalence of bacterial profile of UTI and antimicrobial susceptibility pattern in Dire Dawa, Eastern Ethiopia. Therefore, this study tried to determine the bacterial profile of UTI and antimicrobial susceptibility pattern among pregnant women attending at antenatal clinic in Dil Chora Referral Hospital, Dire Dawa, Eastern Ethiopia.

Materials and methods

Study area, design, and period

Dire Dawa city administration is located 520 km away from East Addis Ababa, which is the capital city of Ethiopia. It has a total population of 342,827, of whom 171,930 are males. Approximately 67.9% of inhabitants are urban dwellers. It has 34 health posts, 31 private clinics, 16 health centers, and six hospitals (three private hospitals: one belongs to Ethio-Djibouti railway and two belong to the City Administration Health Bureau). The primary health coverage of the town is 100%.Citation28 A cross-sectional study was conducted at antenatal clinic of Dil Chora Referral Hospital, Dire Dawa, Eastern Ethiopia, from February 18, 2015 to March 25, 2015.

Sample size determination and sampling technique

A single population formula was used to calculate the sample size among pregnant women in the Gondar University Hospital, Ethiopia, by using the following parameters: 12% prevalence rate of UTI,Citation26 margin of error (d) of 0.05, (/2) of 95% confidence interval (CI) level, and 15% nonresponse rate. The final sample size was 186. A convenient sampling technique was used to enroll consecutive pregnant women attending antinatal care in the hospital during the study period.

Method of data collection

All pregnant women were interviewed face to face by trained physician using a pretested questionnaire adapted from the Tazebew et alCitation19 to collect the information about sociodemographic and clinical data related to UTI. After the completion of interview, each pregnant woman was sent to hospital laboratory with her request form. In the laboratory, instruction was given to them by trained medical laboratory professional about how to collect a clean-catch midstream urine specimen. From all the pregnant women, ~10–20 mL of urine specimen was collected by using sterile screw-capped, wide-mouth container.Citation29 The bottles were labeled with unique sample number, date, and time of collection, then immediately they were sent to bacteriology department for testing the culture and antimicrobial susceptibility.

Culture

The well-mixed and noncentrifuged urine samples were inoculated by a wire loop that can deliver 0.001 mL of urine specimen into 5% sheep blood agar, cysteine-lactose-electrolyte-deficient agar, and MacConkey agar plates (Oxoid Ltd, Basingstoke, UK) by using streak plate method following the standard microbiological procedures.Citation29,Citation30 Then, the plates were aerobically incubated at 37°C for 24 hours and examined for the presence or absence of the bacterial growth. Colonies were counted and checked for significant bacteriuria on blood agar. A culture that grew >105 colony-forming unit (CFU/mL) was considered significant bacteriuria. For cultures growing more than one bacterium, subculturing of individual distinct colonies was performed using a sterile wire loop to ensure pure cultures.Citation31 Asymptomatic bacteriuria was defined as the presence of >105 CFU/mL of urine, without the symptoms of an acute UTI.Citation29

All positive urine cultures showing significant bacteriuria were further tested for their physical characteristics such as colony morphology, odor, swarming, and the presence of hemolysis on their respective media. Then, it was confirmed by the pattern of biochemical reactions using the standard procedures.Citation29,Citation30 Thus, Gram-negative rods were identified with the help of a series of biochemical tests such as triple sugar iron agar, indole, simmons citrate agar, oxidase, urease, and motility.Citation29 Morphologically identical colonies of the suspected strains were taken from the agar plates and were suspended in nutrient broth and vortexed. Then, the suspensions were inoculated into the butt and slant of the biochemical testing media. The inoculated media were aerobically incubated at 37°C and after overnight incubation bacteria were identified following the standard flow chart. Gram-positive cocci were identified based on their Gram reaction in catalase and coagulase tests.Citation29,Citation30

Antimicrobial susceptibility testing

Antimicrobial susceptibility testing was performed for the bacterial isolates identified from urine cultures with significant bacteriuria using Kirby-Bauer disk diffusion methodCitation32 on Mueller-Hinton agar (Oxoid Ltd) according to the criteria set by the Clinical and Laboratory Standards Institute formerly known as the National Committee for Clinical Laboratory StandardsCitation33Citation35 to determine the susceptibility patterns of the commonly used antibiotics. The antibiotics disks were obtained from Oxoid Ltd in the following concentrations: ampicillin (AMP; 10 μg), ceftriaxone (CRO; 30 μg), chloramphenicol (C; 30 μg), amoxicillin (AMO; 20/10 μg), erythromycin (ERY; 15 μg), gentamicin (GEN; 10 μg), nalidixic acid (NA; 30 μg), nitrofurantoin (F; 300 μg), trimethoprim–sulfamethoxazole (SXT; 25/125 μg), ciprofloxacin (CIP; 5 g), and tetracycline (TTC; 30 μg). Of these, NA can be used only for Gram-negative bacteria, whereas ERY can be used only for Gram-positive bacteria; however, the rest of the antibiotics were used for both isolates. The procedure for antimicrobial susceptibility testing is as follows: Briefly 4–6 morphologically identical colonies of bacteria from pure cultures were collected with an inoculating loop and transferred into a tube containing 5 mL of nutrient broth, then mixed gently until a homogenous suspension was formed, and incubated at 37°C for 3–5 hours until the turbidity of the suspension becomes adjusted to the density of 0.5 McFarland standards, which yield a uniform suspension containing 105–106 cells/mL.Citation31

Using a sterile nontoxic dry cotton swab, sample of the standardized inoculums (turbidity was adjusted to obtain confluent growth) was taken and streaked on the entire surface of the dried Mueller–Hinton agar plate three times, turning the plate at 60° angle between each streaking to ensure even distribution. The inoculums were allowed to dry for 5–15 minutes with the lid in place. Using sterile forceps, the selected antibiotics disks were applied to the plates at a distance of 15 mm away from the edge and 24 mm apart from each other. After incubating the plates at 37°C for 24 hours, diameters of the zone of bacterial growth inhibition around the disks were measured to the nearest millimeter. The susceptibility or resistance to the agent in each disk was determined, and the isolates were classified as sensitive, intermediate, or resistant according to the standardized table.Citation34,Citation35

Data quality assurance

Detailed quality assurance procedures were used to keep the quality of data. Training was given to data collector. The collected data were checked for completeness at the end of each day of data collection. For culturing and biochemical tests, standard operating procedures and manufacturer’s instruction manual were strictly followed. The American Type Culture Collection (ATCC) reference strains such as Escherichia coli (ATCC-25922), Staphylococcus aureus (ATCC-25923), and Pseudomonas aeruginosa (ATCC-27853) were used as quality control parameters throughout the study for testing the culture and biochemical and antimicrobial susceptibility. All the standard strains were obtained from the Ethiopian Public Health Institute.

Data analysis

Data were first entered and cleaned using EpiData Version 3 and exported to Statistical Package for Social Science (Version 16) for further analysis. The proportion of bacterial causes of UTI was calculated by dividing the frequency of positive samples by the total number of samples examined. The proportion of bacterial resistant to a specific drug was calculated by dividing the frequency of resistant bacteria by the total number of bacterial isolates tested to a specific drug. Bivariate and multivariate analyses were performed to evaluate whether individual predictors of interest are associated with UTI. Only variables with P<0.05 at 95% CI in the bivariate analysis were considered for inclusion in the multivariate analysis. Variables with P<0.05 at 95% CI in the multivariate analysis were considered significantly associated with UTI.

Ethical consideration

Ethical clearance was obtained from the Institutional Health Research Ethics Review Committee, College of Health and Medical Science, Haramaya University. The objectives of the study were explained well to the head of the hospital and each pregnant woman. Signed consent was also obtained from the head of the hospital and all study participants. Information obtained during this study was kept confidential and used only for this study.

Results

Sociodemographic, obstetrics, and clinical characteristics

A total of 186 pregnant women were included in this study. The majority of the study participants were in the age range of 25–34 years (44.4%) and they mentioned married (92.5%) in their marital status, high school (9–12; 40.3%) in their educational status, and urban dwellers (90.9%) in their residence. Based on their parity, the majority (42.5%) of the study participants were multiparous. Approximately 44.6% of the study participants were in the third trimester of pregnancy. Approximately 26.9% and 29% of the study participants had the history of UTI and antibiotics use, respectively ().

Table 1 Sociodemographic, obstetric, and clinical variables of pregnant women attending at Dil Chora Referral Hospital, Dire Dawa, Ethiopia

Prevalence of UTI and types of bacterial isolates

In this study, 26 (14%) of the study participants have significant bacteriuria. The prevalence of bacteriuria among symptomatic and asymptomatic pregnant women was 15 (17%) and eleven (11.0%), respectively.

Seven different bacteria were isolated in this study. The majority of the isolates 19 (73.1%) were Gram-negative organisms. E. coli was found to be the most frequent isolate (34.6%), followed by coagulase-negative staphylococci (CONS) (19.2%), P. aeruginosa (15.4%), and Klebsiella spp. (11.5%; ).

Table 2 Frequency and types of bacterial species isolated from urine culture of symptomatic and asymptomatic pregnant women with UTI attending at Dil Chora Referral Hospital, Dire Dawa, Ethiopia (2015)

Associated risk factors of UTI

Higher prevalence of UTI was found in the age group of 25–34 years, the education status of read and write, history of UTI, family monthly income level ≤500 birr and income level 501–1,000 birr. Percentages of the bacterial isolates were 73.1%, 38.5%, 80.8%, 34.6%, and 50%, respectively. In multivariate analysis, the prevalence of UTI was significantly associated with those participants with the history of UTI (adjusted odds ratio [AOR] =10.8, 95% CI: 2.008–50.027), family monthly income ≤500 birr (AOR =11.50; 95% CI: 1.789–19.397) and 501–1,000 birr (AOR =15.454; 95% CI: 3.948–26.414), in the age groups of 25–34 years (AOR =5.57; 95% CI: 2.167–19.255), and with the read and write educational level (AOR =2.07; 95% CI: 1.008–9.187; ).

Table 3 Bivariate and multivariate analysis for the assessment of factors associated with UTI among pregnant women attending at Dil Chora Referral Hospital, Dire Dawa, Ethiopia (2015)

Antimicrobial susceptibility pattern

Gram-negative isolates showed a high level of sensitivity to CRO (94.7%), GEN (89.5%), and CIP (84.2%). Of these, E. coli in most clinical samples was highly sensitive to CRO (100%), GEN (100%), CIP (88.9%), SXT (88.9%), and C (77.8%). P. aeruginosa was sensitive to CRO (75%) and CIP (75%). But Gram-negative isolates showed a high-level resistance against AMP (89.5%), NA (52.6%), AMO (73.3%), and TTC (73.7%). However, it was relatively low resistant to SXT (36.8%), C (31.6%), and F (31.6%). E. coli was resistant to AMP (77.7%) and AMO (77.7%). P. aeruginosa was highly and fully resistant to AMP, SXT, C (75%), TTC (75%), F (75%), and NA (75%). Klebsiella species were fully (100%) resistant to AMP, AMO, and F, but they were 66.7% resistant to TTC, SXT, and C ().

Table 4 Antimicrobial susceptibility pattern of Gram-negative bacteria isolated from urine culture of pregnant women attending at Dil Chora Referral Hospital, Dire Dawa, Ethiopia (2015)

Gram-positive isolates were highly susceptible to GEN (100%), ERY (85.7%), CRO (71.4%), CIP (71.4%), and F (71.4%) and resistant to AMP (87.5%), TTC (57.1%), and SXT (71.4%), while the low level of resistance (<30%) was observed in the remainder of the antimicrobials tested (ERY, CRO, CIP, and F). CONS, which were the predominant isolates, were highly resistant to AMP (80%) and SXT (80%; ).

Table 5 Antimicrobial susceptibility pattern of Gram-positive bacteria isolated from urine culture of pregnant women attending at Dil Chora Referral Hospital, Dire Dawa, Ethiopia (2015)

Multidrug resistance (MDR = resistance in ≥2 drugs) was seen in 100% of the isolated bacterial uropathogens. MDR to two or more drugs was observed in all Gram-negative isolates () and in Gram-positive bacteria isolates (). Three bacterial isolates Klebsiella spp., P. aeruginosa, and S. aureus were highly resistant to most of the antibiotics tested.

Table 6 Multidrug resistance pattern of Gram-negative bacteria isolated from urine culture of pregnant women attending at Dil Chora Referral Hospital, Dire Dawa, Ethiopia (2015)

Table 7 Multidrug resistance pattern of Gram-positive bacteria isolated from urine culture of pregnant women attending at Dil Chora Referral Hospital, Dire Dawa, Ethiopia (2015)

Discussion

The overall prevalence of UTI was 14% in this study. This was similar to the prevalence of UTI reported from SudanCitation14 and Tanzania,Citation13 but it was lower than reported from Niger,Citation15 Libya,Citation12 and Saudi Arabia.Citation10 This finding was also relatively higher than the findings of a study performed in many parts of Ethiopia such as Addis Ababa,Citation16 Gondar,Citation17 and Bahir Dar.Citation18 This variation in prevalence might be due to the difference in sample size and geographical location.

The prevalence of UTI was 17% among pregnant women with the symptoms of UTIs. This was comparable with the previous studies conducted in Addis Ababa (20%)Citation16 and Tanzania (17.9%).Citation13 It was relatively higher than the study performed in Gondar, Ethiopia (10.2%),Citation17 Bahir Dar, Ethiopia (8.5%),Citation18 Khartoum, Sudan (12.1%),Citation14 and Makkah, Saudi Arabia (12%).Citation10 The difference might be due to the small number of symptomatic pregnant women included in the later studies.Citation10,Citation14,Citation17,Citation18 However, the prevalence of UTIs was 11% among pregnant women without the symptoms of UTIs. This was similar to the findings reported from Addis Ababa (10.6%)Citation16 and Tanzania (13%).Citation13 This was lower than the study findings from Gondar, Ethiopia (15.9%),Citation17 Bahir Dar, Ethiopia (18.9%),Citation18 and Khartoum, Sudan (14.7%).Citation14 The difference might be due to the large number of asymptomatic pregnant women included in the later studies.Citation14,Citation17,Citation18

The majority of ethological agents of UTIs in this study were Gram-negative bacteria. A similar finding was found from other studies in Ethiopia and abroad.Citation11,Citation14,Citation16Citation18 This could be due to the presence of unique structure in Gram-negative bacteria that help with the attachment to the uroepithelial cells and to prevent bacteria from urinary lavage, allowing for multiplication and tissue invasion resulting in invasive infection and pyelonephritis during pregnancy.Citation36

E. coli (34.6%) was found to be the most frequent bacterial isolate in this study, which is inline with other reports from different areas.Citation10,Citation14,Citation16,Citation26 However, it was lower than reported in the previous studies conducted in different countries, which was 47.5% in Gondar,Citation17 64.4% in Libya,Citation12 50% in Afikpo, Ebonyi State,Citation37 and 57.1% in Italy.Citation24 E. coli is the most common microorganism in the vaginal and rectal area. Anatomical and functional changes and difficulty of maintaining personal hygiene during pregnancy might increase the risk of acquiring UTI by E. coli.Citation38 The second most common isolate was CONS (19.2%), and the findings were also comparable with other studies conducted in Ethiopia, which was 16% in Addis Ababa,Citation16 22.5% in Gondar,Citation17 and 17.1% in Bahir Dar.Citation18

In this study, the prevalence of UTI was higher in the age groups of 25–34 years. Similar findings have been reported in different studies.Citation22,Citation37 This might be due to women in this age group being more sexually active which might predispose them to UTI. Low-income status was another factor that was related with high prevalence of UTI among pregnant women. A similar finding was reported in other studies on pregnant women.Citation9,Citation18 This could be due to the relation of low socioeconomic status with nutrition and immunity especially in pregnant women. In addition, those pregnant women with the past history of UTI were highly affected by UTIs. This was similar to other studies.Citation10,Citation17,Citation19 This might be due to the presence of resistance strains from those who had the previous history of UTI. However, gestational age, marital status, parity, and residence were not significantly associated with the prevalence of UTI in pregnant women. This was in agreement with studies conducted in Ethiopia,Citation17,Citation19 Sudan,Citation14 and Tanzania,Citation13 but it was not in agreement with a study conducted in Kenya and Nigeria, where the gestational age was significantly associated with the prevalence of UTI in pregnant women.Citation22,Citation39

Knowledge on antimicrobial susceptibility pattern of UTI pathogens was very important for clinician to select and use the best effective antimicrobial agent for the treatment of patient with UTI.Citation16,Citation40 In this study, CRO showed 94.7% sensitivity to Gram-negative bacteria isolates. The finding of this study was similar to the previous findings in Ethiopia, which was 96.3% in Gondar. The high sensitivity pattern for CRO might be due to the drug being less likely to be purchased without prescription in the study area. In this study, GEN had a sensitivity of 89.5%. This is in-line with the report of 87.7% in GondarCitation26 and in Addis Ababa it was slightly lower than reported, that is, 93.3%.Citation16 Ciprofloxacin had a sensitivity of 84.2% in this study. This was lower than 96.3% sensitivity report from Gondar.Citation17 On the other hand, Gram-negative isolates showed resistance against commonly prescribed drugs: AMP (89.5%), amoxicillin (73.7%), TTC (73.7%), NA (52.6%), and nitrofurantoin (57.9%). Similar findings have been reported from previous studies in EthiopiaCitation17,Citation18,Citation26 and Iran.Citation38 There was a high prevalence of UTIs reported among pregnant women who previously used antibiotics. This observed resistance to the abovementioned common antibiotics might be due to the earlier exposure of the isolates to these drugs. The abovementioned drugs are with low cost and often can be purchased without prescription in different areas. An irrational and unnecessary use of antibiotics can result in the emergence of bacterial strains that exhibit MDR.Citation41 Among the Gram-negatives, the predominant isolate was E. coli, which is resistant to AMP and AMO (77.8%); NA and F (44.4%); and TTC(66.7%). With the exception of F this was consistent with findings in other studies.Citation13,Citation17,Citation18,Citation42

Gram-positive bacteria were relatively susceptible to GEN (100%), CRO (71.4%), CIP (71.4%), and ERY (85.7%), which was also in agreement with the findings of other studies.Citation16Citation18 However, it is in contrast to the previous study that reported from India.Citation11

In this study, MDR was seen in 100% of the isolated bacteria. This was higher than the 95% MDR reported in the University of Gondar teaching hospital studyCitation18 and higher than the 74% MDR reported in the study from Tikur Anbessa Specialized Hospital Addis Ababa, Ethiopia.Citation16 This indicates that MDR was found to be very high in this study. Antibiotic resistance has been recognized as the consequence of repeated antibiotic use and abuse.Citation43 The reasons for this alarming phenomenon might be due to inappropriate and incorrect administration of antimicrobial agents in empiric therapies.

Conclusion

The overall prevalence of UTI was 14% among pregnant women. It was higher among pregnant women with symptoms than those without symptoms. E. coli (34.6%), CONS (19.2%), P. aeruginosa (15.4%), and Klebsiella spp. (11.5%) were common bacterial isolates. Low-income level, past history of UTI, educational status, and age of pregnant women with 25–34 years were highly likely to be affected by UTI. Gram-negative isolates showed a high level of sensitivity to CRO, GEN, and CIP. However, Gram-positive isolates were highly sensitive to GEN, ERY, CRO, CIP, and F. Most of the bacterial isolates are resistant against the available commonly used antibiotics such as AMP, AMO, TTC, SXT, and C. MDR was seen in 100% of the isolated bacteria. The majority of bacterial isolates were sensitive to CIP, CRO, ERY, and GEN. Therefore, the empirical antibiotic selection should be based on the knowledge of the local prevalence of bacterial organisms and antibiotic sensitivities rather than on universal guidelines. This study recommends that the early detection of causative agent of UTI and determining their drug susceptibility pattern in pregnant women will help to ensure adequate treatment of UTI and to prevent its further complication in mother and fetus. Health information dissemination about causes of UTI and drug use should be given to pregnant women. CIP, CRO, GEN, and ERY can be used for the empirical treatment of UTI when there is no facility of taking culture and drug susceptibility tests in their areas. However, it should be used with great care to reduce further emergence of drug resistance.

Author contributions

All authors contributed toward data analysis, drafting and critically revising the paper and agree to be accountable for all aspects of the work.

Acknowledgments

We are grateful to the study participants. The study was financially supported by the College of Health and Medical Sciences, Haramaya University, and Dire Dawa City Administration Health Bureau.

Disclosure

The authors report no conflicts of interest in this work.

References

  • DielubanzaEJSchaefferAJUrinary tract infections in womenMed Clin North Am2011951274121095409
  • ParkKInfectious diseaseParkKBhankotBPark’s Test Book of Preventive and Social Medicine18th edJabalpurBanarsidas Bhanot Publications2005311315
  • BacakSJCallaghanWMDietzPMCrouseCPregnancy-associated hospitalizations in the United StatesAm J Obstet Gynecol2005192259259715696008
  • NjokuCOEzissiNHAmandiANObservations on bacterial infection of urinary tract patientsInt J Environ Health Hum Dev1998132785791
  • ColganRNicolleLEMcgloneAAsymptomatic bacteriuria in adultsAm Fam Physician20067498599017002033
  • UllahMABarmanASiddiqueMAPrevalence of asymptomatic bacteriuria and its consequences in pregnancy in a rural community of BangladeshBangladesh Med Res Counc Bull200733606418481440
  • NandyPThakurARRayCSCharacterization of bacterial strains isolated through microbial profiling of urine samplesOn Line J Biol Sci200774451
  • MazorDELevyASchlaefferFScheinerEMaternal urinary tract infection, it is independently associated with adverse pregnancy out comeJ Matern Fetal Neonatal Med200922212412819085630
  • HaiderGZehraNAfroze MunirAHaiderARisk factors of urinary tract infection in pregnancyJ Pak Med Assoc20106021321620225781
  • HaniSFAhmedMAGhadaAAEAhmadKAAmrMMUrinary tract infections among pregnant women in Makkah, Saudi ArabiaBiomed Pharma J2013610107
  • ShaziaPSSharadaVRRamaRMVJanardhanRRUropathogens and their drug susceptibility patterns among pregnant women in a teaching hospitalAnn Biol Res201125516521
  • TamalliMBioprabhuSAlghazalMAUrinary tract infection during pregnancy at Al-khoms, LibyaInt J Med Med Sci201335455459
  • MasindeAGumodokaBKilonzoAMshanaSEPrevalence of urinary tract infection among pregnant women at Bugando medical center MwanzaTanzan J Health Res200911315416120734713
  • HamdanZHAbdelHMZSalahKAIshagAEpidemiology of urinary tract infections and antibiotics sensitivity among pregnant women at Khartoum North HospitalAnn Clin Microbiol Antimicrob201110221244660
  • AdabaraNUMomohJABalaJDAbdurrahmanAAAbu-BakrMBThe prevalence of bacterial urinary tract infections (UTI) among women attending antenatal clinic in the general hospital, Minna in Niger stateInt J Biomed Res2012303171173
  • AssefaAAsratDWoldeamanuelYG/HiwotYAbdellaAMeleseTBacterial profile and drug susceptibility pattern of urinary tract Infection in pregnant women at Tikur Anbessa hospitalEthiop Med J200846322723519271386
  • AlemuAMogesFShiferawYBacterial profile and drug susceptibility pattern of urinary tract infection in pregnant women at University of Gondar teaching hospital, in Northwest EthiopiaBMC Res Notes2012519722534117
  • TazebewDGetenetBSelabatMWondewsenTUrinary bacterial profile and antibiotic susceptibility pattern among pregnant women in Northwest EthiopiaEthiop J Health Sci201222212112822876076
  • TazebewEGetenetBWondewosenTSilabatMAssociated risk factors of urinary tract infection among pregnant women at Felege Hiwot referral hospital, Bahir Dar, Northwest EthiopiaBMC Res Notes2013629223885968
  • KibretMAberaBPrevalence and antibiogram of bacterial isolates from urinary tract infection at Dessie Health Research Laboratory, EthiopiaAsian Pac J Trop Biomed20144216416825182289
  • StammWENorrbySRUrinary tract infections: disease panorama and challengesJ Infect Dis20011831S1S411171002
  • Ade-OjoIOluyegeAAdegunPTAkintayoAAdulojuOOlofinbiyiBPrevalence and antimicrobial susceptibility of asymptomatic significant bacteriuria among new antenatal enrollees in Southwest NigeriaInt Res J Microbiol201348197203
  • El-AstalZBacterial pathogens and their antimicrobial susceptibility in Gaza Strip, PalestinePak J Med2005204365370
  • de FrancescoMAGuiseppeRLauraPRicardoNNinoMUrinary tract infection in Brescia, Italy: etiology of uropathogens and antimicrobial resistance of common uropathogensMed Sci Monit200713136144
  • AbubakarEMAntimicrobial susceptibility pattern of pathogenic bacteria causing urinary tract infections at the specialist hospital, Yola, Adamawa State, NigeriaJ Clin Med Res200911001008
  • FeredeGYismawGWondimenehYSisayZPrevalence of antimicrobial susceptibility pattern of bacterial UTI isolates from pregnant womenEur J Exp Biol20122514971505
  • TanejaNRaoPAroraJDograAOccurrence of ESBL and Amp-C beta-lactamases susceptibility to newer antimicrobial agents in complicated UTIInd J Med Res200812718588
  • Dire Dawa City Administration Annual Report of 2013/2014.
  • CheesebroughMDistrict Laboratory Practice in Tropical Countries Part II2nd edLondonCambridge University Press2006105114
  • BaronEJPetersonLRFinegoldSMBailey and Scott’s Diagnostic Microbiology9th edSt LouisMosby1994249257
  • ForbesBASahmDFWeissfeldASInfections of the Urinary Tract. In Bailey and Scott’s Diagnostic Microbiology11th edPhiladelphia, PAMosby2002927938
  • BauerAWKirbyWMMSherrisJCTurkMAntibiotic susceptibility testing by a standardized single disc methodAm J Clin Pathol1966454934965325707
  • National Committee for Clinical Laboratory Standards (NCCLS)Performance Standards of Antimicrobial Susceptibility. NCCLS Approved Standard M100-59Wayne, PANational Committee for Clinical Laboratory Standard2002
  • Clinical Laboratory Standard Institute (CLSI)Performance Standard for Antimicrobial Susceptibility Testing; Twentieth Informational Supplement CLSI Document M100-S2030Wayne, PAClinical and Laboratory Standards Institute20104851
  • Clinical Laboratory Standards Institute (CLSI)Performance Standards for Antimicrobial Susceptibility Testing; Twenty-Fourth Informational Supplement. CLSI Document M100-S2434Wayne, PAClinical and Laboratory Standards Institute20145057
  • AmiriFNRooshanMHAhmadyMHSoliamaniMJHygiene practices and sexual activity associated with urinary tract infection in pregnant womenEast Mediterr Health J200915105108
  • OnuohaSCFatokunKPrevalence and antimicrobial susceptibility pattern of urinary tract infection (UTI) among pregnant women in Afikpo, Ebonyi State, NigeriaAm J Life Sci2014224652
  • AliJMGholamrezaIAsymptomatic urinary tract infection in pregnant womenIran J Pathol200943105108
  • WamalwaPOmoloJMakokhaAPrevalence and risk factors for urinary tract infections among pregnant womenPrime J Soc Sci2013212524531
  • MohammadMMahdyZAOmarJMaanNJamilMALaboratory aspects of asymptomatic bacteriuria in pregnancySoutheast Asian J Trop Med Public Health20023357558012693594
  • WoldayDErgeWIncreased incidence of resistance to antimicrobials by urinary pathogens isolated at Tikur Anbessa HospitalEthiop Med J1997351271359577013
  • OkonkoIOIjandipeLAIlusanyaOAIncidence of urinary tract infection (UTI) among pregnant women in Ibadan, South-Western NigeriaAfr J Biotechnol2009866496657
  • AlbrichWCMonnetDLHarbarthSAntibiotic selection pressure and resistance in Streptococcus pneumoniae and Streptococcus pyogenesEmerg Infect Dis200438363371