Sex- and age-specific trends in antibiotic resistance patterns of Escherichia coli urinary isolates from outpatients.

BACKGROUND: Urinary tract infections (UTIs) are one of the most common infections treated in ambulatory care settings, however the epidemiology differs by age and sex. The incidence of UTI is far greater in females than males, and infection in pediatric patients is more often due to anatomical abnormalities. The purpose of this research was to describe age- and sex-specific trends in antibiotic susceptibility to common urinary anti-infectives among urinary isolates of Escherichia coli from ambulatory primary care patients in a regional health maintenance organization.
METHODS: Clinical microbiology data were collected for all urine cultures from patients with visits to primary care clinics in a regional health maintenance organization between 2005 and 2010. The first positive culture for E. coli tested for antibiotic susceptibilities per patient per year was included in the analysis dataset. The frequency of susceptibility to ampicillin, amoxicillin-clavulanate, ciprofloxacin, nitrofurantoin, and trimethoprim/sulfamethoxazole (TMP/SMX) was calculated for male and female patients. The Cochrane-Mantel-Haenzel test was used to test for differences in age-stratified susceptibility to each antibiotic between males and females.
RESULTS: A total of 43,493 E. coli isolates from 34,539 unique patients were identified for study inclusion. After stratifying by age, E. coli susceptibility to ampicillin, amoxicillin-clavulanate, ciprofloxacin, and nitrofurantoin differed significantly between males and females. However, the magnitude of the differences was less than 10% for all strata except amoxicillin-clavulanate susceptibility in E. coli isolated from males age 18-64 compared to females of the same age.
CONCLUSIONS: We did not observe clinically meaningful differences in antibiotic susceptibility to common urinary anti-infectives among E. coli isolated from males versus females. These data suggest that male sex alone should not be used as an indication for empiric use of second-line broad-spectrum antibiotic agents for the treatment of UTIs.

Introduction

Urinary tract infections (UTIs) are one of the most commonly treated bacterial infections and account for over 10 million ambulatory care visits annually in the United States [1]. Antibiotic treatment is typically selected empirically, based on the patient clinical presentation, medical history and local patterns of antibiotic susceptibility [2]. Because the incidence of UTIs is significantly greater among women, much of the research has focused on women. Thus there exists a paucity of research on UTIs in men. As such, guidelines on the diagnosis, treatment, and management of UTIs focus largely on infection in women [2-5].

The incidence, presentation, and course of infection for UTIs in men and women differ in large part due to anatomical differences. For the treatment of acute uncomplicated cystitis in women, trimethoprim/sulfamethoxazole (TMP/SMX), nitrofurantoin, fosfomycin, and pivmecillinam are recommended first-line empiric therapies [2,6]. In men, because prostate involvement occurs in roughly 90% of cases, an empiric agent should be selected that achieves therapeutic concentrations in prostatic tissues (e.g., trimethoprim or ciprofloxacin) [7,8].

While historically it was believed that the causative organism in UTIs differed between men and women, more recent data has shown that for both sexes the primary causative pathogen is Escherichia coli, which accounts for 75-90% of UTIs [8,9]. With the increases in antibiotic resistance among E. coli and other Enterobacteriaceae over the past several decades, surveillance data have become critical for appropriate empiric selection of antibiotic therapy. U.S. guidelines specify that TMP/SMX should be avoided for empiric treatment of uncomplicated acute cystitis or pyelonephritis in populations where non-susceptibility to this agent exceeds 20% in uropathogens [2].

While some surveillance studies have identified significant differences in the frequency of susceptibility to common urinary anti-infectives between isolates collected from male and female patients, this has not been consistently observed [10,11]. The objective of this study was to describe age- and sex-specific antibiotic susceptibility patterns for common urinary anti-infectives among E. coli urine isolates using six years of data from a large ambulatory primary care patient population.

Methods

Study design and patient population

We conducted a cross-sectional study of urinary E. coli isolates from outpatients of Kaiser Permanente Northwest (KPNW) primary care clinics. KPNW is a regional health maintenance organization that serves over 485,000 members in northwest Oregon and southwest Washington. Primary care clinics were defined as non-specialty care clinics within the Family Practice, Internal Medicine, or Pediatrics departments; all primary care clinics were included. Urine cultures positive for E. coli that were drawn from patients with visits in the primary care clinics between January 1, 2005 and December 31, 2010 were eligible for inclusion in the analysis. Cultures in which less than 10,000 colonies/mL were identified or 3 or more organisms were isolated were excluded. The analysis dataset was then limited to the first isolate tested for antibiotic susceptibilities per patient and year to minimize potential bias resulting from repeat culturing [12].

Data collection

Data were electronically extracted from the virtual data warehouse maintained by the Kaiser Permanente Center for Health Research. Collected data included patient demographics, department in which the clinic visit occurred, and all clinical microbiology data for urine cultures. Approval for this study was obtained from the KPNW institutional review board.

Data analysis

The frequency of susceptibility to ampicillin, amoxicillin-clavulanate, ciprofloxacin, nitrofurantoin, and trimethoprim/sulfamethoxazole (TMP/SMX) was calculated for E. coli isolates stratified by patient sex and year. The Cochrane-Armitage test for trend was used to identify changes in the frequency of susceptibility to each antibiotic over time independently among males and females. Patient age at the time of culture was categorized as less than 18 years, 18–64 years, and 65 years and older. The frequency of susceptibility to each antibiotic was also compared across age categories among males and females using the Cochran-Mantel-Haenszel test. An alpha level less than or equal to 0.05 was the statistical significance level for all analyses and data were analyzed with SAS (version 9.2, SAS Corporation). Clinically significant differences were defined as differences of 10% or greater.

Results

Description of study sample

During the study time frame 190,396 urine cultures were performed at primary care clinic visits; 70,180 were positive for E. coli and 57,550 of those were tested for antibiotic susceptibilities. After restricting the data to the first isolate per patient per year, 43,493 isolates from 34,539 unique patients remained in the final analysis data set. Table 1 describes the demographics of these patients. Of the included isolates, 2,520 (5.8%) were from male patients.

Table 1

Patient characteristics based on first isolate from urine specimen in KPNW outpatients 2005-2010

Characteristic	n = 34539
Mean age (SD)	47.0 (22.4)
Female	32265	(93.4)
Ethnicity
Hispanic	1067	(3.1)
Non-Hispanic	16984	(49.2)
Unknown/missing	16488	(47.7)
Race
White	20974	(60.7)
Black	377	(1.1)
Native American/Alaskan Native	108	(0.3)
Asian	1411	(4.1)
Pacific Islander/Hawaiian	46	(0.1)
Other	767	(2.2)
Unknown	10856	(31.4)

aData are No. (%) unless otherwise indicated.

Antibiotic susceptibility of urinary Escherichia coli isolates by patient sex

Overall, 66.0% (1,664/2,520) of E. coli isolated from males and 66.3% (27,175/40,971) from females were susceptible to ampicillin. Amoxicillin-clavulanate susceptibility was 56.9% (484/850) among males and 67.3% (9,291/13,798) among females; however, it should be noted that testing for susceptibility to amoxicillin-clavulanate was routinely performed and reported only for ampicillin non-susceptible E. coli. Ciprofloxacin susceptibility for the E. coli isolates was 93.2% (2,292/2,458) among males and 95.9% (37,900/39,524) among females, and nitrofurantoin susceptibility was 96.4% (2,430/2,520) among males and 97.6% (39,979/40,968) among females. For TMP/SMX, 86.3% (2,176/2,520) of E. coli isolated from males were susceptible compared to 84.7% (34,674/40,958) among females.

Trends in antibiotic susceptibility of urinary Escherichia coli isolates over time

Figure 1 presents the susceptibility of E. coli to each antibiotic by sex and year. Susceptibility to amoxicillin-clavulanate and TMP/SMX decreased significantly over time among both males and females. Ciprofloxacin susceptibility also decreased significantly over time among females, but not males. Table 2 presents the age stratified antibiotic susceptibilities for E. coli isolated from males and females. The age-specific susceptibilities differed significantly between males and females for all antibiotics except TMP/SMX.

Figure 1

Susceptibility to urinary anti-Infectives by sex and year for cultured from urine. For all figures, males shown as blue solid line, females as red dashed line. a, ampicillin susceptibility (test for trend: males, p=0.058; females, p=0.6256); b, amoxicillin clavulanate susceptibility (test for trend: males, p=0.0006; females, p<0.0001); c, ciprofloxacin susceptibility (test for trend: males, p=0.1445; females, p<0.0001); d, nitrofurantoin susceptibility (test for trend: males, p=0.4967; females, p=0.5508); e, trimethoprim/sulfamethoxazole susceptibility (test for trend: males, p=0.0004; females, p<0.0001).

Table 2

Susceptibility to urinary anti-infectives by sex and age for cultured from urine*

	Age (years)			CMH
	<18	18-64	>64	p-value
Ampicillin				<0.0001
Male	104 (58.8)	852 (68.5)	708 (64.4)
Female	2564 (62.6)	16988 (65.4)	7623 (69.9)
Amoxicillin clavulanate				<0.0001
Male	45 (64.3)	214 (55.6)	225 (57.0)
Female	1113 (73.1)	6040 (67.5)	2138 (64.2)
Ciprofloxacin				<0.0001
Male	112 (97.4)	1201 (96.5)	979 (89.1)
Female	2613 (98.4)	25161 (96.9)	10126 (92.8)
Nitrofurantoin				<0.0001
Male	174 (98.3)	1214 (97.6)	1042 (94.8)
Female	4023 (98.2)	25413 (97.9)	10543 (96.6)
Trimethoprim/Sulfamethoxazole				0.3888
Male	147 (83.1)	1090 (87.6)	939 (85.4)
Female	3479 (84.9)	21909 (84.4)	9286 (85.1)

*Represents the first isolate for each patient and year.

CMH: Cochrane Maentel Haenszel correlation test.

Discussion

In this study, we observed statistically significant differences between males and females in the age-specific susceptibilities of E. coli to ampicillin, amoxicillin-clavulanate, ciprofloxacin, and nitrofurantoin. Urinary E. coli isolates from male patients tended to exhibit increased antibiotic resistance than isolates from female patients. Despite the statistical significance of time trends and differences in age-specific susceptibilities, the magnitude of these differences was generally less than 5% and thus may not represent clinically meaningful differences. The exception was susceptibility to amoxicillin-clavulanate, where susceptibility was roughly 10% lower in males age 18 to 64 years than females in the same age group. Yet these differences should be interpreted cautiously because susceptibility to amoxicillin-clavulanate was only provided for ampicillin non-susceptible E. coli isolates in the current analysis. If all ampicillin susceptible isolates are assumed to be amoxicillin-clavulanate susceptible, then the magnitude of the differences between males and females would be less than 5% in all age categories (difference not statistically significant).

While few other studies have explored the differences in antibiotic susceptibility of uropathogens isolated from male and female ambulatory patients, our findings are consistent with the trends observed in the literature. A recent 10-year study of community UTI in Portuguese patients also identified differences in antibiotic susceptibility by patient sex. The authors reported that urinary isolates of E. coli were significantly more resistant to fluoroquinolones, penicillins, nitrofurantoin, and first and second generation cephalosporins among men compared to women [13]. Another study focused on pediatric patients, also identified significantly higher resistance to TMP/SMX and ciprofloxacin in male versus female patients [14]. The NAUTICA surveillance study of outpatient UTIs reported greater antibiotic resistance to ciprofloxacin, levofloxacin, and TMP/SMX among all urinary isolates from U.S. and Canadian male patients [15]. In the CANWARD study, antibiotic susceptibility among all E. coli isolates (not limited to urine isolates) collected from Canadian tertiary medical centers were compared and resistance was also observed to be significantly higher to ciprofloxacin, levofloxacin, and TMP/SMX in isolates collected from male patients versus female patients [11].

The prevalence and susceptibilities of antibiotic-resistant bacteria varies widely by geographic region, thus these data may not be generalizable to all regions. Local surveillance data of antibiotic susceptibilities would be needed to validate these findings in different patient populations. It should be noted that in our study resistance to TMP/SMX did not exceed 20%, as it does in many other regions of the U.S., thus in this patient setting TMP/SMX may be a viable empiric treatment option in both males and female patients. Additionally, antibiotic susceptibilities may differ by other patient or infection characteristics (e.g., type of UTI). These data were not available for analysis in this study and further investigation in this area is needed. Also, because clinical signs and symptoms of infection were not available and because not all suspected infections are cultured, the use of all urinary microbiology from this population cultures may not represent all true infections.

Currently there exists insufficient data to inform the development of evidence-based guidelines for the treatment of community UTIs in men. UTIs in adult males are considered complicated infections according to most clinical definitions [16-18]. Treatment recommendations vary from longer durations of therapy to the selection of broad-spectrum agents such as fluoroquinolones [6]. These recommendations are driven by the high proportion of UTIs in men with prostate involvement and concerns surrounding antibiotic resistance to TMP/SMX [7,8]. Previous research among Swiss outpatients has demonstrated the selection of fluoroquinolones versus TMP/SMX for the treatment of UTI is often influenced by nonclinical factors [19]. In this study, TMP/SMX, a recommended first-line agent for UTIs in both children and adults, the differences in susceptibility between E. coli isolated from males and females were neither statistically nor clinically significant and resistance rates are below 20%. Consequently, in this population, there is no evidence that male sex alone should be an indication for empiric selection of a second-line broad-spectrum antibiotic agent for the treatment of UTI. While more research is needed on treatment effectiveness of different regimens used to treat community UTIs in men, population-specific antibiotic susceptibility data are a necessary component in the empiric antibiotic selection process.

Conclusions

In the era of increasing antibiotic resistance, prudent use of antibiotics is critical to prolong the clinical effectiveness of existing agents. Excessive use of broad-spectrum agents, such as fluoroquinolones, increases the evolutionary selective pressures that drive the increasing prevalence of resistance. These data suggest that first-line urinary anti-infectives such as TMP/SMX may be effective agents for treating UTIs in men. While more data are needed, clinicians should use local surveillance data to guide the prudent, empiric selection of antibiotic therapy for UTIs.

Abbreviations

UTI: Urinary Tract Infection; KPNW: Kaiser Permanente Northwest; TMP/SMX: trimethoprim/sulfamethoxazole

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

JCM participated in the conception and design of the study; the acquisition, statistical analysis, and interpretation of the data; and the drafting of the manuscript. JCM, MRE, DTB, and DHS assisted with the interpretation of the data and participated in the critical revision of the manuscript. All authors read and approved the final manuscript.

Pre-publication history

The pre-publication history for this paper can be accessed here:

http://www.biomedcentral.com/1471-2296/14/25/prepub