Could Urinary Tract Infection Cause Female Stress Urinary Incontinence? A Clinical Study

authors:

avatar Fatemeh Heydari 1 , avatar Zahra Motaghed 2 , * , avatar Fatemeh Abbaszadeh 1

Nephrology and Urology Research Center, Baqiyatallah University of Medical Sciences, Tehran, IR Iran
Student Research Center, Baqiyatallah University of Medical Sciences, Tehran, IR Iran

how to cite: Heydari F, Motaghed Z, Abbaszadeh F. Could Urinary Tract Infection Cause Female Stress Urinary Incontinence? A Clinical Study. Nephro-Urol Mon. 2016;8(1):e33571. https://doi.org/10.5812/numonthly.33571.

Abstract

Background:

Stress urinary incontinence (SUI), the most common type of urinary incontinence (UI), is usually defined as leakage of urine during movement or activity which puts pressure on the bladder, such as coughing, sneezing, running or heavy lifting. It is reported in most countries that 15% to 40% of women struggle with SUI and its severe implications for daily life, including social interactions, sexuality, and psychological wellbeing.

Objectives:

The aim of our study was to assess the relationship between urinary tract infection and the severity of stress urinary incontinence (SUI).

Patients and Methods:

This research was a cross-sectional study conducted in a public urology clinic in Tehran. The study population was all females with complaints of SUI who visited the clinic during 2014. We compared Valsalva leak point pressure (VLPP) in two groups of patients, with and without history of urinary tract infection (UTI).

Results:

According to the findings of our study, the mean VLPP was 83.10 cm H2O in the group with UTI history, and 81.29 cm H2O in those without history of UTI. The difference in VLPP between the two groups was not significant (P < 0.05), even after controlling for confounding variables including age, body mass index, history of hysterectomy and number of deliveries.

Conclusions:

Our study did not confirm a significant relationship between UTI and severity of SUI as measured by VLPP. A decisive opinion would require extensive future studies by prospective methods.

1. Background

Stress urinary incontinence (SUI), the most common type of urinary incontinence (UI), is usually defined as leakage of urine during movement or activity which puts pressure on the bladder, such as coughing, sneezing, running or heavy lifting (1, 2). It is reported in most countries that 15% to 40% of women struggle with SUI and its severe implications for daily life, including social interactions, sexuality, and psychological wellbeing. Therefore, the identification and possible reduction of risk factors for SUI is important, and could also decrease health care costs (3). Weight is a modifiable risk factor for SUI. Many non-modifiable risk factors for SUI have been identified, such as age, delivery, and pelvic surgery, but urinary tract infections (UTIs) need more study (2). Urinary tract infections are common and occur at all ages. Women are particularly at risk of UTI, and more than 50% will experience at least one episode during their lifetime (3). The majority of UTIs cause a short acute illness and may be treated with a course of antibiotics, but occasionally, depending on the site and type of infection, they can develop into a serious, even life-threatening condition (3, 4).

2. Objectives

Although many factors such as nutrition and smoking have been researched in relation to SUI, urinary tract infection was not one of them. Our study is a first step in this field. The aim of our study was to assess the relationship between urinary tract infection and SUI severity.

3. Patients and Methods

This investigation was a cross-sectional study conducted in a public urology clinic in Tehran. The study population were all females with complaints of SUI who visited the clinic during 2014. We compared Valsalva leak point pressure (VLPP) in two groups of female SUI patients with and without UTI history. History of UTI was defined as a self-reported UTI having occurred at least once in the previous year.

According to our preliminary results, the mean and standard deviation of VLPP were 80 ± 17 cm H2O in patients with history of UTI, and 88 ± 16 cm H2O in those without history of UTI. Therefore, according to the following equation, with 95% assurance, 136 patients (68 in each group) was an appropriate sample size to compare the mean of the quantitative dependent variable (VLPP) between the two groups. Type I and Type II errors were considered as 0.05 and 0.20, respectively.

300 patients were selected randomly from clinic patients to be asked to participate in our study. Of these, 140 patients showed interest and were qualified through filling out an informed consent form. The selection criteria were absence of anticholinergic or alpha-blocker drugs during the two weeks prior to the urodynamic test and no history of pelvic surgery, hysterectomy or cesarean delivery. The mean of the VLPP was compared between the two groups of patients using a t-test and a Mann-Whitney test, and after controlling for confounding variables including age, body mass index (BMI), history of hysterectomy and delivery status. All data were entered and analyzed using SPSS 6 and Excel 2007 software.

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4. Results

The mean of the Valsalva leak point pressure was 83.10 cm H2O and 81.29 cm H2O, respectively in patients with UTI history and without UTI history. The difference in VLPP between the two groups was not significant (P = 0.61) (Table 1).

Table 1.

Mean of Valsalva Leak Point Pressure in Patients With and Without UTI History

PatientsNo.Mean of Valsalva Leak Point Pressure (cm H2O)SDSEEquality of Means T-Test
P ValueT
With UTI history7083.10± 18.602.21.611-0.510
Without UTI history7081.29± 19.932.85.611-0.510

In order to control the effect of delivery status, we compared the mean of VLPP in the study groups according to delivery numbers. As shown in Table 2, in each delivery status, the mean of VLPP was higher for patients with UTI history but the difference was significant only in patients with 1 to 4 deliveries (P < 0.05).

Table 2.

Mean of Valsalva Leak Point Pressure After Controlling for Delivery Numbers

UTI HistoryPatientsMean of VLPP (cm H2O)SDSETest for Equality of Means
P ValueTZ
Delivery historyNANANA
NoYes0NANANA
No0NANANA
Yes
1-4 deliveries0.022.378NA
Yes4783± 18.712.65
No5672.33± 18.913.64
5 or more deliveries0.359NA-0.916
Yes2377.5± 18.155.24
No1466± 10.844.85

Similarly, in order to control the effect of age, we compared the mean of VLPP in the study group according to age. As shown in Table 3, the mean of VLPP in all age groups was higher for patients with UTI history, but the difference was not significant (P > 0.05).

Table 3.

Mean of Valsalva Leak Point Pressure After Controlling for Age

Age, yUTI HistoryPatientsMean of Valsalva Leak Point Pressure (cm H2O)SDSETest for Equality of Means
PTZ
0-40NANANA
Yes1010000
No2010000
40-600.908-0.116NA
Yes3882.44± 192.9
No3381.89± 20.043.79
60 and above0.206NA-1.263
Yes2273.82± 16.634.03
No1765.83± 14.114.07

To control the effect of BMI, the mean of the Valsalva leak point pressure was compared according to BMI. As shown in Table 4, the mean of the Valsalva leak point pressure in overweight and obese patients was higher for patients with UTI history, but the difference was not significant (P > 0.05).

Table 4.

Mean of Valsalva Leak Point Pressure in Two Groups of Patients After Controlling for BMI

BMI Status, kg/m2UTI HistoryPatientsMean of VLPP (cm H2O)SDSETest for Equality of Means
PTZ
< 18.5 (low weight)NANANA
Yes610000
No510000
18.5 - 25 (natural weight)NANANA
Yes410000
No1410000
25 - 30 (overweight)0.479NA-0.709
Yes1586.32± 18.924.34
No1882.14± 21.815.83
30 and above (obese)0.5140.655NA
Yes4579.11± 18.382.74
No3376.18± 18.933.58

5. Discussion

According to our study results, there was no statistically significant relationship between urinary tract infection and severity of female stress urinary incontinence, as measured by Valsalva leak point pressure. Of course, a decisive opinion would require more extensive studies by prospective methods. However, our study found that urine leakage occurred with higher bladder pressure in patients with history of UTI, although the result was not significant, and therefore they were suffering from milder SUI. Future investigations could clarify the relationship, if any. Finally, we suggest future studies to analyze the relationship between different types of urinary tract infections and SUI. Also, the confounding variables which were not considered in our study, such as lifestyle factors including nutrition and smoking, should be studied.

Acknowledgements

References