Analysis of pelvic floor electrical physiological parameters in nulliparous women with stress urinary incontinence.

BACKGROUND: To investigate the changes in pelvic floor electrical physiological parameters in nulliparous women with stress urinary incontinence (SUI).
METHODS: A retrospective survey was conducted on 922 women aged 20-40 years who received health examinations at the First Affiliated Hospital of Nanjing Medical University between July 2017 and December 2019. The women were split into two groups: those who had SUI (n=87) and those that did not (n=835). Questionnaires and pelvic floor electrical physiological indexes were collected.
RESULTS: The mean age of the group of women with SUI was 29.77 years, while the mean age of the group of women with no SUI was 24.49 years. The body mass indexes (BMI) of the women with SUI were significantly higher than those of the women with no SUI. Importantly, the normal rates of type I and II fibers in the women with SUI were obviously lower than those in the women with no SUI. Moreover, the vaginal dynamic pressure in the women with SUI was significantly lower than in the women with no SUI. The study also found that the incidence of SUI in nulliparous women was higher in those aged 30-40 and that both low-weight and obese women had an increased risk of SUI. Type I and type II muscle fibers were more abnormal in the women with SUI than in those with no SUI. In multivariate logistic regression, the ages, BMIs, and type I fiber indexes of nulliparous women were related to SUI.
CONCLUSIONS: Nulliparous women have a higher rate of SUI. Compared to women with no SUI, the possible potential risk factors are age (>30 years), higher BMI, and abnormal type I muscle fiber of the pelvic floor. 2021 Translational Andrology and Urology. All rights reserved.

Introduction

Urinary incontinence (UI) is a problem affecting adult women worldwide. Approximately 30.9% of women aged 20 or older in China have experienced UI, with stress urinary incontinence (SUI) being the most common type (1). The U.S. reported that the prevalence of UI among women aged 30–90 was 45% (2), while the prevalence of UI among women aged ≥18 years in four European countries was reported as 35%. These data suggest that the condition seriously affects women’s quality of life (3). SUI can cause psychological and social problems, such as depression, social loneliness, reduced self-confidence, family disharmony, and other related health problems, and it has become one of the most important chronic diseases affecting public health (4).

Although pregnancy and childbirth history are considered independent risk factors for UI, other risk factors include post-menopausal status, obesity, and pelvic surgery. Most studies on UI have been mainly based on postpartum women, but SUI also occurs in non-fertile young women.

Pelvic floor surface electromyography is a non-invasive technique that collects muscle motor potentials through skin surface electrodes to observe muscle recruitment patterns (5). It can detect abnormalities in the pelvic floor of women, thereby enabling early detection and prevention of pelvic floor disease. Some studies have reported that the surface electromyographic parameters of the pelvic floor muscles change before the onset of pelvic floor dysfunction (PFD), which occurs before the onset of clinical symptoms. The main objective of the present study is to investigate the changes in the pelvic floor electrical physiological parameters of nulliparous women with SUI. We present the following article in accordance with the STROBE reporting checklist (available at http://dx.doi.org/10.21037/tau-20-1235).

Methods

Participants

A retrospective survey, via interviews, was conducted on 922 nulliparous women who received health examinations at the First Affiliated Hospital of Nanjing Medical University between July 2017 and December 2019. Questions regarding stress (“Do you leak urine with activities such as coughing, sneezing, or running?”) was used to determine participant eligibility. Also, symptoms of urge incontinence (“Does urine leak when you rush/hurry to the toilet?”) should be excluded. Only participants predominantly suffering from SUI were recruited. The women were divided into two groups: those with SUI (n=87) and those without (n=835). All patients provided standardized information (age, height, weight, etc.) and gave informed consent. Pelvic floor electrical physiological parameters were collected and analyzed.

The inclusion criteria were 20–40 years old and tolerance of gynecological examination. Patients with a history of one or more births, pelvic organ prolapse (POP), known or suspected pregnancy, unexplained irregular vaginal bleeding, cognitive impairment rendering pelvic floor function assessment impossible, urogynecological and gynecological surgeries history or other types of UI were excluded.

This study was conducted in accordance with the Declaration of Helsinki (as revised in 2013). This study was conducted with approval from the Ethics Committee of Women’s Rehabilitation Medical Center (2014-SR-146). Written informed consent was obtained from all participants.

Pelvic floor electrical physiological parameters

Phenix U4, a neuromuscular stimulation therapy instrument, was used by trained obstetrics and gynecology medical personnel to detect pelvic floor electrophysiological indicators. The final assessment of the pelvic floor electrophysiological indicators was undertaken by professional pelvic floor gynecology physicians.

Observation parameters

Pelvic floor electrical physiological parameters, including pelvic floor muscles, type I vaginal dynamic pressure, and type II muscle fiber strength and fatigue.

Pelvic floor type I and type II muscle fiber strength testing methods and evaluation standards

Type I muscle fiber contraction was continued until more than 40% of its maximum intensity had been reached, continues to a level 0, 0 S last 1 S for level 1, continues to level 2, 2 S for 3 S to level 3, continues to level 4, 4 S for 5 S and above level 5. The number of times that the contraction strength of the muscle fibers was greater than 60% of the maximum value, and the duration of 1 time was 1, the duration of 2 times was 2, the duration of 3 times was 3, the duration of 4 times was 4, and the duration of 5 times or more was 5. The judgment criteria for muscle force abnormalities assessed grade 4–5 as normal and grade 0–3 as abnormal. The measurement of muscle fatigue was the percentage decrease between the peak of the contraction curve and the peak of the end point at 5 S (6).

Measurement of vaginal dynamic pressure

Vaginal dynamic pressure was measured by placing a balloon pressure probe into the vagina. The dynamic pressure of the maximum contraction of the vagina was then measured by the pressure converter; 80–150 cmH2O (1 cmH2O = 0.098 Pa) was normal, while <80 cmH2O was abnormal (6).

Statistical analysis

All statistical analyses were performed using Stata version 17.0. Data were analyzed using descriptive statistics and multivariate logistic regression. Measurement data conforming to the normal distribution were expressed as the mean and standard deviation, and comparisons were made by t-test. Odds ratios (ORs) and 95% confidence intervals were calculated. All tests were two sided, with P<0.05 considered statistically significant.

Results

Clinical characteristics and pelvic floor electrical physiological parameters

A total of 922 participants were recruited in the two groups. The first group included 87 women with SUI and the second group included 835 women with no SUI. The prevalence of SUI was 10.42%. The mean age of the group of women with SUI was 29.77 years, while that of the group of women with no SUI was 24.49 years. Age and BMI were significantly higher in the women with SUI than in the women with no SUI (P=0.000 and 0.012; see ).

Table 1

Clinical characteristics and pelvic floor electrical physiological parameters

Variables	No-SUI (n=835)	SUI (n=87)	P
Age, years	24.49±3.21	29.77±4.17	0.000
BMI (kg/m2)	21.56±3.04	22.83±4.50	0.012
Gravidity	0.42±0.71	0.44±0.69	0.824
Type I fiber, n (%)			0.002
Normal	373 (44.67)	24 (27.59)
Abnormal	462 (53.33)	63 (72.41)
Type II fiber, n (%)			0.023
Normal	452 (54.13)	36 (41.38)
Abnormal	383 (45.87)	51 (58.62)
Type I fatigue, n (%)			0.441
Normal	301 (36.05)	35 (40.23)
Abnormal	534 (63.95)	52 (59.77)
Type II fatigue, n (%)			0.479
Normal	644 (77.13)	70 (80.46)
Abnormal	191 (22.87)	17 (19.54)

Vaginal dynamic pressure (mmHg)

83.88±19.18

77.87±17.52

0.005

The normal rates of type I and type II fibers in the group of women with SUI were obviously lower than those in the group of women with no SUI (P=0.002 and 0.023; see ). However, there was no difference between the two groups with respect to type I and II muscle fatigue (P>0.05; see ). Vaginal dynamic pressure in the group of women with SUI was significantly lower than in the group of women with no SUI (77.87±17.52 and 83.88±19.18 mmHg; P=0.005).

Factors associated with SUI in nulliparous women

The study explored the risk factors for nulliparous women with SUI in univariate analyses and variables. With increasing age, the incidence of SUI in nulliparous women, especially those aged 30–40, also increased (age 31–35: OR 2.20, 95% CI: 1.00–4.80, P=0.048; age 36–40: OR 3.79, 95% CI: 1.46–9.85, P=0.006). However, among those aged 25–30, the incidence of SUI did not increase (OR 1.05, 95% CI: 0.52–2.16, P=0.879). Being underweight and obese were both associated with an increased risk of SUI (underweight: OR 2.15, 95% CI: 1.01–4.63, P=0.048; overweight: OR 2.19, 95% CI: 1.25–3.87, P=0.007 and OR 3.70, 95% CI: 1.72–7.91, P=0.001).

There were greater abnormalities of the type I and type II fibers in the group of women with SUI than in the group with no SUI (type I fiber: OR 2.12, 95% CI: 1.30–3.46, P=0.003; type II fiber: OR 1.67, 95% CI: 1.07–2.62, P=0.024). As shown in , the abnormal rate of vaginal dynamic pressure was significantly lower in the group of women with SUI than in the group with no SUI (OR 1.71, 95% CI: 1.25–2.31, P=0.001). However, there was no difference between the two groups with respect to muscle fatigue (type I fatigue: OR 0.56, 95% CI: 0.16–2.01, P=0.373; type II fiber: OR 0.82, 95% CI: 0.47–1.42, P=0.470).

Table 2

Factors associated with SUI in nulliparous women

Independent variables	SUI, n (%)	SUI (unadjusted)				SUI (adjusted)
		OR	95% CI	P value		OR	95% CI	P value
Age, years
20–25 (ref)	10 (1.08)
26–30	44 (4.77)	1.05	0.52–2.16	0.879		1.26	0.61–2.61	0.534
31–35	23 (2.49)	2.20	1.00–4.80	0.048		2.64	1.18–5.90	0.018
36–40	10 (1.08)	3.79	1.46–9.85	0.006		4.84	1.80–13.01	0.002
BMI, kg/m2
Normal (18.5–23.9) (ref)	49 (7.17)
Underweight (<18.5)	9 (14.29)	2.15	1.01–4.63	0.048		2.05	0.93–4.50	0.074
Overweight (24–27.9)	19 (14.5)	2.19	1.25–3.87	0.007		2.40	1.33–4.32	0.004
Obese	10 (1.08)	3.70	1.72–7.91	0.001		3.80	1.72–8.39	0.001
Type I fiber
Normal	24 (6.05)
Abnormal	63 (12.00)	2.12	1.30–3.46	0.003		2.03	1.13–3.63	0.017
Type II fiber
Normal	36 (7.38)
Abnormal	51 (11.75)	1.67	1.07–2.62	0.024		1.04	0.52–2.11	0.900
Type I fatigue
Normal	79 (16.49)
Abnormal	8 (8.51)	0.56	0.16–2.01	0.373		1.12	0.50–2.52	0.776
Type II fatigue
Normal	70 (9.80)
Abnormal	17 (8.17)	0.82	0.47–1.42	0.470		0.76	0.41–1.39	0.376
Vaginal dynamic pressure (mmHg)
Normal	46 (7.64)
Abnormal	41 (12.81)	1.71	1.25–2.31	0.001		1.50	0.78–2.88	0.226

Multivariate logistic regression was used for primary screening, followed by multivariate logistic regression analysis of the potential factors for SUI in nulliparous women. The possible potential risk factors included age above 30 (age 31–35: OR 2.64, 95% CI: 1.18–5.90, P=0.018; age 36–40: OR 4.84, 95% CI: 1.80–13.01, P=0.002), BMI (overweight: OR 1.90, 95% CI: 1.33–4.32, P=0.004; obese: OR 3.70, 95% CI: 1.68–8.14, P=0.003), and type I fibers (OR 1.20, 95% CI: 1.16–3.70, P=0.013) (see ). However, other pelvic floor electrical physiological parameters without type I fibers had no significant association (see ).

Discussion

UI, which is one of the main diseases affecting humankind, occurs twice as often in women as in men and is more common as women get older (7). SUI is the most common subtype of UI. Common risk factors for UI are post-menopausal status, pregnancy, and childbirth history (8). Many studies have suggested that SUI is found almost exclusively in elderly women and women who have given birth, but epidemiological studies have reported that younger women and nulliparous women also experience UI episodes (9) and that the risk factors are therefore unknown.

The prevalence of UI subtypes has been reported as ranging between 6.2% and 42.2% in young women (10-14). However, previous studies only focused on young sportswomen with SUI (9,15). The results of the present study identified that the prevalence of SUI in 922 nulliparous women was 10.42%. In recent studies, age has been found to be a strong risk factor for SUI. The present study also found that the incidence of SUI increased with age, particularly above the age of 30 in nulliparous women [the same results were reported in Nygaard’s study (2)]. However, in the 26–30 age group, the risk of SUI was not significantly increased compared to that of the 20–25 age group (OR 1.05, P=0.879). Minassian et al. (16) found that SUI was most prevalent at around 40 years of age, whereas the present study suggests that the risk of SUI between 36 and 40 years of age is highest.

Obesity is a well-known risk factor for SUI and may be associated with increased intra-abdominal pressure. As shown in the present study, women with BMI ≥24 had a higher risk of SUI. However, underweight nulliparous women also had a higher risk of SUI: the odds ratios showed differences with women with normal BMI (OR 2.15, P=0.048). Therefore, for nulliparous women, maintaining a healthy weight is an effective way of preventing SUI. Most studies have also emphasized that weight loss is the first-line recommendation for all UI subtypes (17).

In recent years, the application of electrophysiological technology has become the focus of the diagnosis of female pelvic floor disease. Pelvic floor surface electromyography can detect abnormalities in the pelvic floor of women, thereby enabling early detection and prevention of pelvic floor disease. However, the current research on UI in non-fertile women is mainly based on epidemiological investigations, and there are few studies on pelvic floor electrical physiological parameters. The present study found that there were greater abnormalities in the type I and type II muscle fibers of women with SUI than in those with no SUI (P=0.002 and 0.023). Nulliparous women with SUI were also found to have lower vaginal dynamic pressure than those with no SUI, which was also found by Shishido et al. (18).

According to the multivariate logistic regression analysis, the possible risk factors for SUI in nulliparous women include age (>30 years old), higher BMI index (overweight: OR 1.90, P=0.004; obese: OR 3.70, P=0.003), and type I muscle fibers (OR 1.20). A decrease in type I muscle strength also leads to an increased incidence of SUI in nulliparous women.

This study is a retrospective study and has some limitations. The relationships between occupation, exercise habits, eating habits, chronic diseases, urinary incontinence, and pelvic floor electrical physiological parameters were not addressed. Further, due to time limitations, quality of life was not analyzed. In future research, the research plan will be improved and the sample size expanded to obtain more pelvic floor data for nulliparous women, thereby providing better evidence-based medical recommendations for clinical practice.

Conclusions

The incidence of SUI in nulliparous women is 10.42%. The risk factors for SUI are age (>30 years old), BMI, and type I muscle fibers. Maintaining a healthy weight and improving type I muscle strength can prevent SUI in nulliparous women.

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