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. 2020 Oct 14;20:159. doi: 10.1186/s12894-020-00735-x

Prevalence and associated factors of urinary incontinence in women living in China: a literature review

Kaikai Xue 1,2, Mary H Palmer 3, Fang Zhou 1,
PMCID: PMC7559450  PMID: 33054777

Abstract

Background

This review of studies on urinary incontinence (UI) was focused primarily on UI prevalence rates and associated factors across the adult lifecourse of Chinese women. UI is a urologic symptom that can have a significant impact on women's physical and mental health and quality of life. In addition, women with UI may experience socioeconomic burdens due to UI’s effect on their ability to work and function in society. Although researchers from many countries have reported prevalence rates and associated factors for UI, little is known about the prevalence of UI in China’s large female population. Language may act as a barrier to the inclusion of published studies in English-language journals. To overcome this barrier and to add to the global knowledge base about UI in women, the authors reviewed and discussed findings from epidemiological studies published in China and in Chinese language.

Methods

The authors retrieved research studies from the Wanfang database using the following search terms: "Subject: (Female) × Subject: (Urinary incontinence) × Subject: (Prevalence) × Date: 2013 to 2019". Searches employed the China National Knowledge Infrastructure Database, VIP Database for Chinese Technical Periodicals and China Biology Medicine Database. The authors also used PubMed to search English-language studies published in Chinese journals on UI in Chinese women.

Results

This literature review includes 48 articles published between January 2013 and December 2019. The overall UI prevalence rates reported in adult Chinese women ranged from 8.7 to 69.8%, representing 43–349 million women, respectively. For women aged 17–40 years, 41–59 years, and 60 years and older, prevalence rates ranged from 2.6–30.0, 8.7–47.7, to 16.9–61.6%, respectively. Significant associated factors for overall UI included age, body mass index, constipation, parity, and menopause. Despite the 17–40 age range being peak reproductive years, the literature revealed little focus on UI prevalence rates. For women aged 41–59 years, the main associated factors included those related to pregnancy and gynecologic diseases. For women 60 years and older, chronic diseases represented most of the associated factors.

Conclusions

About 43–349 million Chinese women may experience UI. Many of the identified associated factors could be mitigated to reduce UI incidence and prevalence rates. Little is known about the prevalence rates and associated factors for UI among young (aged 17–40) Chinese women. Future research should investigate UI in young women to improve bladder health across their lifecourse.

Keywords: Women, Urinary incontinence, Bladder, Prevalence, China

Background

Urinary incontinence (UI), which is defined as the complaint of the involuntary loss of urine [1], is one of the most frequently reported lower urinary tract symptoms in women [2]. The three main types of UI are stress urinary incontinence (SUI), urgency urinary incontinence (UUI), and mixed urinary incontinence (MUI) [1]. The definition of each UI type is as follows: SUI is “the complaint of involuntary loss of urine on effort or physical exertion (e.g., sporting activities) or on sneezing or coughing”; UUI is the “observation of involuntary leakage from the urethra synchronous with the sensation of a sudden, compelling desire to void that is difficult to defer”; and MUI is the “complaint of involuntary loss of urine associated with urgency and also with effort or physical exertion or on sneezing or coughing” [1].

Prevalence rates of UI for women reported globally can differ as a result of variations in methods used in studies or reports, women’s underreporting of their symptoms, and providers underdiagnosing the condition [3]. As an example, the UI prevalence rate for women between 45 and 60 years old living in Brazil was 23.6% [4], whereas the prevalence rates for adult women (over 18 years old) in Germany, Denmark, and Norway were 48.3%, 46.4% [5], and 18.7% [6], respectively. The number of women with UI in the United States has been estimated to be about 28.4 million [7]. Previous research suggests that 31.9% (approximately 160 million) women in China are affected by UI [8], indicating an urgent need for health and social resources to manage and treat UI.

Many factors are associated with UI [8], including unmodifiable factors (e.g., age, gender, menopause, history of vaginal delivery) and potentially modifiable factors (e.g., smoking, alcohol intake, toileting behaviors [9], constipation, and obesity). Besides UI’s impact on women’s physical and mental health, UI affects women’s quality of life by limiting social activities [10] and interactions, interfering with the ability to work [11], and increasing the financial burden on women and society [1214]. Therefore, UI should be viewed as both a women’s health issue and a public health issue [15].

Studies of UI prevalence rates and associated factors often appear in English-language journals, but research findings published in non-English-language journals or English-language journals not published outside of China are seldom disseminated widely. The resultant knowledge gap could negatively affect potential research and clinical advances with regard to Chinese women’s bladder health. This gap could also delay the development of culturally appropriate interventions to prevent and treat UI across women’s lifecourse. Thus, the need to close the knowledge gap is important, especially considering China’s large female population. For example, 650 million women were living in China in 2010, with more than 500 million women over 20 years old [16].

The aims of this study were to: (1) summarize findings from studies in non-English-language journals and English-language journals published in China that investigate UI prevalence in Chinese women, (2) categorize the findings by life stage (i.e., age range categories), and (3) facilitate dissemination of this existing information to researchers and clinicians to aid in their planning to prevent, manage, and treat female UI.

Methods

Literature search

The authors searched the relevant literature using five databases: the Wanfang full-text database (a Chinese professional academic database covering journals, meeting minutes, papers, academic achievements and academic conference papers), China National Knowledge Infrastructure (CNKI) Database (the largest continuously updated China journal full-text database in the world. It contains more than 9100 important journals in China, mainly including academic, technical, policy guidance, higher science popularization and education, and some basic education, popular science and technology, popular culture and literature and art works, covering natural science, engineering technology, agriculture, philosophy, medicine, humanities and Social Sciences and other fields, there are more than 32.52 million full-text documents), VIP Database (it analyzes the contents and citations of more than 14,000 kinds of science and technology periodicals and 57 million full-text periodicals published in China), and China Biology Medicine database (it involves basic medicine, clinical medicine, preventive medicine, pharmacy, traditional Chinese medicine, traditional Chinese medicine and other biomedical fields. It is an important retrieval tool for medical literature in China at present) for Chinese Technical Periodicals, and PubMed for English-language articles. The Wanfang full-text database search expression was Subject (Female/Women) × Subject (Urinary incontinence) × Subject (Prevalence) × Date: 2013–2019 or Subject: (Lower urinary tract symptoms) × Subject (Prevalence) × Date: 2013 to2019. The authors used the same search strategy for the other four databases: China National Knowledge Infrastructure, VIP, China Biology Medicine, and PubMed. After the electronic retrieval of relevant articles, the authors obtained further studies from the references cited in those articles. The search was conducted in two phases: initially the review included studies published between January 2013 and December 2017, and was subsequently updated to include literature published between January 2018 and December 2019.

Eligibility criteria

The inclusion criteria for this review were: (1) studies must be a cross-sectional research design; (2) study participants were adult women (≥ 17 years old) living in China; (3) studies discussed prevalence rates and/or associated factors of UI; and (4) sample sizes were greater than or equal to 100 women. The exclusion criteria were (1) narrative or systematic reviews, meta-analyses, or clinical guidelines; (2) case–control studies of UI treatment or care; and (3) studies focused on UI mechanisms. (4) Study participants were currently pregnant or up to 3 months postpartum.

Study selection

Two native Chinese-speaking reviewers (proficient in English) independently screened the article titles and abstracts. Duplicate articles were excluded. Full texts were obtained for the selected studies to assess their eligibility and their reference lists were scanned for further relevant articles. Any disagreement that arose between the reviewers regarding the inclusion or exclusion of articles was resolved through discussion. See Fig. 1.

Fig. 1.

Fig. 1

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PRISMA flow diagram for the review process

Data extraction and analysis

The study team developed a standardized abstraction table. Data extraction was performed by two reviewers. One author independently read the included studies and extracted data from them, but consulted with the other authors to resolve ambiguities. The studies were described and then summarized using a narrative descriptive approach. Data in the abstraction table were double checked by reviewers.

The age ranges of the participants differed among the studies selected for review. Thus, we adopted the following age range categories to examine the studies more closely in terms of participant age: 17–40 years old for young women, 41–59 years old for middle-aged women, and 60 years old and over for older women. Two reviewers independently extracted data onto a data extraction summary sheet regarding prevalence rates and associated factors for UI in young, middle-aged, and older Chinese women. Factors that were significantly associated with urinary incontinence (p < 0.05) were included in the review.

Results

The articles initially retrieved included 335 Chinese-language and 736 English-language articles, after removing 253 duplicates. Of those articles, 72 Chinese-language articles and 18 English-language articles were retained after screening titles and abstracts. We then reviewed the full texts of each article and identified 40 Chinese-language and 8 English-language articles for final analyses (Fig. 1). Among the Chinese-language articles, there were four Master's thesis [1720].

Studies selected for review were conducted in 22 different provinces and regions in China including: Shanghai [21], Beijing [22], Chongqing [23], Hebei [24], Shanxi [25], Gansu [26], Xinjiang [27, 28], Guangzhou [29], and Taiwan [30, 31] etc. Figure 2 presents a map of China that reported prevalence rates of UI in various areas throughout the country.

Fig. 2.

Fig. 2

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Prevalence rates of female urinary incontinence by location in China (This figure is created by authors with Word of Microsoft Office Home and Student 2019 (https://www.microsoftstore.com.cn/office/office-home-student-2019). It does not represent all the territory of China (China Sea Islands etc.).). Inline graphic UI (UI: Urinary incontinence, type not specified) of adult women (≥ 18 or 20 years old). Inline graphic SUI (SUI: Stress urinary incontinence) of adult women (≥ 18 years old). Inline graphic UI of older women (≥ 60 or older). Inline graphic No prevalence of UI reported. Two studies including women with 17 years old: *[20]. **[40]

Based on the eligibility criteria, all the included articles were cross-sectional research design. The sample sizes range from 146 to 18,992. Almost all of the studies reported that trained interviewers surveyed face to face with standardized questionnaire and some of the researchers also conducted gynecological examination for participants [3234]. All the studies focused on the associated factors of any UI or SUI. Two article focused on the associated factors of the other type (UUI) [19, 22]. No articles that focused on the associated factors of MUI were located.

The prevalence rates and associated factors for female UI in China are presented in the “Appendix”. The reported prevalence rates of overall UI (overall UI includes all types of UI) in Chinese adult women ranged from 8.7 [34] to 69.8% [35]. Where prevalence of specific UI types were reported, the following ranges were: SUI prevalence rates ranged from 6.7 [34] to 44.0% [35], UUI prevalence rates ranged from 1.2 [17] to 21.0% [22], and MUI prevalence rates ranged from 1.5 [17] to 15.7% [36]).

Definitions for UI, SUI, UUI, and MUI differed across some of the studies. Most of the authors used the International Continence Society (ICS) definition of UI: “complaint of involuntary loss of urine” [1]. Five studies [3741] did not include a definition for UI. Other definitions used varied slightly from the ICS definition, including: (1) UUI was defined as, “the occurrence of urinary frequency, urgency, increased frequency of nocturnal discharge and decreased urine output; or cannot control urine leaking out, waited too late to urinate leading to leakage of urine” [42, 43]; and (2) UUI was defined as, “urinating without any warning or a weak or faint amount of early warning, sudden urge sensation resulting in uncontrolled urine outflow” [22]. SUI was defined as “urine leaks out when exercising” [22]. The “Appendix” includes the UI definitions used in the reviewed studies.

Only one article reported UI prevalence rates and associated factors specifically for young women (18–26 years old) [44]. It found that age (21–26 years old comparing with 18–20 years old) (OR = 0.87, 95% CI = 0.77–0.98), constipation (OR = 2.40, 95% CI = 1.49–3.84), alcohol consumption (OR = 1.76, 95% CI = 1.11–2.79), often/always delayed urination (OR = 1.74, 95% CI = 1.31–2.31), and/or often/always strained to urinate (OR = 1.43, 95% CI = 1.11–1.85) were associated with UI. The prevalence of UI in this study was 23.6% [44]. Based on the data extracted from studies that included adult women, UI prevalence rates for community-living young women (18 to40 years old) ranged from 2.6 [45] to 30.0% [46], and the prevalence rates of SUI, UUI, and MUI were reported as 4.7 [21]–24.5% [47], 0 [48]–8.1% [42], and 0.7 [49]–10.7% [50], respectively. Eight articles [29, 30, 34, 5155] were focused on middle-aged, perimenopausal, and menopausal women, and seven articles [41, 43, 5660] were focused on older women. The prevalence rates of UI for middle-aged women ranged from 8.7 [34] to 47.7% [36], and the prevalence rates of UI for older women ranged from 16.9 [57] to 61.6% [60]. Table 1 provides a summary of the UI prevalence rates and associated factors of different age group of women. Table 2 reports the number of articles that investigated underlying factors and number of articles in which these factors were found to be significantly associated.

Table 1.

Prevalence Rates and Factors Associated with Urinary Incontinence in Chinese Women

Population Age Prevalence Associated factors
Young women 17# to 40 years UI 2.6–30.0% Age, constipation, alcohol consumption, delayed urination, strained to urinate
SUI 4.7–24.5%
UUI 0–8.1%
MUI 0.7–10.7%
Middle-aged women 41–59 years UI 8.7–47.7% Age, overweight, BMI, level of education, monthly income, constipation, menstrual disorders, menstrual disorders, parity, perineal laceration, postpartum urinary incontinence, pelvic operation history, POP, menopause, atrophic vaginitis, history of hormone replacement therapy, urinary tract infection, mental disease, hyperlipidemia, chronic bronchitis or asthma, respiratory system diseases, fecal incontinence
SUI 6.7–40.5%
UUI 2.1–62.9%
MUI 1.2–20.4%
Older women  ≥ 60 years UI 16.9–61.6% Age, more than 80 years old, BMI, low level of education, spouse, mental labor, alcohol consumption, delayed voiding, medical payment method, constipation, parity, pregnancy > 4 times, leakage of urine, gynecological diseases, urinary tract infection, malnutrition, autonomic activity limitation, activities of daily living, chronic pain, sleep disorders, chronic respiratory, urinary, cardiovascular disease, diabetes, drugs, indwelling catheterization
SUI 10.0–62.4%
UUI 3.3–21.1%
MUI 3.3–26.6%
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UI urinary incontinence, SUI stress urinary incontinence, UUI urgency urinary incontinence, MUI mixed urinary incontinence, BMI Body Mass Index, POP pelvic organ prolapse

Table 2.

Number of articles investigated underlying factors and number of articles in which the factors significantly associated with urinary incontinence (N = 48)

Factorsa Number of articlesb Significantly associatedc
Age 37 29
BMI/weight 28 22
Constipation 27 19
Parity 23 15
Vaginal delivery 23 10
Hypertension 22 8
Menopause 21 8
Educational 19 8
POP 15 8
Pelvic surgery/hysterectomy 20 7
Alcohol consumption 17 7
Chronic pelvic pain 8 7
Urinary tract infections 8 7
Diabetes 23 6
Cough 8 6
Smoking 18 5
Occupation 13 5
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POP pelvic organ prolapse

aFactors: the top seventeen associated factors according to the investigated frequencies

bNumber of articles: the number of articles that investigated underlying factors

cSignificantly associated: number of articles in which these factors were found to be significantly associated with urinary incontinence

Discussion

The studies selected for this review revealed a wide range of prevalence rates for overall UI and the specific types of UI, which may be due, in part, to the country’s size. China is a large country with 9.6 million square kilometers and it includes numerous cultures in urban and rural locations. Genetic factors, diet, lifestyle, local environment, climate, economic development level, occupation types, and toileting behaviors may differ across these regions. These factors could act as determinants of UI, and thus affect variation in UI prevalence rates. Other important reasons for the variations in UI prevalence rates and UI types are the different research definitions and statistical and sampling methods used in the selected studies. For example, researchers used different methods when creating samples (i.e., based on general outpatient [40] or gynecological clinics [38] or physical examination [61] or nursing institutions [60]). The study participants had different occupations (i.e., medical personnel [62], nurses [22] and railway workers [63]), and different living conditions (i.e., rural [64] and urban [45]). Also, in some studies, clinicians conducted physical examinations and documented medical histories, which may have yielded different results from women’s self-reported questionnaires.

Researchers identified several factors associated with overall UI in Chinese women. Some of these factors are modifiable, such as weight, BMI, education, smoking and drinking alcohol. Some factors can be remedied or controlled (i.e., constipation, hypertension, chronic cough, diabetes, respiratory diseases, and vaginitis). Lastly, although some of the identified factors are unmodifiable (i.e., age, vaginal delivery, cesarean section delivery, and menopause), interventions can nonetheless be designed and tested to promote bladder health and help delay the onset or slow worsening of UI.

Age is often associated with UI risk factors such as education level, number of pregnancies and deliveries, menopause, and chronic conditions such as hypertension, diabetes, and respiratory diseases. Thus, studying clusters of factors that increase UI risk across the lifecourse is important. Moreover, using a lifecourse perspective is advocated in bladder health research [65].

Chinese scholars have largely confined their research on prevalence of UI in adult women (≥ 17 years old), but in their findings of subgroup analyses for discrete age groups were not reported. Despite this limitation, when using the prevalence rate range of 2.6 [45]–30% [46] for young women aged 17–40 years old, the number of Chinese women in this age group who are affected by UI is estimated to be between 6.6 million and 75.8 million. This finding alone indicates that screening young women for risk factors, especially modifiable ones, and taking actions to minimize or eliminate the effects of these factors could potentially prevent or delay incident cases of UI throughout the lifecourse and especially later in life.

In a prospective cluster-randomized controlled trial of UI among young women (18–40 years), SUI prevalence was 14.3% [66]; 49.5% of these women had SUI during pregnancy, 43.6% had postpartum SUI, and 6.9% had SUI before pregnancy. Because muscle, connective, and nervous system pelvic structures are subjected to anatomical, morphological, functional, and hormonal changes during pregnancy, clinicians should initiate primary prevention interventions [67]. The pelvic floor also undergoes an enormous amount of stretching to allow the passage of a newborn during vaginal delivery [68]. Evident or hidden injuries to the pelvic floor may manifest as urinary and fecal incontinence, prolapse symptoms, or sexual dysfunction, all of which have a considerable impact on quality of life. Because pregnancy and childbirth can put young women at risk of developing UI [69], research and clinical attention should be focused on understanding the underlying mechanisms of UI as well as developing effective strategies (perform pelvic floor muscle training, maintain normal weight, avoid constipation [70]) to preserve bladder health for young Chinese nulligravid women.

In our research, there was only one study focused on the young women (18–26 years old) and it found that age (21–26 years old comparing with 18–20 years old), constipation, alcohol consumption, often/always delayed urination, and/or often/always strained to urinate were associated with UI. The prevalence of UI in this study was 23.6% [44]. Evidence from studies of young women who live outside of China also provides compelling evidence that UI in young women should be investigated further and intentionally. For example, the prevalence rate of UI for Swedish women (N = 653) between the ages of 18 and 30 years was 12% [71]. In nulligravid Australian women aged 16–30 years (average age 22.5 ± 3.2 years), the prevalence of overall UI was 12.6% [72], and women who were sexually active and those who were not using oral contraceptives had the highest rates of UI [72]. Mishra et al.’s study found that the UI prevalence rate for Australian women aged 22–27 years was 6.8% at baseline and increased to 16.5% nine years later [73]. These researchers also reported that women with depressive symptoms or a history of depression were more likely than those without depressive symptoms to report subsequent UI symptoms [73]. For nulligravid women living in Italy between 15 and 25 years old, age, BMI, depression/anxiety/panic attacks, eating disorders, and constipation were risk factors for UI [74]. Participating in organized sports that involves high-volume exercise for competition also increased the risk of developing UI (OR = 2.53, 95% CI = 1.3–2.7) [75]. Other studies conducted outside of China showed that UI is an issue for many nulliparous female athletes [76].

Cultural differences may be evident with regard to UI risk and associated factors in China and abroad. A relatively new factor under investigation is toileting behaviors, i.e., actions women take immediately prior to and during urination [7780]. Toileting behaviors play a role in developing or worsening urinary symptoms, but more research is required, especially studies that focus on young women in China [44]. It is often during youth and young adulthood when women develop habitual behaviors and form beliefs and attitudes about bladder health for themselves and their children. This period in women’s lifecourse may be pivotal in influencing prevalence rates because evidence is mounting that research to prevent or reduce UI in this age stage is important [65].

This review also found that UI prevalence rates for middle-aged Chinese women ranged from 8.7 [34] to 47.7% [36], which represents 15.5–85.0 million middle-aged women with UI. The UI prevalence rate for women between 45 and 60 years old living in Brazil was 23.6% [4]. The associated factors relate mainly to obstetrics-related ones, such as parity, perineal laceration, and postpartum UI, and gynecological factors, such as menstrual disorder, menopause, pelvic organ prolapse, pelvic operation history, and hormone replacement therapy (see Table 1). UI prevalence rate was found to be significantly higher in a postmenopausal group than a premenopausal age group [81], which may be related to the change of hormone levels in postmenopausal women [82]. Research conducted in China found that the protective effect of cesarean section delivery compared with vaginal delivery was more obvious at five years postpartum than at one year postpartum [83]. Vaginal delivery appears to aggravate pelvic floor structure injuries. Compared to this study, studies conducted in other countries had similar findings. In Norway, a survey of middle-aged women (average age 47 years) who had delivered either vaginally or by Caesarian sections 15–23 years previously had 46.9% UI prevalence. In addition, caesarian section delivery was a protective factor as UI prevalence was lower than in this group of women as compared to women who delivered vaginally.[84]. Further research is needed to determine the mechanism(s) of injury during childbirth and identify associated factors and interventions that prevent or lessen adverse effects of childbirth on bladder health.

Although UI is common across the lifecourse, its prevalence peaks in the older age group of women [3]. China's older female UI prevalence rate ranged from 16.9 [57] to 61.6% [60], which translates to more than 12.8–46.7 million older Chinese women living with UI. Scholars outside of China have found similar UI prevalence rates for older women. A survey of 622 older women living in Brazil (average age 64 years) revealed that the UI prevalence rate was 52.3% [85] and for women over 65 years old living in Turkey the UI prevalence was 51.6% [86]. In China, risk factors associated with UI include being 80 years old and over, BMI, malnutrition, low educational level, sleep disorders [58], unspecified number and types of medications, history of pregnancy, urine leakage during pregnancy, chronic respiratory disease, cardiovascular disease, gynecological diseases, diabetes, urinary tract diseases [31], chronic pain, constipation, and restricted activity [41] (see Table1). Compared to middle-aged women, older women have a higher prevalence of chronic diseases (i.e., respiratory disease, hypertension, diabetes, etc.), limited physical activity, malnutrition, and other factors that could be contributing risk factors for UI. A longitudinal study of older women (baseline ages of 51–74 years) conducted in the United States years who did not have UI found the incidence of UI was 37.2% ten years later [87]. This study also found that UI prevalence in later in life had strong associations with obesity, functional ability, and medical comorbidities, but not with parity [87].

Although we used rigorous methods to conduct this epidemiological review, some limitations are noted. First, although we searched one English database (i.e., PubMed), and the PRISMA review process was followed, we may have inadvertently overlooked eligible articles. Second, research into UI prevalence rates has not been conducted in all 34 provinces in China (e.g., 22 of the 34 provinces are represented in the included studies), which could result in an incomplete picture of the distribution of UI across the Chinese female adult population. The quality of the included studies was not formally assessed in order to include a broad representation of the literature. It is recommended that future studies include this important element. This paper, however, provides important information and raises awareness about prevalence of UI in women living in China.

Conclusions

Most of the information in this review has been previously unavailable to researchers in countries outside of China. Thus, in addition to adding to the specific knowledge about UI in Chinese women, this review adds to the global knowledge base about female UI. Findings from the reviewed studies revealed that UI prevalence rates for Chinese women range from 8.7 to 69.8%. Most of the studies focused on middle-aged and older women. Little information about UI prevalence for women in their teens and twenties was found. Given the prevalence of UI and size of China’s female population, research is needed to better understand the risk, and protective, factors for UI across the lifecourse of women. This information should stimulate interest in further multi-country comparisons and the development and testing of evidence-based interventions to prevent UI.

Acknowledgements

Not applicable.

Abbreviations

BMI

Body Mass Index

ICS

International Continence Society

MUI

Mixed urinary incontinence

POP

Pelvic organ prolapse

SUI

Stress urinary incontinence

UI

Urinary incontinence

UUI

Urgency urinary incontinence

Appendix

See Table 3.

Table 3.

Prevalence and associated factors of urinary incontinence for three age groups

First author Date range of study Location (provinces) Age (characteristic) Instrument (methods)a Prevalence (n/N (%)) Authors’ definitions of UI and UI types Associated factors [odds ratio (OR), 95% confidence interval (95% CI)]
Zhang and Lei [8] February 2006–July 2006 Northwest, Northeast, North, Southwest, East, and South-central China > 20 years ICIQ-FLUTSb (face to face interviews by trained interviewers using a standardized questionnaire) UI 6052/18992 (31.9) ICSc definitions UI: Age 30–39 years (1.55, 1.34–1.80), 40–49 years (2.66, 2.29–3.10), 50–59 years (2.80, 2.32–3.38), 60–69 years (2.46, 1.98–3.06), 70–79 years (3.02, 2.39–3.81), 80–89 years (3.32, 2.52–4.31), ≥ 90 years (5.87, 3.58–9.65), BMI ≥ 28 kg/m2 (1.77, 1.52–2.06), menopause (1.41, 1.24–1.61), residence (urban: 0.90, 0.84–0.97), constipation (1.87, 1.70–2.06), pelvic organ prolapse (POP) (1.96, 1.47–2.60), hypertension (1.29, 1.16–1.44), alcoholism (1.51, 1.35–1.68), vaginal delivery (1.63, 1.49–1.79)
SUI 3592/18992 (18.9)
UUI 488/18992 (2.6)
MUI 1788/18992 (9.4)
Sun and Wenyu [17] 2012–2013 Qinghai 20–80 years (Face to face) Bristol Standardized Questionnaire-FLUTS) UI 253/1066 (23.7) ICS definitions UI: Age (1.08, 1.05–1.12), natural vaginal delivery (0.002, 0.00–0.01), obstetric forceps vagina delivery (8.17, 1.49–44.77), parity (668.8, 146.09–3061.86), chronic cough (7.62, 1.84–31.57), constipation (2.72, 1.29–5.73)
SUI 222/1066 (20.8)
UUI 13/1066 (1.2)
MUI 16/1066 (1.5)
Liu and Tingting [18] March 2013–October 2013 Guangxi 20–90 years (Face to face) Nanning UI Epidemiological questionnaire UI 663/2883 (23.0) ICS definitions SUI: Age (1.53, 1.13–2.00), chronic pelvic pain (0.73, 0.58–0.93), chronic respiratory disease (5.24, 1.17–21.27), BMI (1.53, 1.37–1.75), recurrent urinary tract infection (1.97, 1.08–3.65)
SUI 376/2883 (13.0)
Li and Jingxuan [19] October 2012–June 2013 Shandong 18–90 years (married) (Face to face) Bristol Standardized Questionnaire-Female LUTS UI 1142/2600 (43.9) ICS definitions SUI: parity = 1 (1.24, 1.17–1.76), parity = 2 (2.96, 1.17–2.61), parity (3.25, 1.23–1.96), menopause (2.45, 1.01–2.35), constipation (1.39, 1.26–3.32), history of pelvic surgery (1.20, 1.00–1.73), BMI ≥ 28.0 kg/m2 (2.07, 1.52–3.54)
SUI 571/2600 (22.0)
UUI 199/2600 (7.7)
MUI 372/2600 (14.3)
UUI: Parity = 1 (1.10, 1.17–1.76), parity = 2 (2.01, 1.17–2.61), parity ≥ U (2.93, 1.23–3.32), constipation (1.52, 1.26–3.32), BM I(2.93 kg/m2 (2.07, 1.52–3.54); MUI: Age 50–59 (3.15, 1.20–3.07), age 60–69 (1.55, 1.01–2.46), age 70–79 (1.25, 1.14–1.88), age ≥ 80 years (1.11, 1.10–1.96), constipation (2.01, 1.26–3.32), menopause (1.11, 1.01–1.96)
Arzigul [20] June 2010–November 2010 Xinjiang Y: 17–78 years (Face to face) Questionnaires (general condition, UI prevalence situation, childbirth and chronic diseases) SUI 338/2009 (16.8) ICS definitions SUI: Prolonged delivery (4.72), Difficult birth (1.85), perineum tear (1.73), chronic pelvic pain (1.50), pelvic surgery (6.68), chronic cough (2.60). (No 95% CI is reported)
Liu and Bo [21] March 2010–September 2012 Shanghai  ≥ 20 years Bristol Standardized Questionnaire-FLUTS (face to face interviews by researchers with standardized questionnaire) UI 1266/5433 (23.3) ICS definitions UI: Age (2.38, 2.16–2.63), education (2.80, 2.32–3.53), residence rural (1.95,1.64–2.31), manual labor (6.90,5.66–8.47), exercise frequency < 8 times/months (0.56, 0.47–0.68), hyperlipidemia (1.99, 1.56–2.53), no nervous system disease (0.31, 0.18–0.55), diabetes (1.69,1.20–2.38), nocturia (8.20, 6.72–10.01), constipation (7.53, 6.01–9.43), eating less greasy food (0.80, 0.73–0.88), respiratory diseases (2.67, 2.19–3.27), POP (7.37, 3.68–14.76), chronic pelvic pain (2.94, 2.20–3.91), urinary tract infection (7.75, 5.06–11.89)
SUI 761/5433 (14.0)
UUI 164/5433 (3.0)
MUI 341/5433 (6.3)
He and Chongjun [22] Beijing 19–58 years (nurses) Beijing nurse Questionnaire LUTS SUI 349/1070 (32.6) SUI* SUI: Occupational stress of nurses: unclear about task expectations, business stress. (No ORs and 95% CI is reported)
UUI 225/1070 (21.0) UUI*
UUI: Occupational stress of nurses: unclear about task expectations, task conflicts, work environment, tension of interpersonal relationship. (No ORs and 95% CI is reported)
Xie and Jiangling [23] June 2011–December 2012 Chongqing 20–78 years (Face to face) Self-designed questionnaire (refer to Bristol Standardized Questionnaire-FLUTS) SUI 135/666 (20.3) ICS definitions BMI, pelvic surgery history, hypertension, diabetes, chronic cough, constipation and other chronic diseases, perimenopausal period, multiple pregnancy abortions, parity, lateral episiotomy, perineal laceration. (No ORs and 95% CI is reported)
Jiang and Yan [24] January 2016–May 2016 Hebei 18–91 years (Face to face) self-designed questionnaire (refer to ICIQ-LUTS) UI 667/2408 (27.7) ICS definitions UI: Age 40–49 years (5.76, 1.68–19.69), 50–59 years (8.76, 2.58–29.74), 60–69 years (8.85, 2.61–29.99), 70–79 years (6.43, 1.86–22.25), ≥ 80 years ( 4.55, 1.24–16.71), daily drinking water ≥ 1500 ml (0.75, 0.62–0.91), urinary system diseases (1.96, 1.32–2.91), respiratory diseases (1.62, 1.19–2.21), vaginitis (2.32, 1.32–4.10), abortion 1–2 times (1.51, 1.21–1.87), abortion ≥ 3 times (2.59, 1.41–4.75), hypertension (1.90, 1.52–2.38), chronic low back pain (1.52, 1.24–1.86), cesarean delivery (0.365, 0.20–0.69), postpartum infection (2.00, 1.10–3.65), dysmenorrhea (1.28, 1.04–1.57)
SUI 557/2408 (23.1)
UUI 38/2408 (1.6)
MUI 72/2408 (3.0)
Song and Yingchun [25] July 2012–November 2012 Shanxi 20–87 years (Face to face) ICIQ-LUTS UI 882/3017 (29.2) ICS definitions UI: Age (1.70, 1.35–2.14), BMI (2.19, 1.68–2.84), organ prolapse (3.14, 2.49–3.95), cesarean delivery (2.38, 1.26–4.48), manual labor (2.67, 1.95–3.65), chronic cough (3.01, 1.47–6.61), constipation (2.23, 1.22–4.07), smoking (2.00, 1.37–2.91)
SUI 547/3017 (18.1)
UUI 138/3017 (4.6)
MUI 184/3017 (6.1)
Wang and Lihong [26] March 2012–September 2012 GANSU 30–70 years General survey SUI 975/6000 (16.3) ICS definitions SUI: Age, parity, mode of delivery, place of residence, weight. (No ORs and 95% CI is reported)
Wan and Xiaohui [27] April 2011to August 2011 Xinjiang 20–85 years (have sex or married) (Face to face) ICIQ-LUTS SUI 960/3403 (28.2) ICS definitions SUI: BMI (1.67, 1.08–2.58), parity (5.09, 3.89–6.67), weight of infant (5.62, 3.33–9.48), mode of delivery (2.25, 1.63–3.09), perineum lateral incision (4.45, 3.11–6.36), menopause (5.15, 3.61–7.33), chronic pelvic pain (3.87, 1.05–14.25), POP (3.50, 2.51–4.89)
UUI 71/3403 (2.1)
MUI 392/3403 (11.5)
Liu and Zhaochun [28] July 2015–September 2015 Xinjiang 30–70 years (Gynecology and obstetrics outpatient) (Face to face) SUI 53/166 (31.9) ICS definitions SUI: Menopause, parity, delivery, puerperal incontinence. (No ORs and 95% CI is reported)
ICIQ-UI
Wu and Yonghong [29] February 2013–June 2013 Guangdong 40–55 years (Perimenopausal period) (Face to face) SUI 211/1200 (17.6) ICS definitions Reported that UI was not associated with age
ICIQ-UI
Horng and Shiow-Shiun [30] 2005 Taiwan 35–64 years The short form 36 (SF-36) health survey (interview survey) UI 1036/4661 (22.2) ICS definitions UI: Age 44–54 (1.53, 1.27–1.83), age 55–64 (1.88, 1.49–2.37), parity 1 time (1.87, 1.17–2.99), parity 2 time (2.58, 1.73–3.85), parity ≥ 3 times (2.83, 1.90–4.23), BMI 24–26.9 kg/m2 (1.48, 1.25–1.76), BMI.47.0 kg/m2 (2.33, 1.71–3.61), history of hormone replacement therapy (1.53, 1.17–1.99), psychiatric disease (1.45, 1.07–2.07), hyperlipidemia (1.35, 1.11–1.65), respiratory disease (1.62, 1.07–2.46)
Chen and Cong [32] January 2014–May 2014 Zhejiang  ≥ 20 years Face to face questionnaire administration, Gynecological examination SUI 244/986 (24.7) ICS definitions SUI: Age > 40 years (1.4, 1.0–2.0), vaginal delivery (2.6, 1.6–4.2), hypertension (1.7, 1.1–2.5), chronic coughing (3.6, 2.1–6.2), BMI ≥ 25 kg/m2 (1.7, 1.1–2.4), educational level ≤ middle school (1.4, 1.4–1.9)
UUI 47/986 (4.8)
MUI 53/986 (5.4)
Hu and Mengyan [33] May 2010–July 2010 Zhejiang 20–82 years (gynecological outpatient and married) face to face interview, Gynecologic examination SUI 194/500 (38.8) SUI** SUI: Age, BMI, vaginal delivery, hypertension, diabetes, recurrent urinary tract infection, constipation, chronic diseases, anterior and posterior vaginal wall touch, uterine prolapse. (No ORs and 95% CI is reported)
Han and Daihua [34] January 2015–September 2016 Sichuan 35–64 years (Face to face) ICIQ-UI, Gynecological examination UI 455/5217 (8.7) ICS definitions UI: Age (0.82, 0.70–0.95), education level (1.49, 1.23–1.90), chronic bronchitis or asthma (1.55, 1.02–2.35), parity (0.79, 0.66–0.95), postpartum incontinence (8.87, 6.57–11.99), BMI (0.96, 0.93–0.99), POP (1.64, 1.09–2.49)
SUI 348/5217 (6.7)
UUI 45/5217 (0.9)
MUI 62/5217 (1.2)
Sun and Yanling [35] September 2018–December 2018 Jiangsu  ≥ 18 years (urban and rural) (Face to face) ICIQ-LUTS Urban ICS definitions Urban
UI 245/443(55.3) UI: Age (1.35, 1.04–1.43), occupation (1.82, 1.16–2.89), alcohol consumption (7.37, 1.06–28.76), smoking (1.23, 1.15–2.67), sitting > 2 h/day (5.43, 1.10–21.82)
SUI 128/443 (28.9)
UUI 79/443 (17.8)
MUI 38/443 (8.6)
Rural
Rural UI: Age (1.06, 1.02–1.09), occupation (2.86, 1.25–6.56), alcohol consumption (7.85, 1.57–29.24), smoking (1.09, 1.01–2.52), sitting > 2 h/day (6.31, 1.59–26.86), load frequently > 3 kg (3.65, 1.38–16.79)
UI 268/384 (69.8)
SUI 169/384 (44.0)
UUI 51/384 (13.3)
MUI 48/384 (12.5)
Deng and Li [36] July 2012–December 2012 Guangxi 22–78 years (Face to face) ICIQ-LUTS UI 91/1052 (37.2) ICS definitions UI: Age 40–49 years (1.96, 1.02–3.78), natural vaginal delivery (8.66, 4.78–15.68), perineum lateral incision (2.89, 1.64–5.27), cesarean delivery (2.31, 1.29–4.17), hypertension (1.98, 0.91–3.37), menopause (2.11, 1.10–3.56), pelvic surgery (2.38, 1.04–5.47), chronic cough (2.65, 1.43–4.92), constipation (2.11, 1.39–3.22)
SUI 202/1052 (19.2)
UU I 24/1052 (2.3)
MUI 165/1052 (15.7)
Wen and Fang [37] October 2014–November 2014 Guizhou 18–70 years (married) (Face to face) ICIQ-UI-short form UI 68/294 (23.1) Not reported UI: Age (1.04, 1.01–1.07), ethnicity (2.53, 1.31–4.89), place of delivery (3.15, 1.42–6.99), mode of delivery (2.34, 1.09–5.05)
Zhang and Lijuan [38] September 2011–June 2013 Jiangsu 20–72 years (gynecological outpatient) Questionnaire investigation, routine physical examination SUI 302/2655 (11.4) Not reported SUI: Parity (1.52, 1.13–2.36), age (1.29, 1.03–1.63), constipation (1.79, 1.30–6.84), vaginal delivery (2.95, 1.10–7.56), Prolonged delivery (3.54, 1.43–9.37), hysterectomy (3.75, 3.19–9.58), perineum laceration (1.35, 1.09–1.35)
Li and Jianjun [39] March 2011–June 2011 Hunan 17–75 years (gynecological outpatient) ICIQ-LUTS (long form) SUI 122/769 (15.9) Not reported Not reported
UUI 35/769 (4.6)
MUI 23/769 (3.0)
Li and Fang [40] October 2012 Shanxi  ≥ 20 years (gynecological outpatient) (Face to face) Questionnaire administration UI 210/421 (49.9) Not reported UI: Age, BMI, education, daily water intake, more pregnancy, Parity, vaginal delivery, and intensity of labor. (No ORs and 95% CI is reported)
Wang and Xin [41] January 2012–October 2012 Jilin 60–87 years (urban) ICIQ-UI UI 305/986 (30.9) Not reported UI: Respiratory diseases (1.50, 1.10–2.50), urinary diseases (2.60, 1.30–4.20), cardiovascular diseases (2.20, 1.20–4.20), gynecologic diseases (3.30, 1.90–5.40), parity > 4 times (1.80, 1.20–2.10), restriction of autonomic activity (2.40, 1.50–4.10)
SUI 98/986 (10.0)
UUI 69/986 (7.0)
MUI 138/986 (14.0)
Shi and Lihua [42] April 2014–April 2015 Jiangxi 20–80 years Bristol Standardized Questionnaire-FLUTS, pad testing UI 150/500 (30.0) SUI:ICS Not reported
SUI 93/500 (18.6) UUI**
UUI 37/500 (7.4) MUI:SUI and UUI exist at the same time
MUI 20/500 (4.0)
Xin and Chunyan [43] April 2013–September 2014 Xinjiang  ≥ 65 years (Face to face) Questionnaire administration (refer to ICIQ-UI) UI 682/1148 (59.4) SUI:ICS definitions Not reported
SUI 335/1148 (29.2)
UUI 83/1148 (7.2) UUI**
MUI 264/1148 (23.0) MUI*
Zhou and Fang [44] October 2017–December 2017 Jiangsu 18–26 years (college students) (Face to face) ICIQ-FLUTS UI 219/929 (23.6) ICS definitions Age: 21–26 years old comparing with 18–20 years old (0.87, 0.77–0.98), constipation (2.40, 1.49–3.84), alcohol consumption (1.76, 1.11–2.79), often/always delayed urination (1.74, 1.31–2.31), often/always strained to urinate (1.43, 1.11–1.85)
Chu and Lei [45] January 2012–September 2012 Shanghai 20–83 years (Face to face interviews) Bristol Standardized Questionnaire-FLUTS UI 2103/7314 (28.8) ICS definitions UI: Postmenopausal (1.10, 1.04–1.17), pelvic surgery (1.38, 1.29–1.49), more than twice vaginal delivery history (1.49, 1.25–1.44), more than 20 weeks of pregnancy history (1.34, 1.25–1.44), the first vaginal delivery at < 20 years old (1.58, 1.46–1.71), obstetric forceps vagina delivery (2.75, 2.54–2.97), diabetes (1.16, 1.06–1.28), education (0.95, 0.90–0.99), hypertension (1.33, 1.23–1.43), BMI ≥ 30 kg/m2 (2.37, 2.22–2.54)
SUI 1719/7314 (23.5)
UUI 154/7314 (2.1)
MUI 183/7314 (2.5)
Gao and Jixue [46] May 2010–April 2013 Shanxi 21–72 years (Face to face) Questionnaire administration, provocative test UI 210/589 (35.7) ICS definitions SUI: Age, BMI, alcohol consumption, educational level. (No ORs and 95% CI is reported)
SUI 128/589 (21.7)
Luo and Xiaomei [47] March 2015–September 2015 Xizang  ≥ 20 years (Face to face) Self-designed questionnaire (health characteristics and UI occurrence) SUI 342/1200 (28.5) ICS definitions SUI: Urinary tract infection (1.67, 1.42–1.98), menopause (1.22, 1.16–1.29), uterine prolapse (1.49, 1.34–1.66), Anterior vaginal prolapse (1.68, 1.63–1.73), Posterior vaginal prolapse (1.08, 1.07–1.10), BMI (1.13, 1.11–1.16), perineal laceration, postpartum labor, chronic bronchitis (1.26, 1.23–1.29), cardiovascular disease (1.16, 1.15–1.18), constipation (1.13, 1.12–1.15), occupation (1.39, 1.36–1.42), education level low (1.10, 1.09–1.11), smoking (1.13, 1.11–1.56)
Xu and Ling [48] June 2011 Shanghai ≥ 30 years Face to face interviews Bristol Standardized Questionnaire-FLUTS UI 218/597 (36.5) ICS definitions Not reported
SUI 104/597 (17.4)
UUI 32/597 (5.4)
MUI 82/597 (13.7)
Wang and Yuliang [49] October 2012–Jane 2013 Northwest, northeast, north, central, and south China ≥ 18 years ICIQ-FLUTS (face to face interviews with questionnaires) SUI 265/1472 (17.4) ICS definitions All LUTS: Age, alcohol consumption, smoking, parity (No ORs and 95% CI is reported)
UUI 56/1472 (3.8)
MUI 47/1472 (3.2)
Huang and Dong [50] 2011 Guangdong ≥ 20 years Face to face questionnaire administration (health characteristics and UI occurrence) UI 2373/6870 (34.5) ICS definitions UI: Age (1.94, 1.51–3.99), mode of delivery (2.01, 1.08–5.02), process of childbirth (2.22, 0.52–9.89), constipation (2.78, 1.77–5.52), urinary tract infection (1.31, 1.01–3.66), and oral contraceptive drugs (1.59, 1.18–3.82)
SUI 1150/6870 (16.7)
UUI 309/6870 (4.5)
MUI 914/6870 (13.3)
Li and Hong [51] May 2014–March 2015 HUBEI 45–55 years (Perimenopausal period) (Face to face) ICIQ-UI SUI 526/2057 (25.6) ICS definitions SUI: Age (1.63, 1.41–1.83), parity (2.35, 1.89–2.86), POP (2.10, 1.65–4.02), pelvic surgery (2.06, 1.90–3.32), urinary tract infection (2.40, 1.76–3.05)
Lu and Shi [52] April 2014–October 2014 Hubei 40–65 years (Face to face) ICIQ-UI short form UI 397/1067 (37.2) ICS definitions UI: Menstrual disorder (1.54, 1.06–2.24), menopause (1.41, 1.03–1.93), BMI 18.5–25.0 kg/m2 (2.98, 1.17–7.60), BMI > 25 kg/m2 (3.37, 1.24–9.12), atrophic vaginitis (1.49, 1.08–2.04), constipation (1.82, 1.32–2.51), POP (5.07, 3.37–7.63), chronic pelvic pain (1.82, 1.32–2.51), fecal incontinence (2.89, 2.31–3.34)
SUI 344/1067 (32.2)
UUI 230/1067 (21.6)
MUI 177/1067 (16.6)
Li and Tao [53] April 2014–Oct ober 2014 HUBEI 40–65 years (perimenopausal) (Face to face) ICIQ-UI-short form SUI 504/1519 (33.2) ICS definitions SUI: Age: 60–65 years old (3.40, 1.92–6.04), Cesarean Sect. (0.62, 0.40–0.92), atrophic vaginitis (1.36, 1.03–1.80), constipation (1.44, 1.07–1.93), chronic pelvic pain (2.17, 1.90–4.03), POP (2.81, 1.36–5.79), fecal incontinence (3.32, 2.03–5.43), monthly income: 2000–3999 comparing with ≤ 1999 (0.063, 0.40–0.92)
UUI 366/1519 (24.1)
MUI 264/1519 (17.4)
Lu and Shi [54] April 2014–December 2014 HUBEI 40–65 years (perimenopausal) (Face to face) ICIQ-UI-short form UI 585/1519 (38.5) ICS definitions UI: Age: over 50 years old (2.0, 1.21–3.29), overweight (BMI: 25–30 kg/m2) (2.85, 1.33–6.07), irregular menstruation (1.45, 1.03–2.06), gynecological diseases (1.31, 1.01–1.70), chronic pelvic pain (2.32, 1.48–3.64), POP (2.33, 1.61–3.37), constipation (1.42, 1.07–1.88), fecal incontinence (3.29, 2.33–4.65)
SUI 482/1519 (31.9)
UUI 366/1519 (24.1)
MUI 264/1519 (17.4)
Wang and Bingyi [55] No time is reported Beijing 35–64 years (Face to face) ICIQ-UI-short form UI 59/126 (46.8) ICS definitions Age (No ORs and 95% CI is reported)
Chang and kengming [56] Taiwan  ≥ 60 years Face to face interview UI 485/1517 (32.0) ICS definitions UI: Age (1.04, 1.02–1.07), diabetes mellitus (1.65, 1.11–2.47), previous urinary disease (3.46, 2.26–5.30), BMI (1.06, 1.01–1.11)
Li and Ruixia [57] Apr 2013–Jun 2013 Shanghai 60–70 yeas (Face to face) ICIQ-UI UI 332/1962 (16.9) ICS definitions UI: BMI, pregnancy, pregnancy leakage, gynecological diseases, constipation, urinary tract infection, chronic respiratory disease. (No ORs and 95% CI is reported)
SUI 237/1962 (12.1)
Gao and Maolong [58] January 2013–May 2013 Beijing ≥ 60 years (Face to face) Author-designed Questionnaire (Social and health characteristics) UI 164/694 (23.6) Patient reported UI: Age 80–84 years (1.72, 0.96–3.08), age ≥ 85 years (2.49, 1.22–5.06), malnutrition (1.69, 1.08–2.65), chronic pain (1.47, 1.01–2.14), cognitive disorder (1.56, 1.08–2.24), sleep disorders (1.76, 1.22–2.53), drugs 1–4 types (2.23, 1.04–4.76), drug ≥ 5 types (5.07, 2.30–11.19)
Li and Yan [59] 2017 Sichuan 60–97 years (pension institutions) (Face to face) ICIQ-UI-short form, UI 102/205 (49.8) ICS definitions UI: BMI < 24 kg/m2 (0.38, 0.18–0.78), spouse (2.54, 1.20–5.38), Mental labour (0.25, 0.12–0.53), no alcohol consumption (0.40, 0.16–0.96), no delayed voiding (0.12, 0.05–0.30), number of chronic disease < 2 types (0.39, 0.18–0.83), parity ≥ 4 (2.82, 1.18–6.75), age of the first parity < 21 years (2.76, 1.03–7.43)
SUI 35/205 (17.1)
UUI 21/205 (10.2)
MUI 41/205 (20.0)
Chen and Mina [60] No time is reported Zhejianng 60–100 years (medical and nursing institutions) (Face to face) ICIQ-UI-short form, UI 217/352 (61.6) ICS definitions Education (0.59, 0.41–0.86), income (0.58, 0.37–0.92), medical payment method (1.64, 1.09–2.49), have no other disease (0.27, 0.13–0.58), activities of daily living (1.37, 1.12–1.67), indwelling catheterization (13.31, 2.35–75.22)
Zhu and Zhichao [61] January 2014–December 2014 Zhejiang 20–81 years ICIQ-UI UI 301/1178 (25.5) UI* UI: Age (1.02, 1.00–1.05), natural vaginal delivery (2.53, 1.10–5.84), difficult vaginal delivery (4.54, 1.63–12.64), Cesarean delivery (3.07, 1.10–1.45), parity (1.10, 1.00–1.21), BMI 20–25 kg/m2 (1.43, 1.14–1.80), BMI > 25 kg/m2 (1.40, 1.17–1.89), hypertension (1.32, 1.01–1.74), diabetes (1.49, 1.17–1.89), other diseases (1.21, 1.02–1.45)
Che and Xinyan [62] July 2018 Beijing Mean: 39.4 ± 9.9 years (medical staff) (Face to face) ICIQ-UI-short form, SUI 63/146(43.2) ICS definitions Constipation (4.95, 1.81–13.53), Natural delivery (3.50, 1.49–8.21)
Liu and Yanjuan [63] Nov 2010–Nov 2011 Hebei  ≥ 20 years (railway workers) (Face to face) ICIQ-UI UI 474/1368 (34.6) ICS definitions Not reported
SUI 296/1368 (21.6)
UUI 52/1368 (3.8)
MUI 126/1368 (9.2)
Li and Hui [64] 2014 Liaoning ≥ 18 years (Face to face) ICIQ-LUTS UI 1063/3456 (30.8) ICS definitions Not reported
SUI 750/3456 (21.7)
UUI 97/3456 (2.8)
MUI 176/3456 (5.1)
Open in a new tab

E English-language articles searched from PubMed. POP pelvic organ prolapse

aAll the questionnaires used in the studies were pencil and paper questionnaires

bICIQ-FLUTS: Chinese version of the International Consultation on Incontinence Questionnaire-Female Lower Urinary Tract Symptoms

cICS: International Continence Society

UI*: [88]

SUI*: Urine leakage during exercise

SUI**: In the past year, loss of urine more than twice when abdominal pressure is increased (including stress, laughing, coughing, etc.)

UUI*: Urinating without any warning or a small amount of early warning, sudden stimulation results in uncontrolled urine outflow

UUI**: Occurrence of urinary frequency, urgency, increased frequency of nocturnal discharge and decreased urine output, or cannot control, too late, leading to urine leakage

MUI*: SUI and UUI exist at the same time

Authors’ contributions

KKX analyzed and interpreted the literature data regarding UI and was a major contributor in writing the manuscript. FZ and MHP made substantial contributions to the conception and design strategy and revised the article for important intellectual content. All authors read and approved the final manuscript.

Funding

The Qing Lan Project (No. 53041608) provided funding to Dr. Zhou. This funder had no role in the study or publication of the findings.

Availability of data and materials

All data generated or analyzed during this study are included in this published article.

Ethics approval and consent to participate

Not applicable.

Consent to publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

Footnotes

Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Contributor Information

Kaikai Xue, Email: cathyxuekaikai@hotmail.com.

Mary H. Palmer, mhpalmer@email.unc.edu

Fang Zhou, Email: meadow_zh@hotmail.com.

References

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