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Risk factors for Mycoplasma genitalium infection among female sex workers: a cross-sectional study in two cities in southwest China
© Xiang et al.; licensee BioMed Central Ltd. 2012
Received: 11 October 2011
Accepted: 29 May 2012
Published: 7 June 2012
Mycoplasma genitalium (MG) is one of the common causes of non-gonococcal urethritis (NGU) in men and is associated with cervicitis, endometritis, and pelvic inflammatory diseases (PID) in women. The prevalence of MG infection has been reported to be high among female sex workers (FSWs) in many countries, but limited information is known among this population in China.
From July to September 2009, venue-based FSWs were recruited in two cities (Wuzhou and Hezhou) of Guangxi Autonomous Region in southwest China. Information of socio-demographic and behavioral characteristics was collected by a questionnaire-based interview. Cervical specimens were obtained for detection of MG using a real-time polymerase chain reaction (PCR) assay targeting mgpA gene.
The overall prevalence of MG infection among 810 FSWs was 13.2% (95% CI = 10.87%–15.52%). MG infection was significantly associated with less education (adjusted odds ratio (AOR) = 2.36, 95% CI = 1.15–4.87) consisting of junior high school or below, being single (AOR = 2.27, 95% CI = 1.42–3.62), migrant background (AOR = 2.03, 95% CI = 1.29–3.20), and absence of any STI symptoms in the previous year (AOR = 1.66, 95% CI = 1.09–2.52).
MG infection was prevalent among FSWs in the study areas. This pattern of infection suggests that an increasing attention should be paid to MG screening and treatment in this high risk population.
Mycoplasma genitalium (MG) was first isolated from the urethras of two men with nongonococcal urethritis (NGU) in 1980 , and it has been widely recognized as a sexually transmitted pathogen and one of the common causes of NGU . MG is associated with cervicitis , endometritis , and pelvic inflammatory diseases (PID)  in women. If left untreated, MG infection can lead to tubal factor infertility [6, 7].
In China, NGU has been resurgent since 1980s and used to be one of sexually transmitted infections (STIs) for case-reporting before 2008. Since then NGU has been replaced by Chlamydia trachomatis (CT) for national sentinel surveillance programme . A few studies on MG were conducted in China, showing a prevalence rate of 20.6% to 25% among NGU patients [9, 10], and 44.19% among non-chlamydial NGU patients . These findings indicate that MG infection is prevalent in China. In women, MG is related to the inflammatory syndromes of the female reproductive tract. MG was found to be positively associated with urethritis and microscopic signs of cervicitis and/or mucopurulent cervical discharge in a literature review . In addition, MG was found to be positively associated with PID [4, 5][12, 13]. The associations of MG with preterm birth and of MG with tubal infertility were also reported [6, 7].
There have been many studies globally to determine the disease burden of MG and its associated factors in high-risk groups, particularly in female sex workers (FSWs). MG infection is common among FSWs. A study among FSWs in west Africa indicated that the prevalence of MG was higher than that of CT or Neisseria gonorrhoeae (NG) , and a prospective study showed that MG had a greater incidence (22.7 per 100 women-years) than that for both CT and NG among FSWs in Kenya . In China, a few studies on MG prevalence in FSWs were conducted with relatively small sample size[16, 17]. The limitation of such studies in China may be partially related to the ignorance of this infection in STD control programs and/or the lack of commercially available testing kits. The current study was aimed to determine the prevalence and the associated factors of MG infection among FSWs in two cities of Guangxi Autonomous Region in southwest China.
FSWs were recruited from varying work venues in two cities, Wuzhou and Hezhou, in Guangxi Autonomous Region, China. The venues where women solicited their sex clients in two study sites (Wuzhou and Hezhou) were mapped to determine the nature and location of each venue and a stratified random sample of the venues was identified. In each selected venue, a convenience sample of FSWs was recruited for questionnaire survey and cervical specimen collection. Eligibilities to participate in this study were females who were older than 18 years and reported providing commercial sex in the past year. The venues where FSWs were recruited included karaoke bars, star hotels, hair salons, barber shops, massage parlors, foot bathing shops, roadside shops, guesthouses, and roadside restaurants. FSWs who solicited on the streets or in other public outdoor places were recruited as well. The study protocol was reviewed and approved by the Ethics Committee of the National Center for STD Control in Nanjing, China.
Eligible FSWs were invited to participate in the study after receiving a brief introduction of the study from outreach workers. After informed consent was obtained, the participants were interviewed by outreach workers with a structured questionnaire to collect information on socio-demographic characteristics, behavioral characteristics, and STI symptoms (discharge, pain, bleeding, discomfort, etc.) in the past year. Cervical swabs were collected by trained nurses.
Cervical swab samples were shipped to the National Reference Laboratory of the National Center for STD Control in Nanjing and stored at −70°C until testing for MG, The test was performed using a previously published and validated method of real-time PCR targeting the mgpA gene . DNA was extracted from cervical swabs using the QIAmp DNA Mini Kit (Qiagen, GmbH, Germany) according to the manufacturer’s instructions. For detecting a 78 bp fragment of the mgpA gene, each PCR reaction was carried out in a total volume of 25 μl of reaction mixture containing 5 μl template DNA, 1× reaction buffer, 3.5 mM MgCl2, 200 μM dNTP mix, 0.625U HotStar Taq Polymerase (Qiagen, GmbH, Germany), 1.0 μM each primer (the forward primer MgPa-355 F, 5'-GAG AAA TAC CTT GAT GGT CAG CAA-3'; the reverse primer MgPa-432R, 5'-GTT AAT ATC ATA TAA AGC TCT ACC GTT GTT ATC-3'), and 0.1 μM MgPa-380 Taqman MGB probe (5'-FAM-ACT TTG CAA TCA GAA GGT-MGB-3') (Applied Biosystems, USA). PCR amplification was performed in a Lightcycler 480 instrument (Roche, Switzerland) under the following conditions: HotStar Taq Polymerase activation at 95°C for 10 min followed by a touch down protocol consisting of 1 cycle of denaturation at 95°C for 15 s, annealing at 64°C for 30 s, and extension at 72°C for 30 s; 1 cycle of denaturation at 95°C for 15 s, annealing at 62°C for 30 s, and extension at 72°C for 30 s; and 48 cycles of denaturation at 95°C for 15 s, annealing at 60°C for 30 s, and extension at 72°C for 30 s. We used a positive control in each batch of test by adding a known amount of MG to the PCR mixture as a control for the PCR efficiency.
All data from the questionnaire were double entered into computer using EpiData software (EpiData Association, Denmark) by two research assistants. Comparisons of the categorical data were performed using Pearson χ2 test. The univariate regression analysis was used to preliminarily determine the risk factors associated with MG infection and estimate odds ratio (OR). The factors with significance level at p < 0.10 in the univariate analysis were included in a multivariate logistic regression model to the risk factors which independently associated with MG infection and estimate the adjusted odds ratio (AOR) as well as 95% confidence intervals (95%CI). A probability level of p < 0.05 was considered statistically significant. SPSS for Windows 13.0 (SPSS Inc, USA) was used for statistical analysis.
From July to September 2009, a total of 810 FSWs were recruited from the two cities. The mean age was 26.53 years old (range 18–52 years old), and 80.6% (652/809) of them were of Han ethnicity. Out of the 810 participants, 15.8% received an education at senior high school or above, 57.4% were single. Less than half (41.6%, 336/808) of the participating FSWs were local registered residents. Similar numbers of FSWs were recruited in Wuzhou City (406) and Hezhou City (404).
STI symptoms and sexual behaviors
Three-quarters (598/810) of the participants received at least one of the following kinds of health care service in the previous year: the introduction of STI and AIDS prevention knowledge, STI examination or treatment, testing and consulting for HIV and syphilis, the introduction of condom use, and free condoms. Among 810 participants, 57.4% (465/810) presented at least one of the STI symptoms (discharge, pain, bleeding, discomfort, etc.) in the previous year, including 37.5% who had only one symptom and 19.9% who had more than one. Majority (82.1%, 665/810) of participants reported condom use in the most recent sexual transaction. Over half (59.6%) reported consistent condom use, 31.1% reported used condoms sometimes during the previous month, and 5.3% reported never using a condom. Of 807 participants, 11.8% (95/807) reported drug use in the previous year.
Mycoplasma genitaliumprevalence and risk factors
The real-time PCR successfully amplified the 78 bp fragment of the mgpA gene in 107 of 810 cervical swabs, yielding the overall MG prevalence of 13.2% (95% CI = 10.87%–15.52%).
In the univariate analysis, MG infection was significantly associated with less education consisting of junior high school and below, being single, living alone or with partners rather than husbands, migrant background, and absence of STI symptoms in the previous year. No association was observed between MG infection and ethnicity, health care in the previous year, condom use in the most recent sexual transaction, frequency of condom use in the previous month and study city.
Socio-demographic and behavioral characteristics, and factors associated with Mycoplasma genitalium infection among female sex workers in Guangxi, China
Female sex workers
OR1 (95% CI2)
p = 0.38
p = 0.1
p = 0.028
p = 0.02
Junior high school or below
Senior high school or above
p < 0.001
p < 0.001
p = 0.012
Living with spouse
Living with others
p = 0.005
p = 0.002
City of recruitment
p = 0.37
Receiving health care in the past year
p = 0.63
Presenting STI symptoms in the past year
p = 0.03
p = 0.02
Condom use during last transaction
p = 0.34
Declined to answer
0.3 0 (0.04-2.39)
Condom use frequency with clients in the past month
p = 0.313
Declined to answer
Drug use in the past year
p = 0.062
In this study, the MG prevalence of 13% based on PCR assay among 810 FSWs in two cities in southwest China is similar to that reported among FSWs in other Asian countries (12% in Indonesia  and 12% in Japan ), but lower than that in some African countries with high HIV prevalence (26%in west Africa  and 16% in Kenya ). In comparison with other areas in China, this rate is slightly lower than that 16% and 17% reported in two studies with small sample sizes (72 and 75) of FSWs in Jiangsu Province in 2005 [16, 17]. A literature review based on 48 published reports of MG urogenital infection in high- or low-risk populations worldwide indicates an overall prevalence of 7% and 2%, respectively . The prevalence of MG in our study population is higher than not only the overall prevalence in low-risk but also that in high-risk population, indicating the needs for public health interventions in the study areas.
In the present study, we assessed the associations between MG infection and socio-demographic and behavioral characteristics and STI symptoms (discharge, pain, bleeding, discomfort, etc.). A significant association between MG infection with less education is consistent with the finding of an earlier study in west African . This association might be attributed to working on street and outdoor places with more sexual partners, and less knowledge with STI prevention, and poor seeking health care services of those FSWs with less education. Single FSWs had higher MG prevalence, and single status is related to younger age. More sexual activity, and possibly less knowledge and experience with STI prevention, including less use of a condom , could be reflected by younger age.
Unlike prior cross sectional studies of women [14, 20], absence of STI symptoms in the past year was associated with MG infection in this study, The lack of association between MG infection and the presence of STI symptoms might be due to the following reasons. First, presence of STI symptoms in the past year were self-reported and recall bias might exist. The subjective feeling and limited nature of reproductive tract symptoms also could contribute to the causal associations with MG infection. Second, if STI symptoms were very slight, they could be ignored. Third, the biologically confirmed rate of current sexually transmitted infection has been repeatedly found to be higher than self-reported STI history . For instance, in one study, only 19.4% of 454 FSWs in Guangxi reported a history of STI, while 41.5% of them tested positive for at least one STI . Furthermore, younger women may have more biological susceptibility to some STIs due to cervical ectopy and less likelihood of acquired immunity from previous STI exposure [24, 25]. This may be a reason why a past history of STIs was negatively associated with prevalent STI infection in this study. However, further studies are needed to provide more evidence on the protective immunity related to MG infection.
The finding of our study suggests that MG infection in women is more likely to be asymptomatic or have few slight symptoms, which may easily be ignored and undiagnosed.
In China, rural-to-urban migrants have been found to have higher sexual risks than local residents . Migrant FSWs have been found to have low rates of condom use and high rates of STIs in many studies [27, 28]. This risk behavioral characteristics of migrant FSWs is also reflected by a higher prevalence of MG observed in our study. The association between condom use and MG infection was not observed in this study, which was consistent with the results from the west African FSWs study as well as the Uganda FSWs study [14, 29].
Even though the overall HIV prevalence in China is low, HIV infection through heterosexual transmission is increasing . In light of the rapid spread of classic STDs with high prevalence in FSWs  and the extensive use of commercial sex by their clients, FSWs are a high risk population for HIV/STD infection and for increasing the risk of HIV transmission. A significant association between MG and HIV infection has been observed in many cross-sectional studies and is well-reviewed. In a systematic review and meta-analysis of 19 studies, MG infection was associated with a 2-fold increased risk of HIV infection . MG organism burden is associated with the shedding of HIV-1 DNA from the cervix , suggesting that MG infection may facilitate HIV transmission. Regarding the high prevalence of MG infection among FSWs in China, active interventions of MG infection will have not only implications for decreasing disease burden caused by MG but also preventing sexual transmission of HIV among this population and their clients.
After the initial isolation of MG three decades ago, it has been repeatedly identified as a STI pathogen. Although MG prevalence in high-risk population such as FSWs is gaining increasing attention worldwide, only a few studies estimated MG prevalence among small Chinese FSW populations. This report is the first to determine the prevalence and risk factors of MG among a large Chinese FSW population.
Since MG is extremely difficult to culture, several PCR methods are now commonly used to tested MG, including: conventional 16 S rRNA gene PCR, real-time 16 S rRNA gene PCR and real-time mgpA gene PCR. Jenson and his research team developed the real-time mgpA gene PCR method in 2004, they also compared the specificity and sensitivity of this method with conventional PCR for detection of the 16 S rRNA gene. Results showed real-time mgpA gene PCR to be more sensitive and have less inhibition . Another subsequent study compared the above three different PCR assays, and results showed that among them, real-time mgpA gene PCR had the highest sensitivity. The authors concluded that it was well suited for the clinical diagnosis of MG . Thus, we chose real-time mgpA gene PCR to test for MG in our study.
The present study has several limitations. First, data of socio-demographic and behavioral characteristics were self-reported from face-to-face interview, recall and report bias can be a concern. Second, as our study subjects were not a representative sample of the FSWs population and a convenience sample based on venue-based recruitment was used, any generalization of the results from this study should therefore be made with caution. Third, when we compare the MG prevalence among studies, we should keep in mind that due to the use of different test methods, sensitivity and specificity may vary and therefore may partly affect the results. Since we did not perform the inhibition analysis by using the real-time mgpA gene PCR assay, MG infection rate may be higher and accuracy of the test results might also be influenced by the quality of the samples. Finally, this study did not investigate the associations of HIV and other STIs with MG infection.
In this study, the overall prevalence of MG infection was found to be substantial among FSWs in study areas. These findings highlight the needs for increased attention towards prevention and intervention of MG infection among FSWs. Routine screening, timely diagnosis, and treatment of MG infection should be considered in comprehensive HIV/STI control program in China.
We would like to thank the Guangxi Center for Disease Control and Prevention for their collaboration in this study and facilitating the outreach work of this effort. The authors would especially like to thank the field staff and the study participants who made this survey possible. Special thanks to Ms. Chun Gu and Helena Chang for their assistance in editing this the manuscript. The authors are also grateful to Jing Li for her important contribution to statistical analyses.
This study was funded by the Mega Project of the National Science Research of China for the 11th and 12th Five-Year Plan (2008ZX10001-005, 2009ZX10004-904 and 2009ZX09303) and by the National Center for STD Control of China.
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