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Effectiveness of HIV Risk Reduction Interventions among Men who have Sex with Men in China: A Systematic Review and Meta-Analysis

  • Hongyan Lu,

    Affiliation Institute for AIDS/STD Prevention & Control, Beijing Center for Disease Prevention and Control, Beijing, China

  • Yu Liu,

    Affiliation Vanderbilt Institute for Global Health, Vanderbilt University School of Medicine, Nashville, Tennessee, United States of America

  • Kapil Dahiya,

    Affiliation Department of Public Health, College of Health and Human Services, Western Kentucky University, Bowling Green, Kentucky, United States of America

  • Han-Zhu Qian,

    Affiliations Vanderbilt Institute for Global Health, Vanderbilt University School of Medicine, Nashville, Tennessee, United States of America, Department of Medicine, Vanderbilt University School of Medicine, Nashville, Tennessee, United States of America

  • Wensheng Fan,

    Affiliation Department of Public Health, College of Health and Human Services, Western Kentucky University, Bowling Green, Kentucky, United States of America

  • Li Zhang,

    Affiliation Institute for AIDS/STD Prevention & Control, Beijing Center for Disease Prevention and Control, Beijing, China

  • Juntao Ma,

    Affiliation Medical Library of Chinese People’s Liberation Army, Beijing, China

  • Yuhua Ruan,

    Affiliations State Key Laboratory for Infectious Disease Prevention and Control, and National Center for AIDS/STD Control and Prevention (NCAIDS), Chinese Center for Disease Control and Prevention (China CDC), Beijing, China, Collaborative Innovation Center for Diagnosis and Treatment of Infectious Diseases, Hangzhou, China

  • Yiming Shao,

    Affiliations State Key Laboratory for Infectious Disease Prevention and Control, and National Center for AIDS/STD Control and Prevention (NCAIDS), Chinese Center for Disease Control and Prevention (China CDC), Beijing, China, Collaborative Innovation Center for Diagnosis and Treatment of Infectious Diseases, Hangzhou, China

  • Sten H. Vermund,

    Affiliations Vanderbilt Institute for Global Health, Vanderbilt University School of Medicine, Nashville, Tennessee, United States of America, Department Pediatrics, Vanderbilt University School of Medicine, Nashville, Tennessee, United States of America

  • Lu Yin

    lu.yin@vanderbilt.edu

    Affiliation Vanderbilt Institute for Global Health, Vanderbilt University School of Medicine, Nashville, Tennessee, United States of America

Abstract

Objective

To evaluate the effect of risk reduction interventions on HIV knowledge, attitudes and behaviors among men who have sex with men (MSM) in China.

Methods

We performed a systematic review and meta-analysis of HIV risk reduction intervention studies among Chinese MSM. The summary difference of standardized mean differences (SMD) between both study arms or between pre- and post-intervention assessments were defined as the effect size (ES); ES was calculated using standard meta-analysis in random effects models.

Results

Thirty-four eligible studies were included in the analysis, including two randomized clinical trials (RCT), six quasi-experimental studies, six pre-and-post intervention studies, and twenty serial cross-sectional intervention studies. These studies showed an increase in consistent condom use with any male sexual partners (mean ES, 0.46; 95% confidence interval [CI], 0.35–0.56), with regular sexual partners (mean ES, 0.41; 95% CI, 0.18–0.63), and casual sexual partners (mean ES, 0.52; 95% CI, 0.24–0.79). The analysis of ten studies that measured the impact on uptake of HIV testing also showed a positive result (mean ES, 0.55; 95% CI, 0.38–0.71). The risk reduction interventions also improved HIV/AIDS-related knowledge (mean ES, 0.77; 95% CI, 0.60–0.94) and attitudes (mean ES, 1.35; 95% CI, 0.91–1.79), but did not reduce prevalence of HIV (mean ES, 0.23; 95% CI, 0.02–0.45) and syphilis infections (mean ES, −0.01; 95% CI, −0.19–0.17). There was significant heterogeneity among these studies.

Conclusions

On aggregate, HIV risk reduction interventions were effective in reducing risky behaviors and improving knowledge and attitudes among Chinese MSM, but were not associated with a change in the prevalence of HIV and syphilis. Future studies should use incidence as definitive study outcome.

Introduction

Men who have sex with men (MSM) have become one of main subgroup populations at high risk of HIV infection in China in the past decade [1]. Chinese MSM tend to live in large- or middle-size cities rather than in small towns and rural areas for numerous considerations, e.g., there are more job opportunities; it is easier to find sexual partners; there are more socially tolerant environments which also keep some MSM away from their family members and acquaintances in their hometowns. MSM have lived in situations of repression, negative feedback, and discrimination and stigma. They often are poorly informed as to their sexual risks; a desire for intimacy and sexual fulfillment tends to outweigh the possible consequences of unprotected sex and the risks associated with it. Risky behaviors can occur in the context of an increasing number of MSM with HIV infection, some in acute stages of infection with very high HIV viral loads. The twin-epidemic of HIV and of STI can increase HIV viral expression and break down the integrity of mucosal surfaces and can further recruit HIV target cells to the infected area. HIV has spread quickly among Chinese MSM particularly in urban areas [2], [3], [4]; a national survey in 61 cities in years 2008 and 2009 showed 4.9% prevalence rate [5]. It is an urgent need to find effective intervention approaches to respond to the emerging epidemic among MSM in China as well as in other areas of the world [6].

Attitudes towards sex and sexual behaviors in China have evolved over thousands of years, but have advanced rapidly in recent years, reflecting cultural input consequent to industrialization and Western cultural norms and values in the past 30 years. Now people in China tend to be more tolerant towards homosexuality which has begun to be considered as a legitimate lifestyle choice. Although Chinese government has prioritized HIV prevention programs for MSM population, these programs often do not involve gay community and their community based organizations (CBOs), and therefore, their impact may be limited [7]. Unprotected sex and frequent change of sexual partners are prevalent among Chinese MSM, particularly among young MSM [8], and abuse of alcohol and club drugs further increase unprotected sex in a group of MSM [9], [10], [11] and put MSM at higher risk of contracting and transmitting HIV.

Two recently published meta-analyses evaluated the efficacy of HIV prevention intervention among MSM in China, suggesting that interventions may increase condom use, uptake of HIV testing, and HIV-related knowledge [12], [13]. There were numerous more recent intervention studies evaluating the efficacy on HIV-related behaviors, attitudes, and knowledge in China [14], [15], [16], [17], [18]. Hence, we conducted an updated systematic review and meta-analysis to evaluate the effects of HIV risk reduction interventions on knowledge, attitudes, behaviors and disease prevalence among Chinese MSM.

Results

Results from Literature Search

Our search yielded 1896 entries from twelve electronic databases (Figure 1); 864 titles and abstracts were reviewed and 1032 duplicates were removed. We excluded 814 citations because they did not meet one or more of the inclusion criteria. Out of 50 potential relevant papers for full text reviewing, 16 were further excluded because of not original article (i.e., editorial, comment, or review; k = 8), no specific intervention involved (k = 4), lack of information on target outcomes (k = 3), and repeated report from the same study (k = 1). The excluded articles are listed in Appendix S1. We included 34 studies in our systematic review.

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Figure 1. Flow diagram of the literature search process1.

1 Twelve databases included: 1) AMED; 2) BNI; 3) EMBASE; 4) CNKI; 5) CQVIP; 6) EconLit; 7) ERIC; 8) Medline; 9) PsycINFO; 10) Scopus; 11) ISI Web of Science; 12) Wanfang Data.

https://doi.org/10.1371/journal.pone.0072747.g001

Of 34 studies, study design included: two RCT [14], [19], six quasi-experimental studies [15], [17], [20], [21], [22], [23], six self-pre-and-post intervention studies without control groups [18], [24], [25], [26], [27], [28], and twenty serial cross-sectional studies (Table 1). A large variation of rigor scores was noted, ranging from 0 to 8, with a mean score of 2.5. One study had a rigor score of zero [29], nineteen had a score of one, and only five had a score of ≥6 [14], [19], [20], [22], [23] (Table 2).

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Table 1. Characteristics of HIV intervention prevention studies among Chinese men who have sex with men.

https://doi.org/10.1371/journal.pone.0072747.t001

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Table 2. Quality assessment of study design (rigor score*).

https://doi.org/10.1371/journal.pone.0072747.t002

Consistent Condom Use

A variety of condom use outcomes were reported, e.g., in anal sex with regular, casual, and/or mixed sexual partners and were measured during various recall periods, e.g., during last sexual encounter, in the past month, and/or the past six months (Table 3). The overall effectiveness of risk reduction interventions on consistent condom use with any sexual partners during anal intercourse is presented in Figure 2. Twenty five studies reported a positive association between interventions and consistent condom use, and 17 had statistical significance. Meta-analysis of these 25 studies showed that risk reduction intervention increased consistent condom use (mean ES: 0.46; 95% CI: 0.35, 0.56; P<0.01). Large heterogeneity was observed among these studies (I2 = 87.2%; P<0.01). The funnel plot show significant evidence of publication bias (Kendall tau = 0.31; P = 0.03; Egger’s t value = 3.86; P<0.01).

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Figure 2. Forest plot of effect size: the impact of behavioral interventions on consistent condom use during anal intercourses with any male sexual partners among MSM in China.

https://doi.org/10.1371/journal.pone.0072747.g002

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Table 3. Behavioral, biomedical, and knowledge outcomes of HIV intervention studies among Chinese MSM.

https://doi.org/10.1371/journal.pone.0072747.t003

The effectiveness was also shown in subgroup analyses by: (1) type of sexual partners (2) recall period, (3) number of study sites, (4) venue of recruiting participants, (5) type of risk reduction intervention, (6) study design, (7) sample size at baseline, and (8) rigor score (Table 4). In standardized deleted residual analysis, four studies [24], [27], [30], [31] were identified as outliers (standardized deleted residual = 3.40 [24], 2.02 [27], 2.05 [30],−2.23 [31]). Further sensitivity analyses were used to evaluate the stability of summary effect size in the meta-analysis by excluding the outlier studies. Summary effect sizes were not changed after these exclusions (Table 4).

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Table 4. Subgroup and sensitivity analyses of consistent condom use with any sexual partners during anal intercourse.

https://doi.org/10.1371/journal.pone.0072747.t004

Six studies presented separately the proportions of consistent condom use with regular and casual sexual partners during anal intercourse. The effect sizes in the meta-analysis were similar with regular sexual partners (mean ES, 0.41; 95% CI, 0.18–0.63), and with casual sexual partners (mean ES, 0.52; 95% CI, 0.24–0.79; Figure 3).

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Figure 3. Forest plot of effect size: the impact of behavioral interventions on consistent condom use during anal intercourses among MSM in China by types of sexual partners.

https://doi.org/10.1371/journal.pone.0072747.g003

Uptake of HIV Testing

Of ten studies evaluating uptake of HIV testing eight reported an increased proportion of taking HIV testing while two did not [19], [32]. Meta-analysis of ten studies showed a marked increase in taking HIV testing post intervention (mean ES, 0.55; 95% CI, 0.38–0.71; P<0.01). Substantial heterogeneity was found across these six studies (I2 = 83.8%, P<0.01; Figure 4).

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Figure 4. Forest plot of effect size: the impact of behavioral interventions on uptake of HIV testing among MSM in China.

https://doi.org/10.1371/journal.pone.0072747.g004

HIV/AIDS-related Knowledge and Attitudes

Of 21 studies reported HIV/AIDS knowledge outcome, 20 showed statistically significant increase, while 4 reported no statistically different change [28], [33], [34], [35] (Figure 5). Meta-analysis found a significant positive effect size (mean ES, 0.77; 95% CI, 0.60–0.94; P<0.01). Large statistical heterogeneity was observed (I2 = 90.2%; P<0.01).

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Figure 5. Forest plot of effect size: the impact of behavioral interventions on HIV/AIDS-related knowledge and attitude among MSM in China.

https://doi.org/10.1371/journal.pone.0072747.g005

Only three studies evaluated AIDS-related attitudes [20], [21], [22], and all found improvement of AIDS-related attitudes. The summary ES was 1.35 (95% CI, 0.91, 1.79; P<0.01), but large heterogeneity was noted (I2 = 63.6%, P = 0.04).

HIV and Syphilis Infections

Ten serial cross-sectional studies assessed HIV/STI outcomes. Six studies had no summary effect on syphilis prevalence (mean ES, −0.01; 95% CI, −0.19, 0.17; P = 0.93), and ten studies had a positive overall effect on increasing HIV prevalence (mean ES, 0.23; 95% CI, 0.02, 0.45; P = 0.03). Large statistical heterogeneity was observed for two outcomes (Figure 6).

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Figure 6. Forest plot of effect size: the impact of behavioral interventions on HIV and syphilis prevalence among MSM in China.

https://doi.org/10.1371/journal.pone.0072747.g006

Discussion

Our systematic review and meta-analysis evaluate the effectiveness of behavioral interventions on the HIV-related behaviors, knowledge and attitudes, as well as prevalence of HIV/STI among MSM in China. Compared to two previous meta-analytic reviews involving 16 [12] and 22 [13] individual studies in China, respectively, our review included 34 studies with four intervention study designs. Our meta-analysis confirmed previous reviews on increasing consistent condom use, HIV/AIDS knowledge [13], and uptake of HIV testing [12], [13]. Our review also evaluated the effect on HIV and syphilis prevalence, but showed no positive effect.

Consistent condom use is seen as the most relevant HIV-related behavior to evaluate effectiveness of interventions among MSM. Our meta-analysis found that a variety of behavioral interventions conducted in China were associated with a significant increase in consistent condom use in anal intercourse. The positive effect was consistent in different study designs and by different measurement periods. However, HIV prevalence among MSM in China increased from 0.6% in 2003 to 7.4% in 2009 from a systematic review and meta-analysis [4]. The possible reasons for this contradiction might be: i) consistent condom use is a poor surrogate index of HIV risk because social desirability bias exists among MSM with consequent over-reporting of condom use; ii) prevention and control measures are not tailored to the needs and context of MSM communities, overestimating their effectiveness; iii) positive reports of program effectiveness might be easier to publish in peer-reviewed journals, resulting in a positive publication bias.

Unprotected anal intercourse (UAI) with casual sexual partners is known as an important route of HIV acquisition for MSM. Recent research has indicated that higher levels of UAI may be associated with one’s level of perceived familiarity with casual sexual partners [36]. Likewise, UAI with regular sexual partners has increasingly attracted attention in recent years [37], [38]. It is notable that behavioral interventions significantly increased consistent condom use during anal intercourse both with casual (41% increase) and regular sexual partners (52% increase) in our subgroup meta-analyses, involving 12 individual studies. Our stratified analyses by number of study sites, venue of recruiting participants, type of risk reduction interventions, sample size at baseline, and rigor score of study design also found significant increases of consistent condom use during anal sex in these specific subgroups. The evidence base currently provides general support for intervention approaches, and the efforts to better understand mechanisms of intervention effects and confirm positive effects in high rigor designs should be prioritized.

Client-initiated HIV testing and counseling, known as voluntary counseling and testing (VCT), and provider-initiated HIV testing and counseling in health facilities have helped millions of people learn their HIV status, but global coverage of HIV testing and counseling programs remains low, especially in China. Low levels of HIV prevalence and high levels of stigma and discrimination against people living with HIV/AIDS are disincentives for VCT [39], [40]. Many studies have confirmed intervention effects of VCT promotion [41], [42], [43], but this significant effect may wane over time since the intervention [41]. Eight of ten studies from China reported positive effects on seeking HIV testing, continuing 6- to 48-months after intervention. In our meta-analysis, a 55% increase in HIV test seeking was associated with the behavioral interventions, though one study from Hong Kong showed 29% decrease at 6 months after internet-based intervention [19]. Far more work is needed in China to identify the effectiveness of different interventions on various outcomes over time.

Correct HIV-related knowledge and positive attitudes toward HIV/AIDS have been used to evaluate the interventions among MSM, especially in China. Inconsistent scales for quantitative measurement of HIV-related knowledge and attitudes present substantial challenges for estimating overall effectiveness. Combining the individual studies using meta-analysis suggested a 77% increase of HIV-related knowledge involving 21 Chinese studies, and a 135% increase of HIV-related positive attitudes in three Chinese studies [20], [21], [22].

It is challenging and costly to measure incidence of HIV or other STD, particularly over a meaningful and substantial time period. To our knowledge, only one meta-analysis among two studies has been done and shown 80% reduction of STI acquisition (chlamydia or gonorrhea) among people living with HIV/AIDS [44], [45], [46]. Our study failed to observe reduction of HIV and syphilis infections among Chinese MSM by synthesizing the findings from ten serial cross-sectional studies that measured one or both infections, though various behavioral interventions were performed in some selected cities, though a 40% increase of consistent condom use was observed in the subgroup analysis of serial cross-sectional studies. The similar finding from a recent meta-analytic review showed that HIV prevalence among MSM has substantially increased from 2001–2009 across all Chinese regions [2]. More comprehensive behavioral and biomedical interventions are needed to control this ongoing disaster.

Strengths and Limitations

The strength of our study is our thoroughness and methodological rigor of the meta-analysis for risk reduction interventions among Chinese MSM. Our elucidation of the impact of behavioral interventions on behavior and knowledge is useful in identifying ongoing research and service needs. Our analyses adjusted baseline data between study arms in evaluating the effect of interventions and combined continuous and categorical outcomes of targeted outcomes, something done rarely in other reviews.

Our meta-analysis has limitations as well. All studies used self-reported behaviors, knowledge and attitudes as the outcomes of interest, which might be subject to social desirability bias. Second, no comparison group was included in pre-and-post studies and non-randomization designs represented most of the included studies, contributing a large portion of heterogeneity and reducing the power of analysis. Third, major publication bias in the formal evaluations was found. Positive outcomes might be easier to be accepted by journals. Finally, although 12 databases were searched for the reviews and extensive check for completeness by cross-referencing were employed, we cannot exclude having missed a relevant study.

Methods

Literature Search and Study Selection

A literature search was conducted to identify studies evaluating the effectiveness of HIV risk reduction interventions among MSM in China. Twelve electronic databases were searched for publications in peer-reviewed journals through May 2013, including AMED (Allied and Complementary Medicine Database, Ovid Technologies, Inc., New York), British Nursing Index (Ovid Technologies, Inc., New York), CNKI (Tongfang Knowledge Network Technology Co., Ltd., Beijing, China), CQVIP (Chongqing VIP Information Co., Ltd., Chongqing, China), EMBASE (Elsevier, Amsterdam, The Netherlands), EconLit (The American Economic Association, New York), ERIC (Education Resources Information Centre, Institute of Education Sciences of the U.S. Department of Education, Washington), Ovid Medline (Ovid Technologies, Inc., New York), PsycINFO (American Psychological Association, Washington), Scopus (Elsevier, Amsterdam, The Netherlands), Wanfang Data (Chinese Ministry of Science & Technology, Beijing, China), and Web of Science (Thomson Scientific Technical Support, New York). The following combination of key words was used in literature search: (men who have sex with men OR MSM OR homosexual men OR gay men OR bisexual men OR transgender women OR money boy) AND (HIV OR AIDS OR sexually transmitted infections OR sexually transmitted diseases) AND (intervention OR randomized clinical trial OR treatment OR prevention OR adherence OR compliance). All publications were exported to an Endnote file (Endnote X4, Thomson Reuters, San Francisco, CA), and duplicates were deleted. The title and abstract of each paper were independently reviewed by two authors (Liu Y, and Dahiya K) to determine its relevance to the topic. Then, full texts were reviewed whether the paper assessed impacts of risk reduction intervention on HIV-related outcomes among MSM in China. Cross-referencing by checking the cited references in the included papers was also performed as an additional tool to identify relevant publications.

Inclusion Criteria

Studies that met the following criteria were included in this meta-analysis: 1) studies evaluating the effectiveness of HIV risk reduction interventions among MSM, including randomized clinical trials (RCTs), quasi-experimental studies, pre-and-post intervention studies without control groups, and serial cross-sectional intervention studies; 2) studies conducted in China; 3) studies reporting HIV-related knowledge, attitudes and behaviors, as well as prevalence of HIV or other sexually transmitted infections (STIs); 4) published in English or Chinese. Duplication of human samples of included studies was evaluated by two authors and these samples were only used once in our analyses.

Data Extraction

Data extraction was independently done by two authors (Liu Y, and Dahiya K) using a standardized form including items on lead author, publication year, study city, venue of recruiting participants, study design, demographic characteristics of study groups, characteristics of sex partners (regular or casual), description of intervention and comparison, duration of follow-up, drop-out rate, proportion or mean frequency of HIV-related outcomes at different follow-up time points, and rigor score of study design. Any disagreements between two data extractors were discussed with the team until a consensus was reached.

Rigor Score

The rigor of study design for each study was assessed using an 8-item scale, as used in other reviews [47], [48] plus an additional item of sample size with a cut-off value of >100 representing good statistical power. The scale is additive, with 1 point for each item. Therefore, the rigor score ranges from 0 to 9, with a higher value representing better study design.

Statistical Methods

We focused on six main outcomes in our meta-analysis: (1) consistent condom use, (2) uptake of HIV testing, (3) HIV-related knowledge, (4) HIV-related attitudes, (5) HIV infection, and (6) syphilis infection. For studies with multiple intervention arms [20], the effect sizes were calculated using the same comparison arm. When some studies had multiple measurements at different follow-up time points, the last follow-up assessment was used in the meta-analysis for estimating the overall effect size. When such outcome variables were not explicitly reported, they were derived from data provided in the paper or were secured from the authors when possible.

Effect size was calculated on the basis of targeted outcomes from the baseline and latest follow-up assessments between study arms (or self-pre-and-post intervention studies without control arms, or serial cross-sectional intervention studies). Standard mean differences (SMDs) and 95% confidence intervals (Cls) were used to estimate the effectiveness of risk reduction interventions. When studies reported dichotomous outcomes, we transformed odds ratios into SMDs using Cox transformation [49], [50]. SMD in each study arm was calculated as a fraction of dividing the difference of two means at follow-up and baseline by the pooled standard deviation (SD) of these two means [51]. The difference of SMDs from the intervention and comparison arms was used for meta-analysis. As the study arms might not be comparable at baseline, even in RCTs, we used Becker’s strategy to adjust for the reported difference between arms at baseline when calculating SMDs; for pre-and-post intervention studies without a comparison arm and for serial cross-sectional intervention studies, we assumed the value for the comparison arm was zero [51]. An SMD difference>0 indicated an increase in the given outcome in the intervention group relative to the control group. Random effects models were derived using the DerSimonian-Laird method [52], [53] to establish overall effect sizes. Random effects estimates allowed for variation of true effects across studies [54].

We assessed heterogeneities by I2 statistics [55], and identified outliers by standardized deleted residuals analyses. The funnel plot, Begg and Mazumdar rank correlation test, and Egger’s test of the intercept were employed to assess publication bias [56].

We conducted pre-planned subgroup analyses to examine consistent condom use during anal intercourse by type of sexual partners (regular vs. casual), length of recall period on consistent condom use (last sex vs. last 6 months), number of study site (one vs. multiple cities), venue of recruiting participants (establishment-based vs. other), type of risk reduction interventions (peer-led vs. other), study design (randomized clinical trial evaluation vs. quasi-experimental evaluation vs. self-pre-and-post intervention evaluation without control groups vs. serial cross-sectional intervention evaluation), sample size at baseline (≤300 vs. >300), and rigor score (1 vs. >1). We conducted sensitivity analyses to determine the stability of intervention effects by evaluating whether the overall effect size was sensitive to inclusion of each individual study. The R/S plus software version 2.15.1 was used for the meta-analyses [57].

Conclusions

Our analysis suggested that available behavioral interventions can increase consistent condom use during anal sex, regardless of type of sexual partners, encourage successfully seeking of HIV testing, increase HIV-related knowledge and improve attitudes. But these interventions have had limited impacts on HIV or syphilis infection per se. Well-designed intervention studies are needed to explore the effectiveness of a variety of MSM-focused behavioral intervention programs in China.

Author Contributions

Conceived and designed the experiments: YHR YMS SHV HZQ LY. Performed the experiments: HYL YL KD WSF LZ JTM LY. Analyzed the data: HYL LY. Contributed reagents/materials/analysis tools: HYL LZ JTM LY. Wrote the paper: HYL SHV HZQ LY.

References

  1. 1. Ministry of Health in People’s Republic of China, Joint United Nations Programme on HIV/AIDS, World Health Organization (2011) 2011 Estimates for the HIV/AIDS Epidemic in China. Beijing, China.
  2. 2. Chow EP, Wilson DP, Zhang J, Jing J, Zhang L (2011) Human immunodeficiency virus prevalence is increasing among men who have sex with men in China: findings from a review and meta-analysis. Sex Transm Dis 38: 845–857.
  3. 3. Chow EP, Iu KI, Fu X, Wilson DP, Zhang L (2012) HIV and sexually transmissible infections among money boys in China: a data synthesis and meta-analysis. PLoS One 7: e48025.
  4. 4. Meng X, Zou H, Beck J, Xu Y, Zhang X, et al. (2013) Trends in HIV prevalence among men who have sex with men in China 2003–09: a systematic review and meta-analysis. Sex Health 10: 211–219.
  5. 5. Wu Z, Xu J, Liu E, Mao Y, Xiao Y, et al.. (2013) HIV and Syphilis Prevalence Among Men Who Have Sex With Men: A Cross-Sectional Survey of 61 Cities in China. Clin Infect Dis: [Ahead of Print].
  6. 6. Beyrer C, Baral SD, van Griensven F, Goodreau SM, Chariyalertsak S, et al. (2012) Global epidemiology of HIV infection in men who have sex with men. Lancet 380: 367–377.
  7. 7. Ye S, Xiao Y, Jin C, Cassell H, Blevins M, et al. (2012) Effectiveness of integrated HIV prevention interventions among Chinese men who have sex with men: evaluation of a 16-city public health program. PLOS One 7: e50873.
  8. 8. Yu J (2012) Teenage sexual attitudes and behaviour in China: a literature review. Health Soc Care Community 20: 561–582.
  9. 9. Gerbi GB, Habtemariam T, Tameru B, Nganwa D, Robnett V (2009) The correlation between alcohol consumption and risky sexual behaviors among people living with HIV/AIDS. J Subst Use 14: 90–100.
  10. 10. Shuper PA, Joharchi N, Irving H, Rehm J (2009) Alcohol as a correlate of unprotected sexual behavior among people living with HIV/AIDS: review and meta-analysis. AIDS Behav 13: 1021–1036.
  11. 11. Gerbi GB, Habtemariam T, Tameru B, Nganwa D, Robnett V (2011) A comparative study of substance use before and after establishing HIV infection status among people living with HIV/AIDS. J Subst Use 16: 464–475.
  12. 12. Huang Z, Wang M, Fu L, Fang Y, Hao J, et al. (2013) Intervention to increase condom use and HIV testing among men who have sex with men in China: a meta-analysis. AIDS Res Hum Retroviruses 29: 441–448.
  13. 13. Zheng L, Zheng Y (2012) Efficacy of human immunodeficiency virus prevention interventions among men who have sex with men in China: a meta-analysis. Sex Transm Dis 39: 886–893.
  14. 14. Hao C, Huan X, Yan H, Yang H, Guan W, et al. (2012) A randomized controlled trial to evaluate the relative efficacy of enhanced versus standard voluntary counseling and testing on promoting condom use among men who have sex with men in China. AIDS Behav 16: 1138–1147.
  15. 15. Tan JG, Cheng JQ, Lu ZX (2012) Evaluation of effects of combination intervention model to men who have sex with men. Zhonghua Yu Fang Yi Xue Za Zhi 46: 732–735. [Chinese].
  16. 16. Wang K, Yan H, Liu Y, Leng Z, Wang B, et al. (2012) Increasing prevalence of HIV and syphilis but decreasing rate of self-reported unprotected anal intercourse among men who had sex with men in Harbin, China: results of five consecutive surveys from 2006 to 2010. Int J Epidemiol 41: 423–432.
  17. 17. Duan Y, Zhang H, Wang J, Wei S, Yu F, et al. (2013) Community-based peer intervention to reduce HIV risk among men who have sex with men in Sichuan province, China. AIDS Educ Prev 25: 38–48.
  18. 18. Guo W, Wu ZY, Song AJ, Poundstone K (2013) Impact of HIV/sexually transmitted infection testing on risky sexual behaviors among men who have sex with men in Langfang, China. Chin Med J (Engl) 126: 1257–1263.
  19. 19. Lau JT, Lau M, Cheung A, Tsui HY (2008) A randomized controlled study to evaluate the efficacy of an Internet-based intervention in reducing HIV risk behaviors among men who have sex with men in Hong Kong. AIDS Care 20: 820–828.
  20. 20. Gao Y, Wang S, Zhang S (2005) Success in adopting participatory approach to fight HIV through behavior change among gay men. Xian Dai Yu Fang Yi Xue 32: 1512–1515. [Chinese].
  21. 21. Wang S, Gao Y, Zhang S (2005) Success in HIV-related health information diffusion and behaviour change among gay men, China. Zhong Guo Xing Bing Ai Zi Bing Yu Fang Kong Zhi Za Zhi 59: 109–112. [Chinese].
  22. 22. Gao MY, Wang S (2007) Participatory communication and HIV/AIDS prevention in a Chinese marginalized (MSM) population. AIDS Care 19: 799–810.
  23. 23. Zhang H, Zhu J, Wu Z, Pang L, Zhang L, et al.. (2009) Intervention trial on HIV/AIDS among men who have sex with men based on venues and peer network. Zhonghua Liu Xing Bing Xue Za Zhi 43: 970–976. [Chinese].
  24. 24. Song D, Tao XY, Cai WD, Wei AY, Huang GW (2005) Survey of sexual behavior of male homosexuals and intervention measure for control of AIDS in Shenzhen City. Zhong Guo Re Dai Yi Xue 5: 877–879. [Chinese].
  25. 25. Zhu J, Zhang H, Wu Z, Zheng Y, Xu J, et al.. (2008) HIV risk behavior based on intervention among men who have sex with men peer groups in Anhui province. Zhonghua Yu Fang Yi Xue Za Zhi 42: 895–900. [Chinese].
  26. 26. He J, Dou Z, Wang F, Fang Y (2010) Estimate the effect of intervention models for control of AIDS among male homosexuals in Wuhu City. Shi Jie Gan Ran Za Zhi 10: 32–34. [Chinese].
  27. 27. Meng XY, Shao Y (2010) Evaluation on the Effect of AIDS Related High-risk Behavior Intervention among MSM in Pulandian City. Prev Med Trib 16: 334–335. [Chinese].
  28. 28. Wang YN, Liu JP, Xu QY, Zhang GP, Cai J, et al.. (2011) Effectiveness of health education on AIDS from non-governmental organizations among MSM. Xian Dai Yu Fang Yi Xue 38: 2523–2526.[Chinese].
  29. 29. Xu J (2006) Assessment of effects of AIDS prevention & care project on men who have sex with men. Chin J AIDS STD 12: 215, 231-212. [Chinese].
  30. 30. Zhang Z, Wen X, Chen W, Zhou Y (2010) Evaluation of intervention on AIDS related high risk behaviors among men having sex with men in Guilin. Yu Fang Yi Xue Qing Bao Za Zhi 26: 784–787. [Chinese].
  31. 31. Wu GF, He FM, Heng SY (2011) Intervention effects evaluation on AIDS-related knowledge and high-risk Behaviors among 244 MSM in colleges. Anhui J Prev Med 17: 86–88. [Chinese].
  32. 32. Xu J, Zhou W, Zhou DJ, Yao ZZ, Ding J, et al.. (2009) Evaluation of integrative behavioral intervention on AIDS among MSM in Wuhan. Chin J Health Edu 25: 736–738. [Chinese].
  33. 33. Wang Y, Zhang HB, Zhang GG, Yang HW, Fan J (2008) Effectiveness of AIDS related health education and behavioral intervention in Mianyang MSM group. J Prev Med Inf 24: 962–967. [Chinese].
  34. 34. Ding XB, Feng LG, Xiao Y, Jin CR, Xu SM, et al.. (2010) Treatment efficacy of behavior intervention on male homosexual AIDS patients. J Tropical Med 10: 323–326. [Chinese].
  35. 35. Li JJ, Huan XP, Yan HJ, Zhang M, Tang WM, et al.. (2011) Effectiveness of behavioral intervention combined with voluntary counseling and testing on high risk behaviors among MSM. Chin Prev Med 12: 666–669. [Chinese].
  36. 36. van den Boom W, Stolte I, Sandfort T, Davidovich U (2012) Serosorting and sexual risk behaviour according to different casual partnership types among MSM: the study of one-night stands and sex buddies. AIDS Care 24: 167–173.
  37. 37. Slavin S, Richters J, Kippax S (2004) Understanding of Risk Among HIV Seroconverters in Sydney. Health Risk Society 6: 39–52.
  38. 38. Blais M (2006) Vulnerability to HIV among regular male partners and the social coding of intimacy in modern societies. Cult Health Sex 8: 31–44.
  39. 39. World Health Organization, UNAIDS, UNICEF (2011) Global HIV/AIDS response: epidemic update and health sector progress towards universal access: progress report 2011.
  40. 40. International HIV/AIDS Alliance Asia and Eastern Europe team (April 2004) Voluntary Counselling and Testing. Emerging approaches from Asia and Eastern Europe.
  41. 41. Vidanapathirana J, Abramson MJ, Forbes A, Fairley C (2005) Mass media interventions for promoting HIV testing. Cochrane Database Syst Rev: CD004775.
  42. 42. Davis KC, Uhrig J, Rupert D, Fraze J, Goetz J, et al. (2011) Effectiveness of a mass media campaign in promoting HIV testing information seeking among African American women. J Health Commun 16: 1024–1039.
  43. 43. Sweat M, Morin S, Celentano D, Mulawa M, Singh B, et al. (2011) Community-based intervention to increase HIV testing and case detection in people aged 16–32 years in Tanzania, Zimbabwe, and Thailand (NIMH Project Accept, HPTN 043): a randomised study. Lancet Infect Dis 11: 525–532.
  44. 44. Wingood GM, DiClemente RJ, Mikhail I, Lang DL, McCree DH, et al.. (2004) A randomized controlled trial to reduce HIV transmission risk behaviors and sexually transmitted diseases among women living with HIV: The WiLLOW Program. J Acquir Immune Defic Syndr 37 S58–67.
  45. 45. Wolitski RJ, Gomez CA, Parsons JT (2005) Effects of a peer-led behavioral intervention to reduce HIV transmission and promote serostatus disclosure among HIV-seropositive gay and bisexual men. AIDS 19 S99–109.
  46. 46. Crepaz N, Lyles CM, Wolitski RJ, Passin WF, Rama SM, et al. (2006) Do prevention interventions reduce HIV risk behaviours among people living with HIV? A meta-analytic review of controlled trials. AIDS 20: 143–157.
  47. 47. Medley A, Kennedy C, O’Reilly K, Sweat M (2009) Effectiveness of peer education interventions for HIV prevention in developing countries: a systematic review and meta-analysis. AIDS Educ Prev 21: 181–206.
  48. 48. Kennedy CE, Medley AM, Sweat MD, O’Reilly KR (2010) Behavioural interventions for HIV positive prevention in developing countries: a systematic review and meta-analysis. Bull World Health Organ 88: 615–623.
  49. 49. Cox DR (1970) Analysis of binary data. New York: Chapman & Hall/CRC.
  50. 50. Sanchez-Meca J, Marin-Martinez F, Chacon-Moscoso S (2003) Effect-size indices for dichotomized outcomes in meta-analysis. Psychol Methods 8: 448–467.
  51. 51. Becker BJ (1988) Synthesizing standardized mean-change measures. Br J Math Stat Psychol 41: 257–278.
  52. 52. DerSimonian R, Laird N (1986) Meta-analysis in clinical trials. Control Clin Trials 7: 177–188.
  53. 53. Lipsey M, Wilson D (2001) Practical meta-analysis: Thousand Oaks, CA: Sage.
  54. 54. Normand SL (1999) Meta-analysis: formulating, evaluating, combining, and reporting. Stat Med 18: 321–359.
  55. 55. Deeks J, Altman D, Bradburn M (2002) Statistical methods for examining heterogeneity and combining results from several studies in a meta-analysis. In: Egger M, Davey Smith G, Altman D, editors. Systematic reviews in health care: meta-analysis in context. London: London: BMJ Publications. 285–312 p.
  56. 56. Rothstein HR, Sutton AJ, Borenstein M (2005) Publication Bias in Meta-Analysis: Prevention, Assessment and Adjustments: Chichester, England: Wiley.
  57. 57. R/S plus Software can be downloaded free. Available: http://127.0.0.1:13917/doc/html/index.html.
  58. 58. Liu F, Liu HH, Zhou C, Liu L, Yi D (2008) Effect of integrated intervention on HIV/AIDS of MSM in a certain District of Chongqing. Pract Prev Med 15: 1055–1058. [Chinese].
  59. 59. Cao NX, Jiang J, Ge FQ, Li Q, Wang XD, et al.. (2009) Effectiveness of comprehensive interventions for STD/HIV/AIDS prevention amongmale sexworkers. Chin J AIDS STD 15: 497–482. [Chinese].
  60. 60. Feng L, Ding X, Lv F, Pan C, Yi H, et al.. (2009) Study on the effect of intervention about acquired immunodeficiency syndrome among men who have sex with men. Zhonghua Liu Xing Bing Xue Za Zhi 30: 18–20. [Chinese].
  61. 61. Wang M, Wu CX (2009) Cognitive status of AIDS and the effects of health intervention among YMSM in Wuhan city. J Pub Health Prev Med 20: 43–46. [Chinese].
  62. 62. Wang Y, Zhang HB, Li ZJ, Xu J, Zhang GG, et al.. (2009) Effect evaluation on behavior intervention of AIDS/STI prevention and treatment in MSM group. Pract Prev Med 16: 654–657. [Chinese].
  63. 63. Xiu CZ, Liu MH, Li XF, Fa P, Jiang ZX, et al.. (2009) Study of AIDS knowledge, behavior, intervention and the status of infection among MSM. Prev Med Trib 15: 97–100,103. [Chinese].
  64. 64. Zeng G, Xiao Y, Xu P, Feng N, Jin C, et al.. (2009) Evaluation of effect of community-based HIV/AIDS interventions among men who have sex with men in eighteen cities, China. Zhonghua Liu Xing Bing Xue Za Zhi 43: 977–980. [Chinese].
  65. 65. Ma GL, Shen LT, Su C-hZH-nLB-yLL (2010) Effect evaluation of HIV/AIDS integrated intervention of MSM in Xiamen City. Chin J Dis Control Prev 14: 726–728. [Chinese].
  66. 66. Nong QX, Xu YF, Lin XQ, Chen SH, Zhu JJ, et al.. (2010) Evaluation on HIV/AIDS intervention among men having sex with men. J Prev Med Inf 26: 200–203. [Chinese].
  67. 67. Qu L, Tao B, JQ D, Yang JY, Bao ZQ (2011) Evaluation on the comprehensive acquired immunodeficiency syndrome intervention program conducting in men who have sex with men population in Inner Mongolia. Chin J Infect Dis 29.
  68. 68. Wang FX, Huang YL (2011) Analysis on effect of AIDS related high risk behavior intervention among MSM in Yingtan City, 2009–2010. Prev Med Trib 17: 518–520, 524. [Chinese].
  69. 69. Wang L, Liu ZF, Cao WH (2011) Effect evaluation of testing initiated HIV/AIDS comprehensive interventions among men who have sex with men. Chin Prim Health Care 25: 94–95. [Chinese].