Abstract
Background
Despite the importance of self-reporting health in sexually transmitted infections (STIs) control, studies on self-reported sexually transmitted infections (SR-STIs) are scanty, especially in sub-Saharan Africa (SSA). This study assessed the prevalence and factors associated with SR-STIs among sexually active men (SAM) in SSA.
Methods
Analysis was done based on the current Demographic and Health Survey of 27 countries in SSA conducted between 2010 and 2018. A total of 130,916 SAM were included in the analysis. The outcome variable was SR-STI. Descriptive and inferential statistics were performed with a statistical significance set at p < 0.05.
Results
On the average, the prevalence of STIs among SAM in SSA was 3.8%, which ranged from 13.5% in Liberia to 0.4% in Niger. Sexually-active men aged 25–34 (AOR = 1.77, CI:1.6–1.95) were more likely to report STIs, compared to those aged 45 or more years. Respondents who were working (AOR = 1.24, CI: 1.12–1.38) and those who had their first sex at ages below 20 (AOR = 1.20, CI:1.11–1.29) were more likely to report STIs, compared to those who were not working and those who had their first sex when they were 20 years and above. Also, SAM who were not using condom had higher odds of STIs (AOR = 1.35, CI: 1.25–1.46), compared to those who were using condom. Further, SAM with no comprehensive HIV and AIDS knowledge had higher odds (AOR = 1.43, CI: 1.08–1.22) of STIs, compared to those who reported to have HIV/AIDS knowledge. Conversely, the odds of reporting STIs was lower among residents of rural areas (AOR = 0.93, CI: 0.88–0.99) compared to their counterparts in urban areas, respondents who had no other sexual partner (AOR = 0.32, CI: 0.29–0.35) compared to those who had 2 or more sexual partners excluding their spouses, those who reported not paying for sex (AOR = 0.55, CI: 0.51–0.59) compared to those who paid for sex, and those who did not read newspapers (AOR = 0.93, CI: 0.86–0.99) compared to those who read.
Conclusion
STIs prevalence across the selected countries in SSA showed distinct cross-country variations. Current findings suggest that STIs intervention priorities must be given across countries with high prevalence. Several socio-demographic factors predicted SR-STIs. To reduce the prevalence of STIs among SAM in SSA, it is prudent to take these factors (e.g., age, condom use, employment status, HIV/AIDS knowledge) into consideration when planning health education and STIs prevention strategies among SAM.
Similar content being viewed by others
Background
Sexually transmitted infections (STIs) are a cohort of infections that are transmitted through sexual intercourse [1]. Notable amongst these infections are gonorrhea, syphilis, trichomoniasis, and chlamydia [2]. Although majority of these STIs are curable, their implications on health and wellbeing cannot be underestimated. Severe forms of STIs may result in some complications including blindness, infertility, cardiovascular diseases, and higher risk of HIV acquisition [1, 3].
Amidst the seemingly preventive strategies for STIs and the relatively cost-effective and simple treatments, STI prevalence continues to be high. Reports from the WHO show that in 2012, there was about 367 million new cases of curable STIs [4]. These infections are pervasive in Asia, sub-Saharan Africa (SSA), and Latin America [4]. SSA alone contributes 93 million cases of STIs per annum [2].
Given the public health impact of STIs against the fact that most of the infections are curable, the WHO Global Health Sector Strategy on Sexually Transmitted Infections 2016–2021 laid out a roadmap for STI prevention and control [5]. The first step in this roadmap is directed at the collection of data on STI incidence and its prevalence [6]. To achieve this objective, individuals who contract STIs must self-report it for data capturing and subsequent treatment. Self-reporting is a system through which a medical history of a patient is queried in order to ascertain an individual’s risk status and/or assess the prevalence of diseases in a particular population [7,8,9]. Therefore, studies that account for self-reported STIs (SR-STIs) are essential for public health and policy interventions.
Despite the importance of self-reporting health in STI control, research on SR-STI has received less attention. There is limited evidence on SR-STI among males in SSA. Extant literature has predominantly focused on HIV partly due to its incurability and wide spread. Other studies have focused on minority groups such as men who have sex with men (MSM) and the aged [10]. In SSA, there has not been any study that has been done on a large scale using nationally-representative survey data to examine the prevalence and factors associated associated with SR-STIs. Therefore, the current multi-country cross-sectional study examined the prevalence and factors associated with SR-STIs among sexually active men (SAM) in SSA. Findings from the study would be significant towards the design and implementation of STI strategies such as strengthening surveillance, program monitoring, early diagnosis, as well as men and partner management to meet SSA context-specific challenges.
Methods
Data source
We pooled data from the Demographic and Health Survey (DHS) of 27 countries in SSA conducted between 2010 and 2018, which had information on SR-STI (Table 1). Specifically, we used data from the men’s file from the various countries. The DHS is a nationally representative survey that is conducted in over 85 low- and middle-income countries globally through a two-stage stratified sampling protocol. The survey focuses on essential maternal and child health markers and men’s health, including SR-STIs [10]. The dataset is freely accessible via this link: https://dhsprogram.com/data/available-datasets.cfm. Details of the DHS methodology have been reported in previous studies [10, 11]. A sample of 130,196 men in SSA who had ever had sexual intercourse in the past 12 months and had complete information on all the variables of interest was used. The ‘Strengthening the Reporting of Observational Studies in Epidemiology’ (STROBE) statement was followed in conducting this research.
Study variables
Outcome variable
The outcome variable in this analysis was STIs among SAM. It is a variable with a dichotomous outcome (Yes/No). Specifically, men were asked whether they had a disease they acquired through sexual contact in the past 12 months [1].
Independent variables
Independent variables included in this analysis were age (15–24, 25–34, 35–44, 44+), residence (rural, urban), educational level (no education, primary, secondary/higher), wealth status (poor, middle, rich), marital status (married, not married), employment status (working, not working), age at first sex (<=19, 20+), number of sexual partners in the last 12 months excluding the spouse (0,1, 2+), comprehensive HIV and AIDS knowledge (Yes, No), HIV testing (Yes, No), exposure to mass media (newspaper, radio, TV) (Yes, No), and health insurance coverage (Yes, No) (see Table 2).
HIV testing was measured by asking the participants this question: ‘Have you ever tested for HIV?’. Exposure to mass media was captured as follows: “Do you watch television almost every day, at least once a week, less than once a week or not at all? Do you read a newspaper or magazine at least once a week, less than once a week or not at all? Do you listen to the radio at least once a week, less than once a week or not at all?” The responses included the following: Not at all, less than once a week, and at least once a week. The responses from these questions were then categorized as Yes/No.
Wealth, in the DHS, is a composite measure computed by combining data on a household’s ownership of carefully identified assets including television, bicycle, materials used for house construction, sanitation facilities, and type of water access. Principal component analysis was used to transform these variables into wealth index by placing individual households on a continuous measure of relative wealth. The DHS segregates households into five wealth quintiles: poorest, poorer, middle, richer, and richest. These parameters were then grouped into three: poorest, poorer (Poor), Middle and, richer and richest (rich).
Comprehensive HIV knowledge was defined as knowing that consistent use of condoms during sexual intercourse and having just one uninfected faithful partner can reduce the chance of getting AIDS virus, knowing that a healthy-looking person can have the AIDS virus, and rejecting the two most common local misconceptions about AIDS transmission or prevention (i.e., mosquito bites can give HIV and HIV can be gotten from witchcraft and supernatural means). Comprehensive HIV knowledge was coded as Yes = 1 and No = 0. These factors were chosen based on their theoretical and empirical relationship with SR-STIs in previous studies [1, 2].
Statistical analyses
Stata version 14.0 was used to conduct the analyses. Both descriptive and inferential analyses were carried out. Descriptive statistics were calculated to characterize men. The data on men were weighted to account for sampling probability and non-response. Besides, the data were adjusted to account for the complex survey design and robust standard errors. Bivariate logistic regression analysis was conducted to select potential variables for the follow-up multivariable logistics regression analysis. Variables with a p < 0.05 in the bivariate analysis were included in the multivariable logistic regression model. Before fitting the final model, multi-collinearity between the independent variable was checked (Mean VIF = 1.35, Minimum = 1.05, Maximum VIF = 2.01) were deemed satisfactory. The multivariable binary logistic regression analysis was performed to identify factors associated with STIs. The reference categories were informed by previous studies and a priori. The descriptive results were presented as proportions while the regression results were presented as crude odds ratios (cORs) and adjusted odds ratios (aORs) with 95% confidence intervals and p-values. The statistical tests were reported as significant if p-value < 0.05 and the 95% confidence interval did not contain the null value.
Results
Socio-demographic characteristics and self-reported sexually transmitted infections among men in SSA
Figure 1 shows the socio-demographic characteristics and prevalence of SR-STIs among SAM in the 27 countries in SSA. On the average, the prevalence of STIs among SAM in SSA was 3.8%, which ranged from 13.5% in Liberia to 0.4% in Niger.
Prevalence of self-reported STIs among sexually active men in sub-Saharan Africa
Socio-demographic characteristics and self-reported STIs among men in SSA (weighted)
Age, residence, educational level, marital status, occupation, age at first sex, number of sexual partners, paid sex, condom use during sex, comprehensive HIV and AIDS knowledge, frequency of reading newspapers, and health insurance coverage were found as having statistically significant associations with SR-STIs among SAM. Specifically, the highest prevalence of SR-STIs was found among those aged 15–24 (4.8%), urban residents (4.4%), respondents who had secondary or higher education (4.4%), those of the rich wealth quintile (3.9%), and never married SAM (5.6%). Similarly, prevalence of SR-STIs was higher among SAM who were not working (4.6%), those whose age at first sex was below 20 years (4.7%), those with 2 or more sexual partners excluding their spouses (10.6%), SAM who reported to have paid for sex (7.8%), those who had no comprehensive HIV and AIDS knowledge (4.1%), and SAM from the 27 countries in SSA who had health insurance coverage (3.2%) (see Table 2).
Multivariable logistic regression analysis on the factors associated with STIs among men in SSA
Table 3 shows the results from the multivariable logistic regression analysis of the factors associated with STIs among SAM in SSA, after controlling for country in Model 2. Results showed that SAM aged 25–34 (AOR = 1.77, CI:1.6–1.95), 15–24 (AOR = 1.41, CI: 1.25–1.59), and 35–44 (AOR = 1.45, CI: 1.31–1.61) were more likely to report STIs, compared to those aged 45 or more years. SAM who were residents in rural areas were less likely to report STIs (AOR = 0.93, CI: 0.88–0.99), compared to their counterparts in urban areas. For occupation, SAM who were working had higher odds of STIs (AOR = 1.24, CI: 1.12–1.38), compared to those who were not working. Respondents who had their first sex at ages below 20 were also more likely to report STIs (AOR = 1.20, CI:1.11–1.29) compared to those who had their first sex when they were 20 years and above. SAM who had no other sexual partner (AOR = 0.32, CI: 0.29–0.35) had lower odds of STIs compared to those who had 2 or more sexual partners excluding their spouses. SAM who reported to have not paid for sex were less likely to report STIs (AOR = 0.55, CI: 0.51–0.59), compared to those who reported to have paid for sex. Also, SAM who were not using condom had higher odds of STIs (AOR = 1.35, CI: 1.25–1.46), compared to those who were using condom. Further, SAM with no comprehensive HIV and AIDS knowledge had higher odds (AOR = 1.43, CI: 1.08–1.22) of STIs, compared to those who reported to have the knowledge. SAM who did not read newspapers had lower odds (AOR = 0.93, CI: 0.86–0.99) of STIs, compared to SAM who read. Among the 27 participating countries, SAM in Liberia had the highest odds of STIs (AOR = 5.99, CI: 4.12–8.73) followed by Sierra Leone (AOR = 4.57, CI: 3.15–6.64). SAM in Burkina Faso recorded the lowest odds of STIs (AOR = 0.38, CI: 0.231–0.625) followed by Niger (AOR = 0.45, CI: 0.239–0.834) and Senegal (AOR = 0.47, CI: 0.273, 0.795).
Discussion
Summary of key findings
This study was conducted to assess the prevalence and factors associated with SR-STIs among SAM in SSA using the DHS data sampled from 27 countries. The study showed that the prevalence of SR-STIs among SAM in SSA was 4.4%. The factors associated with STIs were age, place of residence, occupation, age at first sex, number of sexual partners excluding spouse, paid sex, condom use, comprehensive HIV and AIDS knowledge, and exposure to newspapers.
Synthesis with previous evidence
An average prevalence of 3.8% SR-STIs was found among the 27 sampled countries, a finding that corroborates previous studies [e.g., [1, 12]]. However, there were substantial variations of prevalence at the country level. SAM in Liberia had the highest odds of STIs, followed by Sierra Leone and Guinea. Plausible reasons for these higher odds of STIs in some of the countries could be as a result of variations in socio-cultural practices and beliefs that affected health-seeking behaviors towards STIs. For example, in Liberia, STI patients still resort to the use of traditional methods in treating their infections due to their traditional ethno-medical beliefs [13]. Ironically, Green’s [13] study in Liberia revealed that traditional healers in the country had little or no knowledge about STIs, including HIV/AIDS. Other countries that recorded higher odds of STIs among SAM were Zambia, Namibia, Mozambique, Mali, Ghana, Gabon, Cameroun, Cote D’Ivoire, Congo, DR Congo, and Burundi. In the current study, Burkina Faso had the lowest odds of STIs in the sub-region, followed by Niger and Senegal. As reported in Burkina Faso, good access to healthcare and widespread use of antibiotics for the treatment of STIs could account for this finding [14].
A statistically significant association between age and SR-STIs among SAM in SSA was also established in the current work. The odds of STIs were higher for SAM in the 15–44 age group than those in the 45+ age group. Supporting this finding, evidence from available literature shows that young men involve in much riskier sexual behaviors including paying for sex, compared to their older counterparts [15,16,17,18,19]. SAM in SSA who had their first sex below age 20 had higher odds of STIs than their counterparts who had their first sex after they were 20 years old. Several studies have reported similar findings in other countries: China [20, 21], Lesotho [22], and Republic of Korea [23]. The plausible reason could be the risky sexual behaviors through experimentation often noted with adolescents. Adolescents are known to engage in several risky sexual behaviors such as having multiple sexual partners, experimenting with sex, non-condom use, and alcohol use during sexual intercourse [18, 19, 24,25,26,27,28]. Such risky sexual behaviors during the transition period to adulthood are known to predispose sexually active men to all forms of STIs.
The study also found that SAM resident in rural areas had lower odds of STIs, compared to their counterparts who were resident in urban areas. Urban areas are sometimes filled with migrants from rural areas and the anonymity of being a foreigner might increase risky sexual activities such as multiple sexual partners, engaging in sex with commercial sex workers, and alcohol abuse [29]. The current finding supports a survey conducted in SSA that revealed paid sex as a high-risk factor for STIs. Seidu et al. [15] showed in their study that SAM in rural areas had lower odds to pay for sex, compared to men in urban areas. Other studies in Botswana [30], China [31], and Cambodia [32] have also reported that SAM in urban areas are more exposed to STIs due to their higher odds of paying for sex. Disparities in socio-economic and healthcare access between urban and rural areas in SSA could partly explain this trend. Also, men who are more capable and willing to pay for sex are in the urban areas where commercial sex workers usually operate [33]. This finding also supports another finding in the current study where men who reported to have not paid for sex were less likely to report STIs, compared to those who reported to have paid for sex.
Comprehensive HIV and AIDS knowledge was significant in predicting the odds of contracting STIs in SSA. SAM with no comprehensive HIV and AIDS knowledge had higher odds of STIs, compared to those who reported to have the knowledge. A similar finding has been reported from a comparative cross-sectional study in Ethiopia, where participants with comprehensive HIV/AIDS knowledge had fewer sexual partners, used condoms, and reported fewer incidents of STIs, as compared to their comparative group with less HIV/AIDS knowledge who reported having multiple sexual partners, non-condom use, and many reporting STIs [34]. Just like other STIs, HIV can be transmitted through sexual intercourse. Therefore, comprehensive knowledge of HIV/AIDS and its transmission would help SAM in SSA to make informed decisions such as the use of condoms, reduction of sexual partners, and practicing safer sex. A significant association between sexual attitude and knowledge has been reported in other studies (e.g., in India, [35]). Similarly, a significant association between condom use and the odds of STIs has been reported in Ghana [36] and in Europe [37]. SAM who were not using condom had higher odds of STIs, compared to those who were using condom. Condom use is known to effectively reduce risk of STIs, including HIV/AIDS, when they are used properly and consistently [4].
Other findings that SAM who had no sexual partner apart from their spouse and those with only one sexual partner had lower odds of STIs, compared to those who had 2 or more sexual partners excluding their spouses. Similar studies in Ethiopia [1, 38], South Africa [5], Kenya [39], and Lao PDR [40] have all documented a significant association between number of sexual partners and odds of STIs. Having multiple sexual partners is a high-risk sexual behavior for STIs [41, 42]. Considering that the awareness on STIs including HIV testing is very low in SSA [43], people could be carrying infections without knowing. Therefore, multiple sexual partners will only increase one’s chances of being infected.
In contrast to some studies [1, 44, 45], other results revealed that SAM who did not read newspapers had lower odds of STIs, compared to those who read newspapers. Seidu et al. [15] reported that men who had exposure to newspaper had higher odds of paying for sex, a risky sexual behavior for STIs. Some newspapers may carry some sexually explicit contents which could entice SAM to engage in risky sexual behaviors. Newspapers are easily accessible in urban areas compared to the rural areas. This trend implies that urban dwellers who may readily access these newspapers would have higher odds of STIs. Asekun-Olarinmoye et al. [46] indicated in a study conducted in Nigeria that exposure to mass media could trigger risky sexual behaviors by serving as risk factors for STIs.
Practical implications
A population-based demographic and behavioural study like this offers useful information for planning and evaluating STI prevention and control programmes of low- to hig-risk populations across selected SSA countries. STIs prevalence across selected SSA showed distinct cross-country variations. Current findings suggest that STI interventions priorities must be given across countries with high prevalence. For the noted high-risk populations (e.g., Liberia, Sierra Leone, Guinea), country-level STI referral centres, laboratories, surveillance systems, and human resource capacity ought to be strengthened. Current findings imply that when looking at STI prevalence and perhaps incident infections among SAM for appropriate interventions, considerations must be given to persons with socio-economic disparities (i.e., low, -middle, and upper- income profile), aged 15 to 44, and within urban settlements. Behavioural programmes (e.g., abstinence and condom initiatives) ought to consider some of the socio-cultural orientations (e.g., patriarchal norms) of SAM in SSA. Having multiple sexual partners has been well documented as a gateway for STI infections. Therefore, advocacy on abstinence and being faithful to one sexual partner are effective strategies to prevent STIs among SAM across studied countries in SSA. Media outlets in high-risk populations could have their programme contents regulated by their national media communication authorities, especially on programmes that might promote illicit sexual behaviours or practices among their sexually active population. The approach might reduce the proliferation of information (e.g., widespread use of aphrodisiac) that promotes unsafe sexual practices among SAM against STIs.
Strength and limitations
Nationally representative data were used to assess the factors associated with STIs among SAM in SSA. The data collection technique and methodology employed followed best practices by experienced and well-trained data collectors, which resulted in a high response rate. The current findings can, therefore, be generalized to all SAM in SSA, and the rigorous analyses used make the findings credible and valid. Despite these strengths, causal interpretation cannot be deduced from the study findings due to the cross-sectional study design employed. The outcome variable was also measured based on self-reports which were not validated by any medical practitioner through testing. Hence, information provided might be subject to some biases. Also, study participants did not indicate the exact type of STI.
Conclusion
The study showed that the prevalence of SR-STIs among SAM in SSA was 4.4%. To tackle STIs among SAM in SSA, it is prudent to take the factors associated with SR-STI into consideration when planning health education and STIs prevention strategies. Specifically, health education interventions should focus on educating men about STIs including HIV/AIDS and sensitize men on the need to reduce the number of sexual partners. These can be done by paying attention to the demographic and socio-economic differences among men.
Availability of data and materials
The dataset can be accessed at https:// https://dhsprogram.com/data/dataset/
Abbreviations
- cOR:
-
Crude odds ratio
- aOR:
-
Adjusted odds ratio
- CI:
-
Confidence interval
- DHS:
-
Demographic and health survey
- VIF:
-
Variance inflation factor
- SDG:
-
Sustainable development goal
- LMICs:
-
Low- and middle-income countries
- WHO:
-
World health Organization
References
Dagnew GW, Asresie MB, Fekadu GA. Factors associated with sexually transmitted infections among sexually active men in Ethiopia. Further analysis of 2016 Ethiopian demographic and health survey data. Plos One. 2020;15(5):e0232793.
Newman L, Rowley J, Vander Hoorn S, Wijesooriya NS, Unemo M, Low N, Stevens G, Gottlieb S, Kiarie J, Temmerman M. Global estimates of the prevalence and incidence of four curable sexually transmitted infections in 2012 based on systematic review and global reporting. PLoS One. 2015;10(12):e0143304.
Vos T, Barber RM, Bell B, Bertozzi-Villa A, Biryukov S, Bolliger I, Charlson F, Davis A, Degenhardt L, Dicker D, Duan L. Global, regional, and national incidence, prevalence, and years lived with disability for 301 acute and chronic diseases and injuries in 188 countries, 1990–2013: a systematic analysis for the global burden of disease study 2013. Lancet. 2015;386(9995):743–800.
World Health Organization (WHO). Report on global sexually transmitted infection surveillance 2018.
Francis SC, Mthiyane TN, Baisley K, Mchunu SL, Ferguson JB, Smit T, Crucitti T, Gareta D, Dlamini S, Mutevedzi T, Seeley J. Prevalence of sexually transmitted infections among young people in South Africa: a nested survey in a health and demographic surveillance site. PLoS Med. 2018;15(2):e1002512.
World Health Organization. Global health sector strategies 2016–2021 for HIV, STIs and viral hepatitis. In: Regional consultation: Johannesburg, South Africa, 28–30 April, 2015. Meeting report. Geneva: World Health Organization; 2015. [cited 2018 Jan 31]. Available from: http://www.who.int/reproductivehealth/AFRConsultation-report.pdf?ua=1.
van den Akker M, van Steenkiste B, Krutwagen E, Metsemakers JF. Disease or no disease? Disagreement on diagnoses between self-reports and medical records of adult patients. Eur J Gen Pract. 2015;21(1):45–51.
Merkin SS, Cavanaugh K, Longenecker JC, Fink NE, Levey AS, Powe NR. Agreement of self-reported comorbid conditions with medical and physician reports varied by disease among end-stage renal disease patients. J Clin Epidemiol. 2007;60(6):634–42.
Razzaque A, Nahar L, Akter Khanam M, Kim SP. Socio-demographic differentials of adult health indicators in Matlab, Bangladesh: self-rated health, health state, quality of life and disability level. Glob Health Action. 2010;3(1):4618.
Wandera SO, Golaz V, Kwagala B, Ntozi J. Factors associated with self-reported ill health among older Ugandans: a cross sectional study. Arch Gerontol Geriatr. 2015;61(2):231–9.
Corsi DJ, Neuman M, Finlay JE, Subramanian SV. Demographic and health surveys: a profile. Int J Epidemiol. 2012;41(6):1602–13.
Lewis DA. HIV/sexually transmitted infection epidemiology, management and control in the IUSTI Africa region: focus on sub-Saharan Africa. Sex Transm Infect. 2011;87(Suppl 2):ii10–3.
Green EC. The anthropology of sexually transmitted disease in Liberia. Soc Sci Med. 1992;35(12):1457–68.
Kirakoya-Samadoulougou F, Defer M-C, Yaro S, Fao P, Kirakoya-Samadoulougou F, Defer MC, Yaro S, Fao P, Ilboudo F, Langani Y, Meda N, Robert A, Nagot N. Low seroprevalence of syphilis in Burkina Faso. Sex Transm Infect. 2011;87(1):35–7.
Seidu AA, Darteh EK, Kumi-Kyereme A, Dickson KS, Ahinkorah BO. Paid sex among men in sub-Saharan Africa: analysis of the demographic and health survey. SSM-Population Health. 2019;18:100459.
Jones KG, Johnson AM, Wellings K, Sonnenberg P, Field N, Tanton C, Erens B, Clifton S, Datta J, Mitchell KR, Prah P. The prevalence of, and factors associated with, paying for sex among men resident in Britain: findings from the third National Survey of sexual attitudes and lifestyles (Natsal-3). Sex Transm Infect. 2015;91(2):116–23.
Silas J. Poverty and risky sexual behaviours: Evidence from Tanzania. DHS Working Papers No. 88. 2013. Calverton, Maryland, USA: ICF International; 2013. Retrieved from https://dhsprogram.com/pubs/pdf/WP88/WP88.pdf. Accessed 12 May 2020.
Ugoji FN. Determinants of risky sexual behaviours among secondary school students in Delta state Nigeria. Int J Adolesc Youth. 2014;19(3):408–18.
Zakayo MO, Lwelamira J. Sexual behaviours among adolescents in community secondary schools in rural areas of Central Tanzania: a case of Bahi District in Dodoma region. Age. 2011;14(3):1–5.
Vasilenko SA, Kugler KC, Rice CE. Timing of first sexual intercourse and young adult health outcomes. J Adolesc Health. 2016;59(3):291–7.
Ma Q, Ono-Kihara M, Cong L, Xu G, Pan X, Zamani S, Ravari SM, Zhang D, Homma T, Kihara M. Early initiation of sexual activity: a risk factor for sexually transmitted diseases, HIV infection, and unwanted pregnancy among university students in China. BMC Public Health. 2009;9(1):111.
Motsima T, Malela-Majika JC. The effects of early first sexual intercourse amongst Lesotho women: evidence from the 2009 Lesotho demographic and health survey. Afr J Reprod Health. 2016;20(2):34–42.
Park JH, Kim N, Shin S, Roh EY, Yoon JH, Park H. Prevalence and correlated factors of sexually transmitted infections among women attending a Korean sexual assault center. J Forensic Legal Med. 2020;71:101935.
Asrese K, Mekonnen A. Social network correlates of risky sexual behavior among adolescents in Bahir Dar and Mecha districts, north West Ethiopia: an institution-based study. Reprod Health. 2018;15(1):61.
Fetene N, Mekonnen W. The prevalence of risky sexual behaviors among youth center reproductive health clinics users and non-users in Addis Ababa, Ethiopia: a comparative cross-sectional study. PLoS One. 2018;13(6):e0198657.
Hagan JE, Buxton C. Contraceptive knowledge, perceptions and use among adolescents in selected senior high schools in the central region of Ghana. J Sociol Res. 2012;3(2):170–80.
Kangmennaang J, Mkandawire P, Luginaah I. Determinants of risky sexual behaviours among adolescents in Central African Republic, Eswatini and Ghana: evidence from multi-indicator cluster surveys. Afr J AIDS Res. 2019;18(1):38–50.
Tadesse G, Yakob B. Risky sexual behaviors among female youth in Tiss Abay, a semi-urban area of the Amhara region, Ethiopia. PLoS One. 2015;10(3):e0119050.
Tiruneh K, Wasie B, Gonzalez H. Sexual behavior and vulnerability to HIV infection among seasonal migrant laborers in Metema district, Northwest Ethiopia: a cross-sectional study. BMC Public Health. 2015 Dec 1;15(1):122.
Balekang GB, Dintwa KF. A comparison of risky sexual behaviours between circumcised and uncircumcised men aged 30-44 years in Botswana. Afr Health Sci. 2016;16(1):105–15.
Pan S, Parish WL, Huang Y. Clients of female sex workers: a population-based survey of China. J Infect Dis. 2011;204(suppl_5):S1211–7.
Dizechi S, Brody C, Tuot S, Chhea C, Saphonn V, Yung K, Kim S, Yi S. Youth paying for sex: what are the associated factors? Findings from a cross-sectional study in Cambodia. BMC Public Health. 2018 Dec 1;18(1):113.
Carael M, Slaymaker E, Lyerla R, Sarkar S. Clients of sex workers in different regions of the world: hard to count. Sex Tranms Infect. 2006;82(suppl 3):iii26–iii33.
Sahile Z, Mekuria M, Yared A. Comprehensive HIV/AIDS knowledge and sexual behavior among university students in Ambo, central Ethiopia: Implication to improve intervention. J Sex Transm Dis. 2015;2015(890202):1–6.
Dutt S, Manjula M. Sexual knowledge, attitude, behaviors and sources of influences in urban college youth: a study from India. Indian J Soc Psychiatry. 2017;33(4):319.
Ali Abdulai M, Baiden F, Afari-Asiedu S, Gyabaa-Febir L, Adjei KK, Mahama E, Tawiah-Agyemang C, Newton SK, Asante KP, Owusu-Agyei S. The risk of sexually transmitted infection and its influence on condom use among pregnant women in the Kintampo north municipality of Ghana. J Sex Transm Dis. 2017;2017:8642685.
Amirkhanian YA. Review of HIV vulnerability and condom use in central and eastern Europe. Sex Health. 2012;9(1):34–43.
Mengistu K, Alemu K, Destaw B. Prevalence of malnutrition and associated factors among children aged 6-59 months at Hidabu Abote District, north Shewa, Oromia regional state. J Nutr Disord Ther. 2013;1:1–5.
Winston SE, Chirchir AK, Muthoni LN, Ayuku D, Koech J, Nyandiko W, Carter EJ, Braitstein P. Prevalence of sexually transmitted infections including HIV in street-connected adolescents in western Kenya. Sex Transm Infect. 2015;91(5):353–9.
Sychareun V, Thomsen S, Chaleunvong K, Faxelid E. Risk perceptions of STIs/HIV and sexual risk behaviours among sexually experienced adolescents in the northern part of Lao PDR. BMC Public Health. 2013;13(1):1126.
Chawla N, Sarkar S. Defining “high-risk sexual behavior” in the context of substance use. J Psychosexual Health. 2019;1(1):26–31.
Visalli G, Cosenza B, Mazzù F, Bertuccio MP, Spataro P, Pellicanò GF, Di Pietro A, Picerno I, Facciolà A. Knowledge of sexually transmitted infections and risky behaviours: a survey among high school and university students. J Prev Med Hygi. 2019;60(2):E84.
Agarwal S, de Araujo P, Paudel J. HIV-related knowledge and risky sexual behaviour in sub-Saharan Africa. Oxf Dev Stud. 2013;41(2):173–89.
Coyle K, Basen-Engquist K, Kirby D, Parcel G, Banspach S, Collins J, Baumler E, Carvajal S, Harrist R. Safer choices: reducing teen pregnancy, HIV, and STDs. Public Health Rep. 2016;116(Suppl 1) (2001):82–93.
Sznitman S, Stanton BF, Vanable PA, Carey MP, Valois RF, Brown LK, DiClemente R, Hennessy M, Salazar LF, Romer D. Long term effects of community-based STI screening and mass media HIV prevention messages on sexual risk behaviors of African American adolescents. AIDS Behav. 2011;15(8):1755.
Asekun-Olarinmoye OS, Asekun-Olarinmoye E, Adebimpe WO, Omisore AG. Effect of mass media and Internet on sexual behavior of undergraduates in Osogbo metropolis, Southwestern Nigeria. Adolesc Health Med Ther. 2014;5:15–23. https://doi.org/https://doi.org/10.2147/AHMT.S54339.
Acknowledgements
We are grateful to MEASURE DHS project for giving us free access to the original data.
Funding
The study did not receive any funding.
Author information
Authors and Affiliations
Contributions
Conception and design of study: AS; analysis and/or interpretation of data: AS; drafting the manuscript: AS, BOA, LKD, JKT, EA, JO, TS, KFO, EB, SAO, JEH and TS; revising the manuscript critically for important intellectual content; AS, BOA, LKD, JKT, EA, JO, TS, KFO, EB, SAO, JEH and TS. All authors have read and approved the final manuscript.
Corresponding author
Ethics declarations
Ethics approval and consent to participate
Ethical clearance was obtained from the Ethics Committee of ORC Macro Inc. as well as Ethics Boards of partner organizations of the various countries, such as the Ministries of Health. The DHS follows the standards for ensuring the protection of respondents’ privacy. Inner City Fund International ensures that the survey complies with the U.S. Department of Health and Human Services regulations for the respect of human subjects. The survey also reports that both verbal and written informed consent were obtained from the respondents. However, this was a secondary analysis of data and, therefore, no further approval was required for this study. Further information about the DHS data usage and ethical standards are available at http://goo.gl/ny8T6X.
Consent for publication
No consent to publish was needed for this study as we did not use any details, images or videos related to individual participants. In addition, data used are available in the public domain.
Competing interests
The authors declare that they have no competing interests. Abdul-Aziz Seidu and Bright Opoku Ahinkorah, are members of the editorial board of this journal.
Additional information
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data.
About this article
Cite this article
Seidu, AA., Ahinkorah, B.O., Dadzie, L.K. et al. A multi-country cross-sectional study of self-reported sexually transmitted infections among sexually active men in sub-Saharan Africa. BMC Public Health 20, 1884 (2020). https://doi.org/10.1186/s12889-020-09996-5
Received:
Accepted:
Published:
DOI: https://doi.org/10.1186/s12889-020-09996-5