Next Article in Journal
Assessing the Prevalence and Determinants of Exposure-Influenced HIV Testing among a Sample of Pre- and Post-Exposure Prophylaxis-Naïve Young Men Who Have Sex with Men in the United States
Next Article in Special Issue
Assessment of Knowledge, Attitudes, and Practices towards Rift Valley Fever among Livestock Farmers in Selected Districts of Malawi
Previous Article in Journal
Co-Infection with Plasmodium vivax and COVID-19 in Thailand
Previous Article in Special Issue
Associations between Bonus and Lottery COVID-19 Vaccine Incentive Policies and Increases in COVID-19 Vaccination Rates: A Social Epidemiologic Analysis
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
TropicalMed
Volume 7
Issue 8
10.3390/tropicalmed7080147
tropicalmed-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Associations between Awareness of Sexually Transmitted Infections (STIs) and Prevalence of STIs among Sub-Saharan African Men and Women

by
Meghana Vasudeva
1,
Raja Nakka
1,
Shannon Stock
2 and
Musie Ghebremichael
1,3,*
1
The Ragon Institute of MGH, MIT, and Harvard, 400 Technology Square, Cambridge, MA 02139, USA
2
Department of Mathematics, College of the Holy Cross, Worcester, MA 01610, USA
3
Department of Medicine, Harvard Medical School, 400 Technology Square, Cambridge, MA 02139, USA
*
Author to whom correspondence should be addressed.
Trop. Med. Infect. Dis. 2022, 7(8), 147; https://doi.org/10.3390/tropicalmed7080147
Submission received: 31 May 2022 / Revised: 5 July 2022 / Accepted: 22 July 2022 / Published: 26 July 2022
(This article belongs to the Special Issue Feature Papers in Tropical Medicine and Infectious Disease)
Browse Figures
Versions Notes

Abstract

:
Treatments for HIV and other STIs are not readily available in sub-Saharan Africa and other resource-limited areas, where the prevalence of HIV and other STIs is high. In the absence of treatment and laboratory infrastructure to monitor treatment efficacy, increasing awareness of STIs and STI screening are crucial components of STI prevention programs. In the current study, we sought to estimate the awareness of STIs in resource-limited countries and evaluate the strength of the association between the awareness of STIs and STIs infection. We did a secondary analysis of data obtained from 2019 women and 794 men enrolled in a community-based study that was conducted from November 2002 to March 2003 in the Moshi Urban District of Northern Tanzania. We found gonorrhea, syphilis, and HIV/AIDS were well-known among the study participants. However, their awareness of other STIs, including herpes, was very low. We also found that the awareness of STIs was not associated with STIs in men, but women who had prior knowledge of gonorrhea, syphilis, and HIV had a twofold higher risk of testing positive for an STI. Education programs aimed at increasing awareness of STIs are needed in the region. The majority of the existing STI education programs in the region focus exclusively on HIV/AIDS. The expansion of the existing AIDS/HIV education programs needs to be strengthened to include information about other STIs.

1. Introduction

The prevalence of sexually transmitted infections (STIs) has increased significantly in recent years, and such disorders pose a significant threat to millions of people [1,2]. Sexual contact, whether vaginal, anal, or oral, is a major source of STI transmission. The spread of STIs can also occur through nonsexual means, such as through the transfer of blood or blood products [3]. The most common STIs are chlamydia, gonorrhea, syphilis, trichomonas, mycoplasma genitalium, HIV-1, and HSV-2. According to World Health Organization and UNAIDS reports, the estimated incident cases of the most common STIs were: 127.2 million (95% UI: 95.1–165.9 million) chlamydia; 86.9 million (95% UI: 58.6–123.4 million) gonorrhea; 156.0 million (95% UI: 103.4–231.2 million) trichomoniasis; 6.3 million (95% UI: 5.5–7.1 million) syphilis; 37.7 million HIV and 491.5 million HSV type 2 cases [4,5,6]. Low- and middle-income countries (LMIC) in areas such as sub-Saharan Africa account for up to 75–85% of new STI cases [2,7,8]. Although both men and women can contract STIs, women are more vulnerable to these infections [9,10]. This may be due to the thinner and more delicate vaginal passage that is more vulnerable to infection by bacteria and viruses. Furthermore, the moist environment of the vagina makes it an ideal environment for bacteria to thrive [11]. According to the 2016 global prevalence estimates of STIs, higher rates of STIs were reported for women: trichomoniasis (5.3%), chlamydia (3.8%), gonorrhea (0.9%), syphilis (0.5%), and herpes (63.7%). The rates in men were trichomoniasis (0.6%), chlamydia (2.7%), gonorrhea (0.7%), syphilis (0.5%) and herpes (36.2%). [4,6]. If left untreated, STIs may lead to a wide range of health complications, including damage to the reproductive system and death. In men, STIs (such as gonorrhea and chlamydia) cause inflammation and painful, swollen testicles, which may lead to infertility [11,12]. The adverse effects of STIs in women include fallopian tube inflammation, infertility, abortions, stillbirths, perinatal and neonatal complications, and mother-to-child transmission [11,13]. Patients with STIs often present at least one of the following symptoms: lower abdominal pain, abnormal genital discharge, foul genital smell, excessive genital secretions, enlargement and swelling of lymph nodes in the groin area, itching in the genital area, pain during intercourse, and genital ulcers [14,15]. These symptoms are often used in resource-limited settings to detect and treat STIs [14,15]. Although the syndromic diagnosis of STIs is the most practical, feasible, and cost-effective diagnostic tool in resource-limited settings, several studies reported that it has low accuracy [14,15,16].
In sub-Saharan Africa and other resource-limited settings, despite the high prevalence of STIs, an awareness of STIs other than HIV is very low [17,18]. Many factors may contribute to this, such as limited access to health care and routine medical checkups or long periods of disease latency [13,19,20]. As a result, people do not notice that they have STIs until they experience more severe health problems [20]. Even after symptoms or disease manifestations are apparent, people in resource-limited countries may not seek medical attention. This is often due to their low access to healthcare or skepticism regarding modern medicine; many people instead rely on traditional healers, unqualified practitioners, or street vendors, who themselves are unaware of STIs [7,21,22]. Furthermore, in some of these countries, talking about sex is taboo, thereby resulting in widespread ignorance about STIs [23,24]. Due to the stigma associated with STIs, government education programs about sex and STIs often face strong opposition from the public [23].
Treatments for HIV and other STIs are not readily available in sub-Saharan Africa and other resource-limited areas, where the prevalence of HIV and other STIs is high [14,15]. In the absence of treatment and laboratory infrastructure to monitor treatment efficacy, increasing awareness of STIs and STI screening are crucial components of STI prevention programs. In the current study, we sought to estimate the awareness of STIs in resource-limited countries and evaluate the strength of the association between the awareness of STIs and the likelihood of having an STI infection. We hypothesized that a low STI awareness is associated with a higher prevalence of STIs. To test this hypothesis, we conducted a secondary analysis of data obtained from a previous cross-sectional study comprising sub-Saharan African men and women.

2. Materials and Methods

Study Design and Participants: The study included 2019 women and 794 men. The study participants were enrolled in a community-based, cross-sectional study that was conducted from November 2002 to March 2003 in the Moshi Urban District of Northern Tanzania. The institutional review boards of the Harvard School of Public Health, University of Maryland, Kilimanjaro Christian Medical Centre, and the Centers for Disease Control and Prevention approved the study protocol. The rationale, organization, and recruitment of the subjects, and the laboratory methods used have been described previously by Larsen et al. and the references therein [25].
Study Variables: Information on socio-demographic variables, including age, marital status, and education, was obtained. High-risk behaviors, including age at first sex, number of sexual partners, and condom use, were obtained. The participants were given a worksheet to measure STI awareness and asked to circle the disease or infection they thought could be transmitted through sexual intercourse. Symptoms of STIs, including abdominal pain, abnormal genital discharge, foul smell in the genital area, excessive genital secretions, swelling of lymph nodes in the genital area, itching in the genital area, burning pain on micturition, pain during intercourse, and genital ulcers, were recorded. Blood and urine samples were obtained from the study participants who agreed to further testing for STIs. The blood and urine samples were tested for HIV-1, HSV-2, syphilis, chlamydia, gonorrhea, Trichomonas, and Mycoplasma genitalium.
Statistical Analysis: Descriptive measures (such as median, IQR, percent, and frequency) and statistical graphs were used to summarize the data. Exact binomial confidence intervals were used to estimate the confidence intervals for rates of STI awareness. Fisher’s exact test and logistic regression models were used to evaluate the association between the awareness of STIs and the prevalence of STIs and STIs symptoms. The analysis was conducted using the R programming language.

3. Results

Table 1 presents the descriptive characteristics of the study participants. The male participants (median = 36 years; IQR: 30–43) were older than the women (median = 28 years; IQR 24–35). The men and women had a median age at first sex of 18 years (IQR 16–20) and 19 years (IQR 17–21), respectively. The majority of the men and women had pre-secondary school education. Thirty percent (30%) and 27% of the men and women reported post-secondary school education, respectively. Sixty percent (60%) of the women were married and stayed with a single partner, while 99% of the men confirmed that they were either married or living with the interviewed women. Eighty-eight percent (88%) of men and 77% of women had one partner 12 months prior to the interview. Moreover, 97% of the men and 23% of the women had been circumcised. Most of the men and women were long-term residents of the Moshi Urban District. Seventy-nine percent (79%) of the men and 64% of the women had never used a condom.
Figure 1 displays the prevalence rates of STI awareness among the study participants. Ninety-nine percent (n = 782) of the men and 91% (n = 1827) of the women reported that they had prior knowledge of at least one of the STIs. Most of the men had an awareness of gonorrhea (96%; n = 763), AIDS (92%; n = 734), and syphilis (91%; n = 722). As was the case with men, most of the women had an awareness of gonorrhea (85%; n = 1708), HIV/AIDS (84%; n = 1701), and syphilis (75%; n = 1517). The awareness rates of other STIs among men and women were less than 5%.
The prevalence rates of STI awareness among men and women who tested positive for each STI are presented in Figure 2. Gonorrhea, syphilis, and HIV/AIDS were well-known among both men and women who tested positive for any STI. The awareness rate for each of these STIs ranged from 27–36% among men who tested positive for STIs. In women who tested positive for STIs, the awareness rate of these three STIs ranged from 20–40%. In both men and women who tested positive for STIs, the awareness rate of the other STIs was less than 5%. Figure 3 displays the prevalence rates of STI awareness among men and women who reported STI symptoms. Similarly, gonorrhea, syphilis, and HIV/AIDS were well-known among both women and men who reported STI symptoms. As was the case with those who tested positive for STIs, men and women who reported STI symptoms were less aware of the other STIs except gonorrhea, syphilis, and HIV/AIDS.
We evaluated the association between the awareness of STIs and STI infection and symptoms. An awareness of STIs was not associated with STI symptoms in both men and women (data not shown). Figure 4 displays the odds of testing positive for at least one STI. An awareness of STIs was not associated with testing positive for STIs in men. However, in women, the odds of testing positive for an STI were associated with an awareness of STIs. Interestingly, women who were aware of gonorrhea (OR = 2.88, 97.5% CI = 2.1–3.9, p < 0.01), syphilis (OR = 2.09, 97.5% CI = 1.6–2.6, p < 0.01) and HIV/AIDS (OR = 2.56, 97.5% CI = 1.9–3.4, p < 0.01) were more likely to test positive for STIs. Women who had prior knowledge of chlamydia were 51% less likely to get tested for STIs compared to women who were not aware of chlamydia (OR = 0.49; 95% CI: 0.255–0.934; p-value = 0.0304). Most of the significant results found were contrary to what we hypothesized.

4. Discussion

This paper aimed to estimate the prevalence of STI awareness and evaluate their association with STI infection status, defined by both syndromic and laboratory testing. Our results showed that STI awareness was highest among men and women for the following infections: gonorrhea (96% among men, 85% among women), HIV (92% among men, 84% among women), and syphilis (91% among men, 75% among women). Interestingly, active gonorrhea infection was uncommon within our study population, with just 0.1% (n = 2) of women infected and no men [14,15]. It is not surprising that most study participants knew about HIV/AIDS, as the disease was present at relatively high rates among both men and women (men: 7%, women: 11%). Herpes was least known (men: 2.1%, women: 2.7%) but had the highest prevalence among all STIs in both men and women (men: 39%, women 43%) [14,15]. Awareness of syphilis, gonorrhea, and HIV/AIDS was higher among men and women who tested positive for these infections and other STIs.
Most of the participants in this study knew about STIs. Ninety-nine percent of men and 91% of women were aware of at least one STI. This finding is consistent with findings from other studies [26,27,28,29]. Moreover, the study participants demonstrated a higher knowledge of gonorrhea, syphilis, and HIV/AIDS. This finding is also consistent with the results of previous studies, which reported a higher awareness of STIs caused by bacteria (such as syphilis and gonorrhea) than by viruses [30]. Due to the high prevalence of HIV in the region and the extensive media attention given to HIV/AIDS in the past three decades, a higher awareness of HIV/AIDS among the study participants was expected. However, awareness of herpes was quite low, despite the higher prevalence of herpes in the region. Other studies from the region also reported a lower awareness of herpes. For example, a study in Nigeria reported that only 10% of the study participants knew about herpes [27]. Herpes is sometimes called a hidden STI and resides in the body in the latency stage for years [20]. This could be the reason why awareness of it in our study or other related studies was low.
We found that awareness of STIs was not associated with STI symptoms and testing positive for STIs in men. A study by Nsuami et al. reported a similar finding [31]. The study reported a lack of associations between having knowledge of STIs and infections with chlamydia and gonorrhea. Moreover, we found awareness of STIs was not associated with STI symptoms in women. However, our study revealed that women who had prior knowledge of gonorrhea, syphilis, and HIV had a twofold higher risk of testing positive for an STI. Higher associations between a higher risk of STIs and STI knowledge were also reported by others [32,33,34,35,36]. Interestingly, women who had prior knowledge of chlamydia were 51% less likely to test positive for STIs compared to women who were not aware of chlamydia. Due to the cross-sectional nature of the study, we were unable to ascertain if study participants knew about STIs after becoming infected. This might be the reason for the unexpected result of higher STIs among the study participants who had more knowledge of STIs. As others have reported, knowledge about STIs was most likely acquired from direct experience than from learning how to prevent infection [32]. Nzoputam et al. reported that respondents with a good knowledge of STIs had a greater tendency to test positive for STIs [33].
Our study has an advantage over previous related studies: it is a population-based study with large sample sizes. As opposed to previous related studies, we did not study specific groups, such as STI clinic attendees or sex workers. Furthermore, our data on STI status came from both biologically confirmed tests and self-reported symptoms. However, the study has some limitations. It was a cross-sectional study; hence, we were unable to ascertain if the study participants knew about STIs after becoming infected. Men in the study were partners/spouses of women. Thus, the population of men is not representative of men in general, but rather sexual partners of the women. Moreover, only men and women who consented to be tested for STIs and those willing to answer questions on their awareness of STIs were included in the analysis. Further, the information provided by the study participants on STI symptoms and awareness was self-reported, which might have resulted in under-reporting. In this region, STI infection, symptoms, and knowledge often result in a negative reaction among the community. Thus, self-reported sexual behaviors, STI awareness, and STI symptoms might have been underestimated due to social desirability bias.

5. Conclusions

The findings of this study highlight a limited awareness of some STIs in sub-Saharan Africa, where HIV/AIDS and other STIs are highly prevalent. In this region, STI treatments are not readily available, or there is an inadequate laboratory infrastructure to monitor treatment efficacy [14,15]. Education programs aimed at increasing awareness of STIs are needed in the region. Increasing awareness about STIs should be a crucial component of STI prevention programs [17,18]. The majority of the existing STI education programs in the region focus exclusively on HIV/AIDS. The expansion of the existing AIDS/HIV education programs needs to be strengthened to include information about other STIs. Raising awareness of STIs will help people identify the symptoms of STIs and seek medical care. Many people in the region turn to informal treatments, including visiting traditional healers [22]. Given that they are alternative care providers, traditional doctors or healers should also be targeted by awareness-raising education programs.

Author Contributions

M.V. analyzed data and wrote the manuscript; R.N. analyzed data; M.G. conceived and designed the study, wrote the manuscript, and provided guidance on data analyses and the interpretation of the findings; S.S. reviewed the manuscript and assisted in the interpretation of the findings. All authors have read and agreed to the published version of the manuscript.

Funding

The study was supported by grants from the Harvard University Center for AIDS Research (HU CFAR NIH/NAIDS P30-AI 060354) and the Ragon Institute of MGH, MIT and Harvard.

Institutional Review Board Statement

The study protocol was approved by the Ethics Committees of Kilimanjaro Christian Medical Centre, the Tanzania National Institute for Medical Research, and the Institutional Review Boards of the Harvard Chan School of Public Health, the University of Maryland, and the Centers for Disease Control and Prevention (CDC), Atlanta, Georgia.

Informed Consent Statement

The consent for conducting interviews and for collecting blood/urine samples were obtained from the study participants. The study participants consented by signing the consent forms.

Data Availability Statement

The dataset used in the manuscript is available from the corresponding author upon reasonable request.

Acknowledgments

We thank the women of the Moshi Urban District of Tanzania for their participation and the staff at the National Bureau of Statistics in Tanzania for conducting the survey.

Conflicts of Interest

Musie Ghebremichael is an editorial board member of the Tropical Medicine and Infectious Diseases journal. The other authors do not have a commercial or other association that might pose a conflict of interest, i.e., the authors declare that they have no competing interests to disclose.

References

  1. Shannon, C.L.; Klausner, J.D. The Growing Epidemic of Sexually Transmitted Infections in Adolescents. Curr. Opin. Pediatr. 2018, 30, 137–143. [Google Scholar] [CrossRef] [PubMed]
  2. Masanja, V.; Wafula, S.T.; Ssekamatte, T.; Isunju, J.B.; Mugambe, R.K.; Van Hal, G. Trends and Correlates of Sexually Transmitted Infections among Sexually Active Ugandan Female Youths: Evidence from Three Demographic and Health Surveys, 2006–2016. BMC Infect. Dis. 2021, 21, 59. [Google Scholar] [CrossRef] [PubMed]
  3. WHO. Sexually Transmitted Infections (STIs) in Western Pacific. Available online: https://www.who.int/westernpacific/health-topics/sexually-transmitted-infections (accessed on 14 May 2022).
  4. Rowley, J.; Vander Hoorn, S.; Korenromp, E.; Low, N.; Unemo, M.; Abu-Raddad, L.J.; Chico, R.M.; Smolak, A.; Newman, L.; Gottlieb, S.; et al. Chlamydia, Gonorrhoea, Trichomoniasis and Syphilis: Global Prevalence and Incidence Estimates, 2016. Bull. World Health Organ. 2019, 97, 548–562. [Google Scholar] [CrossRef] [PubMed]
  5. UNAIDS. Global HIV & AIDS Statistics—2020 Fact Sheet. Available online: https://www.unaids.org/en/resources/fact-sheet (accessed on 16 May 2022).
  6. James, C.; Harfouche, M.; Welton, N.J.; Turner, K.M.; Abu-Raddad, L.J.; Gottlieb, S.L.; Looker, K.J. Herpes Simplex Virus: Global Infection Prevalence and Incidence Estimates, 2016. Bull. World Health Organ. 2020, 98, 315–329. [Google Scholar] [CrossRef] [PubMed]
  7. Anguzu, G.; Flynn, A.; Musaazi, J.; Kasirye, R.; Atuhaire, L.K.; Kiragga, A.N.; Kabagenyi, A.; Mujugira, A. Relationship between Socioeconomic Status and Risk of Sexually Transmitted Infections in Uganda: Multilevel Analysis of a Nationally Representative Survey. Int. J. STD AIDS 2019, 30, 284–291. [Google Scholar] [CrossRef] [PubMed]
  8. WHO. Progress Report on HIV, Viral Hepatitis and Sexually Transmitted Infections 2019: Accountability for the Global Health Sector Strategies, 2016–2021. Available online: https://apps.who.int/iris/handle/10665/324797 (accessed on 16 May 2022).
  9. Panchanadeswaran, S.; Johnson, S.C.; Mayer, K.H.; Srikrishnan, A.K.; Sivaram, S.; Zelaya, C.E.; Go, V.F.; Solomon, S.; Bentley, M.E.; Celentano, D.D. Gender Differences in the Prevalence of Sexually Transmitted Infections and Genital Symptoms in an Urban Setting in Southern India. Sex. Transm. Infect. 2006, 82, 491–495. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  10. Wong, T.; Singh, A.; Mann, J.; Hansen, L.; McMahon, S. Gender Differences in Bacterial STIs in Canada. BMC Women’s Health 2004, 4, S26. [Google Scholar] [CrossRef] [Green Version]
  11. Centers for Disease Control and Prevention. 10 Ways STDs Impact Women Differently from Men; Centers for Disease Control and Prevention: Atlanta, GA, USA, 2011.
  12. Ochsendorf, F.R. Sexually Transmitted Infections: Impact on Male Fertility. Andrologia 2008, 40, 72–75. [Google Scholar] [CrossRef]
  13. Romoren, M.; Hussein, F.; Steen, T.W.; Velauthapillai, M.; Sundby, J.; Hjortdahl, P.; Kristiansen, I.S. Costs and Health Consequences of Chlamydia Management Strategies among Pregnant Women in Sub-Saharan Africa. Sex. Transm. Infect. 2007, 83, 558–566. [Google Scholar] [CrossRef] [Green Version]
  14. Ghebremichael, M. The Syndromic versus Laboratory Diagnosis of Sexually Transmitted Infections in Resource-Limited Settings. ISRN AIDS 2014, 2014, 103452. [Google Scholar] [CrossRef] [Green Version]
  15. Cheng, Y.; Paintsil, E.; Ghebremichael, M. Syndromic versus Laboratory Diagnosis of Sexually Transmitted Infections in Men in Moshi District of Tanzania. AIDS Res. Treat. 2020, 2020, 7607834. [Google Scholar] [CrossRef]
  16. Redwood-Campbell, L.; Plumb, J. The Syndromic Approach to Treatment of Sexually Transmitted Diseases in Low Income Countries: Issues, Challenges, and Future Directions. J. Obstet. Gynaecol. Can. 2002, 24, 417–424. [Google Scholar] [CrossRef]
  17. Shiferaw, Y.; Alemu, A.; Girma, A.; Getahun, A.; Kassa, A.; Gashaw, A.; Alemu, A.; Teklu, T.; Gelaw, B. Assessment of Knowledge, Attitude and Risk Behaviors towards HIV/AIDS and Other Sexual Transmitted Infection among Preparatory Students of Gondar Town, North West Ethiopia. BMC Res. Notes 2011, 4, 505. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  18. Nigussie, T.; Yosef, T. Knowledge of Sexually Transmitted Infections and Its Associated Factors among Polytechnic College Students in Southwest Ethiopia. Pan Afr. Med. J. 2020, 37, 68. [Google Scholar] [CrossRef]
  19. WHO. Sexually Transmitted Infections (STIs). Available online: https://www.who.int/news-room/fact-sheets/detail/sexually-transmitted-infections-(stis) (accessed on 16 May 2022).
  20. Boskey, E. Why STDs Are Called a “Hidden Epidemic”. Available online: https://www.verywellhealth.com/asymptomatic-disease-and-the-std-epidemic-3133039 (accessed on 16 May 2022).
  21. Mngqundaniso, N.; Peltzer, K. Traditional Healers and Nurses: A Qualitative Study on Their Role on Sexually Transmitted Infections Including Hiv and Aids in Kwazulunatal, South Africa. Afr. J. Tradit. Complement. Altern. Med. 2008, 5, 380–386. [Google Scholar] [CrossRef] [Green Version]
  22. Sorsdahl, K.; Ipser, J.C.; Stein, D.J. Interventions for Educating Traditional Healers about STD and HIV Medicine. Cochrane Database Syst. Rev. 2009, 2009, CD007190. [Google Scholar] [CrossRef] [PubMed]
  23. Agarwal, A. Sex Education May Be Taboo in India but It Is Important for Your Kids Too. Available online: https://www.sinceindependence.com/videos/india/why-is-sex-education-a-taboo-in-india-know-the-facts (accessed on 16 May 2022).
  24. Kheirkhah, M.; Hakimi, R.; Abolghasemi, J.; Hakimi, M. Sex Education and Afghan Migrant Adolescent Women. J. Fam. Med. Prim. Care 2021, 10, 791–797. [Google Scholar] [CrossRef]
  25. Larsen, U.; Mlay, J.; Aboud, S.; Ballard, R.; Sam, N.E.; Shao, J.F.; Kapiga, S.H. Design of a Community-Based Study of Sexually Transmitted Infections/HIV and Infertility in an Urban Area of Northern Tanzania. Sex. Transm. Dis. 2007, 34, 20–24. [Google Scholar] [CrossRef]
  26. Awang, H.; Wong, L.P.; Jani, R.; Low, W.Y. Knowledge of sexually transmitted diseases and sexual behaviours among malaysian male youths. J. Biosoc. Sci. 2013, 46, 214–224. [Google Scholar] [CrossRef] [Green Version]
  27. Amu, E.O.; Adegun, P.T. Awareness and Knowledge of Sexually Transmitted Infections among Secondary School Adolescents in Ado Ekiti, South Western Nigeria. J. Sex. Transm. Dis. 2015, 2015, 260126. [Google Scholar] [CrossRef] [Green Version]
  28. Aliyu, A.; Dahiru, T.; Ladan, A.; Shehu, A.; Oyefabi, A.; Yahaya, S.; Abubakar, A. Knowledge, Sources of Information, and Risk Factors for Sexually Transmitted Infections among Secondary School Youth in Zaria, Northern Nigeria. J. Med. Trop. 2013, 15, 102–106. [Google Scholar] [CrossRef] [Green Version]
  29. Tengia–Kessy, A.; Kamugisha, H. Levels of Knowledge and Sources of Information on Sexually Transmitted Infections among Secondary School Youth in Dar Es Salaam, Tanzania. East Afr. J. Public Health 2006, 3, 19–22. [Google Scholar]
  30. Nguyen, S.; Dang, A.; Vu, G.; Nguyen, C.; Le, T.; Truong, N.; Hoang, C.; Tran, T.; Tran, T.; Pham, H.; et al. Lack of Knowledge about Sexually Transmitted Diseases (STDs): Implications for STDs Prevention and Care among Dermatology Patients in an Urban City in Vietnam. Int. J. Environ. Res. Public Health 2019, 16, 1080. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  31. Nsuami, J.M.; Sanders, L.S.; Taylor, S.N. Knowledge of Sexually Transmitted Infections among High School Students. Am. J. Health Educ. 2010, 41, 206–217. [Google Scholar] [CrossRef]
  32. Cegolon, L.; Bortolotto, M.; Bellizzi, S.; Cegolon, A.; Bubbico, L.; Pichierri, G.; Mastrangelo, G.; Xodo, C. A Survey on Knowledge, Prevention, and Occurrence of Sexually Transmitted Infections among Freshmen from Four Italian Universities. Int. J. Environ. Res. Public Health 2022, 19, 897. [Google Scholar] [CrossRef]
  33. Nzoputam, C.; Adam, V.Y.; Nzoputam, O. Knowledge, Prevalence and Factors Associated with Sexually Transmitted Diseases among Female Students of a Federal University in Southern Nigeria. Venereology 2022, 1, 81–97. [Google Scholar] [CrossRef]
  34. Downs, J.S.; Bruine de Bruin, W.; Murray, P.J.; Fischhoff, B. Specific STI Knowledge May Be Acquired Too Late. J. Adolesc. Health 2006, 38, 65–67. [Google Scholar] [CrossRef]
  35. Biro, F.M.; Rosenthal, S.L.; Stanberry, L.R. Knowledge of Gonorrhea in Adolescent Females with a History of STD. Clin. Pediatr. 1994, 33, 601–605. [Google Scholar] [CrossRef]
  36. Balán, I.C.; Lopez-Rios, J.; Dolezal, C.; Rael, C.T.; Lentz, C. Low Sexually Transmissible Infection Knowledge, Risk Perception and Concern about Infection among Men Who Have Sex with Men and Transgender Women at High Risk of Infection. Sex. Health 2019, 16, 580–586. [Google Scholar] [CrossRef]
Tropicalmed 07 00147 g001 550
Figure 1. Prevalence of self-reported STI knowledge among men and women in Moshi, Tanzania, 2002–2003: (NSTDA: Gonorrhea, NSTDB: Syphilis, NSTDC: Chlamydia, NSTDD: Genital Ulcers, NSTDE: AIDS, NSTDF: Herpes, NSTDG: Others).
Figure 1. Prevalence of self-reported STI knowledge among men and women in Moshi, Tanzania, 2002–2003: (NSTDA: Gonorrhea, NSTDB: Syphilis, NSTDC: Chlamydia, NSTDD: Genital Ulcers, NSTDE: AIDS, NSTDF: Herpes, NSTDG: Others).
Tropicalmed 07 00147 g001
Tropicalmed 07 00147 g002 550
Figure 2. Prevalence of self-reported STI knowledge among men (left) and women (right) who tested positive for STIs. (NSTDA: Gonorrhea, NSTDB: Syphilis, NSTDC: Chlamydia, NSTDD: Genital Ulcers, NSTDE: AIDS, NSTDF: Herpes, NSTDG: Others).
Figure 2. Prevalence of self-reported STI knowledge among men (left) and women (right) who tested positive for STIs. (NSTDA: Gonorrhea, NSTDB: Syphilis, NSTDC: Chlamydia, NSTDD: Genital Ulcers, NSTDE: AIDS, NSTDF: Herpes, NSTDG: Others).
Tropicalmed 07 00147 g002
Tropicalmed 07 00147 g003 550
Figure 3. Prevalence of self-reported STI knowledge among men (left) and women (right) who experienced symptoms. (Symptoms—SSTD1: abdominal pain, SSTD2: abnormal genital discharge, SSTD3: foul smell in the genital area, SSTD4: excessive genital secretions, SSTD5: swelling of lymph nodes in the genital area, SSTD6: itching in the genital area, SSTD7: burning pain on micturition, SSTD8: pain during intercourse, SSTD9: genital ulcers, and SSTD10: others). (Knowledge—NSTDA: Gonorrhea, NSTDB: Syphilis, NSTDC: Chlamydia, NSTDD: Genital Ulcers, NSTDE: AIDS, NSTDF: Herpes, NSTDG: Others).
Figure 3. Prevalence of self-reported STI knowledge among men (left) and women (right) who experienced symptoms. (Symptoms—SSTD1: abdominal pain, SSTD2: abnormal genital discharge, SSTD3: foul smell in the genital area, SSTD4: excessive genital secretions, SSTD5: swelling of lymph nodes in the genital area, SSTD6: itching in the genital area, SSTD7: burning pain on micturition, SSTD8: pain during intercourse, SSTD9: genital ulcers, and SSTD10: others). (Knowledge—NSTDA: Gonorrhea, NSTDB: Syphilis, NSTDC: Chlamydia, NSTDD: Genital Ulcers, NSTDE: AIDS, NSTDF: Herpes, NSTDG: Others).
Tropicalmed 07 00147 g003
Tropicalmed 07 00147 g004 550
Figure 4. Forest plot presenting odds of testing positive for at least one STI in men and women who reported awareness of an STI.
Figure 4. Forest plot presenting odds of testing positive for at least one STI in men and women who reported awareness of an STI.
Tropicalmed 07 00147 g004
Table
Table 1. Demographic characteristics of men (n = 794) and women (n = 2019) in Moshi, Tanzania, 2002–2003.
Table 1. Demographic characteristics of men (n = 794) and women (n = 2019) in Moshi, Tanzania, 2002–2003.
Variable Men
Median		IQRWomen
Median		IQR
Age (years) 3630–432824–35
Age (years) at First Sex 1816–201917–21
N%N%
Marital Status
Currently Married78498.7121860
Never Married101.380040
Stay *
≥10 years53767.6103651
<10 years25632.298149
Education
Pre-High School55069.3148373.5
High School23429.553626.5
Circumcision
Yes76896.745923
No253.1155677
Condom Use
Never63079.3129664.2
Sometimes11514.535317.5
Often/Always475.9432.1
Number of Partners
12 months
169587.5155376.9
2+9812.4442.2
* Stayed/Lived in Moshi District.
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Vasudeva, M.; Nakka, R.; Stock, S.; Ghebremichael, M. Associations between Awareness of Sexually Transmitted Infections (STIs) and Prevalence of STIs among Sub-Saharan African Men and Women. Trop. Med. Infect. Dis. 2022, 7, 147. https://doi.org/10.3390/tropicalmed7080147

AMA Style

Vasudeva M, Nakka R, Stock S, Ghebremichael M. Associations between Awareness of Sexually Transmitted Infections (STIs) and Prevalence of STIs among Sub-Saharan African Men and Women. Tropical Medicine and Infectious Disease. 2022; 7(8):147. https://doi.org/10.3390/tropicalmed7080147

Chicago/Turabian Style

Vasudeva, Meghana, Raja Nakka, Shannon Stock, and Musie Ghebremichael. 2022. "Associations between Awareness of Sexually Transmitted Infections (STIs) and Prevalence of STIs among Sub-Saharan African Men and Women" Tropical Medicine and Infectious Disease 7, no. 8: 147. https://doi.org/10.3390/tropicalmed7080147

Article Metrics

Back to TopTop