Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-02T22:06:29.123Z Has data issue: false hasContentIssue false

High prevalence of HIV infection among rural tea plantation residents in Kericho, Kenya

Published online by Cambridge University Press:  29 June 2007

G. FOGLIA
Affiliation:
U.S. Army Medical Research Unit – Kenya, Nairobi, Kenya
W. B. SATEREN*
Affiliation:
Division of Retrovirology, Walter Reed Army Institute of Research, Rockville, MD, USA
P. O. RENZULLO
Affiliation:
Vaccine Research Center, National Institutes of Health, Bethesda, MD, USA
C. T. BAUTISTA
Affiliation:
U.S. Military HIV Research Program, the Henry M. JacksonFoundation for the Advancement of Military Medicine, Inc., Rockville, MD, USA
L. LANGAT
Affiliation:
U.S. Army Medical Research Unit – Kenya, Nairobi, Kenya
M. K. WASUNNA
Affiliation:
Kenya Medical Research Institute, Nairobi, Kenya
D. E. SINGER
Affiliation:
Division of Retrovirology, Walter Reed Army Institute of Research, Rockville, MD, USA
P. T. SCOTT
Affiliation:
Division of Retrovirology, Walter Reed Army Institute of Research, Rockville, MD, USA
M. L. ROBB
Affiliation:
U.S. Military HIV Research Program, the Henry M. JacksonFoundation for the Advancement of Military Medicine, Inc., Rockville, MD, USA
D. L. BIRX
Affiliation:
Division of Retrovirology, Walter Reed Army Institute of Research, Rockville, MD, USA
*
*Author for correspondence: W. B. Sateren, M.P.H, Division of Retrovirology, Walter Reed Army Institute of Research, 1 Taft Court, Suite 250, Rockville, MD 20850, USA. (Email: [email protected])
Rights & Permissions [Opens in a new window]

Summary

Human immunodeficiency virus type 1 (HIV-1) epidemiology among residents of a rural agricultural plantation in Kericho, Kenya was studied. HIV-1 prevalence was 14·3%, and was higher among women (19·1%) than men (11·3%). Risk factors associated with HIV-1 for men were age (⩾25 years), marital history (one or more marriages), age difference from current spouse (⩾5 years), Luo ethnicity, sexually transmitted infection (STI) symptoms in the past 6 months, circumcision (protective), and sexual activity (⩾7 years). Among women, risk factors associated with HIV-1 were age (25–29 years, ⩾35 years), marital history (one or more marriages), age difference from current spouse (⩾10 years), Luo ethnicity, STI symptoms in the past 6 months, and a STI history in the past 5 years. Most participants (96%) expressed a willingness to participate in a future HIV vaccine study. These findings will facilitate targeted intervention and prevention measures for HIV-1 infection in Kericho.

Type
Original Papers
Copyright
Copyright © Cambridge University Press 2007

INTRODUCTION

By the end of 2006, nearly 40 million people were living with HIV/AIDS worldwide and 25 million had died since HIV infection was first recognized [1]. Sub-Saharan Africa has been disproportionately affected by this pandemic. In the 42 countries comprising this region, more than 25 million people (63% of the global total) were living with HIV [Reference Buve, Bishikwabo-Nsarhaza and Mutangadura2]. The pandemic concentrated in women and the socially and economically productive groups aged 15–45 years [Reference Buve, Bishikwabo-Nsarhaza and Mutangadura2].

It has long been recognized that HIV/AIDS prevention is instrumental to controlling the global epidemic. Prevention programmes may include: HIV/AIDS education programmes, abstinence promotion, condom promotion, blood bank screening, access to sterile injecting paraphernalia, voluntary testing and counselling, access to antiretroviral drugs and use of microbicides [3].

In Uganda and Kenya, HIV-1 prevalence declined primarily through prevention programmes implementing changes in sexual behaviour, such as increased condom use, reduction in the number of sexual partners, and delayed sexual debut [Reference Hallett4Reference Cheluget6]. In Kenya, the prevalence of HIV-1 infection appears to have declined throughout the 1990s [Reference Cheluget6]. The nationwide Kenyan Demographic and Health Survey (KDHS) conducted in 2003 reported over 6·7% of the Kenyan adult population (15–49 years) was infected with HIV-1, with an increase in differences between urban areas (10%) and rural areas (5·6%) [7].

The aim of this study was to determine the prevalence of and risk factors for HIV-1 infection among rural plantation residents in Kericho, Kenya to assist in both prevention programmes and the development of a site for HIV-1 vaccine research.

METHODS

The study site is located on a tea plantation neighbouring Kericho, Kenya, ∼260 km northwest of Nairobi [Reference Sateren8]. Over 50 000 residents live in 29 housing clusters (estates) over the 104 km2 plantation. Residents of six estates were invited to participate in the study during community meetings where information on HIV/AIDS and the research objectives were presented. The six estates are located within a few kilometres of each other and were selected based on their proximity to the Walter Reed Project (WRP) office and to Kericho town.

Participants were recruited from June to December 2003. Inclusion criteria for both men and women were: age between 18 and 55 years, the capability of providing informed consent, and plans to live in the community for at least 3 years. All study activities were conducted in mobile tents. Volunteers were informed of study goals and procedures, including the confidentiality of HIV test results and were administered a 10-question comprehension test, for which a passing score was a requirement for enrolment. After written informed consent was obtained, participants underwent phlebotomy, medical history/physical examination, and a risk assessment interview. A standardized questionnaire developed with Kenyan staff was administered in face-to-face confidential interviews by trained personnel in either English or Kiswahili. Socio-demographic and epidemiological data were collected. Participants were asked to return in 2 weeks to receive HIV results and post-test counselling.

Medical study staff performed medical histories and physical examinations. All Kericho residents and their dependant children were eligible to receive free medical examinations, treatment, and HIV counselling regardless of their participation in the study. Treatment algorithms were followed according to the National Standards of Care (Kenya Ministry of Health) [9]. Pregnant HIV-1-infected women were offered nevirapine to prevent transmission of HIV-1 to their infant.

All serum samples were initially processed in the on-site laboratory tent. Then, at the WRP laboratory in Kericho, serum specimens were tested for HIV-1 antibodies by screening ELISA and confirmatory Western blot assay.

χ2 or Fisher's exact test was applied to compare differences in proportions. To evaluate the association of risk factors for HIV-1, odds ratios (OR) were estimated using random-effects logistic regression [Reference Conway10], where estate was defined as the group variable. Potential confounding was evaluated for age, ethnic group, educational level, marital history, and by selecting variables that resulted in a change of ⩾10% in the odds ratio. All statistical analyses were two-sided and a P value <0·05 was considered significant. Statistical analyses were performed using stata version 8.0 (Stata Corporation, College Station, TX, USA).

RESULTS

Characteristics of study participants

A total of 2801 participants were enrolled. Sixty-one percent (1720) of participants were men and 53% of participants were aged <30 years (Table 1). More than 95% had completed at least a primary education. Nineteen percent of men and 7% of women had been married two or more times. Men were more likely to be employed compared to women (85% vs. 51%). Participants reported affiliation with more than 25 different ethnic groups (tribes). The most common tribes were Kalenjin, Kisii, Luo, and Luhya. Between the six estates, variability was observed in the proportion of female participants (28–53%), participants aged <30 years (47–66%), and participants who had never been married (16–28%).

Table 1. Demographic characteristics of 2801 participants from Kericho, Kenya

s.d., Standard deviation.

Denominator totals vary due to missing data.

* P<0·05 by χ2 or Fisher's exact test.

HIV-1 prevalence

At enrolment, 401 participants were HIV-1 positive. The overall HIV-1 prevalence was 14·3% (95% CI 13·0–15·7) and was significantly higher among women than men (19·1% vs. 11·3%, P<0·001). Between the six estates, the HIV-1 prevalence ranged from 9·6% to 19·9%.

Gender-stratified HIV-1 prevalence estimates are presented in Table 2. Among men, HIV-1 prevalence significantly increased with age (2·9–17·1%) and was higher among those who were aged ⩾30 years, with primary or no education, who had ever been married, who were ⩾5 years older than their current spouse, who were employed, and who were of Luo ethnicity. HIV-1 prevalence was also higher among men who reported sexually transmitted infection (STI) symptoms in the past 6 months, who were uncircumcised, whose sexual partners were either their regular partner/spouse or their regular partner and others, who had been sexually active for ⩾7 years, and who had ever had sex with a female sex worker (FSW). Among women, HIV-1 prevalence was higher among those who were aged ⩾25 years, who had ever been married, who were ⩾10 years younger than their current spouse, who were employed, who were of Luo ethnicity, who reported STI symptoms in the past 6 months, and who had been sexually active for ⩾7 years.

Table 2. HIV-1 prevalence by gender among 2801 participants from Kericho, Kenya

HIV-1, Human immunodeficiency virus type 1; STI, sexually transmitted infections; FSW, female sex worker; Prev., prevalence.

Denominator totals vary due to missing data.

* P<0·05, **P<0·001 by χ2 or Fisher's exact test.

Additionally, when we compared the two estates with highest HIV-1 prevalence (16·8% and 19·9%) with the four remaining estates (9·6–13·4%), no difference in terms of risk factors were found. However, a higher proportion of participants with the following characteristics were observed among the two estates with higher HIV-1 prevalence: women, Luo ethnicity, marital status (one or more marriages), and uncircumcised men (data not shown).

Gender-specific risk factors for HIV-1

Risk factor analyses for men and women are presented in Table 3. Among men, adjusted risk factors significantly associated with HIV-1 were older age [25–29 years, adjusted odds ratio (aOR) 2·83; 30–34 years, aOR 4·96; ⩾35 years, aOR 4·68], having been married (one marriage, aOR 2·39; ⩾2 marriages, aOR 3·38), being older than current spouse (5–9 years, aOR 1·58; ⩾10 years, aOR 2·04), affiliation with the Luo ethnic group (aOR 5·65), STI symptoms in the past 6 months (aOR 2·42), being uncircumcised (aOR 0·34), and years of sexual activity (7–18 years, aOR 4·54; ⩾19 years, aOR 3·36).

Table 3. Gender-specific risk factor analysis for HIV-1 infection among 2801 participants from Kericho, Kenya

HIV-1, Human immunodeficiency virus type 1; STI, sexually transmitted infections; OR, odds ratio; CI, confidence interval; aOR, adjusted odds ratio; Ref., reference category for odds calculations.

Significant adjusted associations for HIV infection are denoted by boldface.

* P<0·05, **P<0·001.

Among women, adjusted risk factors significantly associated with HIV-1 were age (25–29 years, aOR 1·53; ⩾34 years, aOR 1·68), having been married (one marriage, aOR 1·95; ⩾2 marriages, aOR 2·40), being younger than current spouse (⩾10 years, aOR 1·77), affiliation with the Luo ethnic group (aOR 2·50), STI symptoms in the past 6 months (aOR 2·00), and a STI history in the past 5 years (aOR 1·96).

Participants' beliefs on ways to contract or be protected from HIV/AIDS

The majority of male and female participants reported sexual contact without condoms (99%), sharing needles with HIV-positive persons (78%), or a blood transfusion from HIV-1-positive persons (73%) as ways to get HIV/AIDS (Table 4). Women were more likely than men (64% vs. 59%, P=0·008) to identify that a baby could become infected through breastfeeding. In addition, almost 94% of participants reported sharing razors/scissors with HIV-1-positive persons as a way to get HIV/AIDS. Correct condom use was identified by 95% of men and women as one way to protect from HIV/AIDS. Other ways of protecting from HIV/AIDS were being faithful to one faithful partner (89%), abstaining from sex (62%), and having sex only with healthy persons (16%).

Table 4. Participants' beliefs on ways to contract or be protected from HIV/AIDS among 2801 participants from Kericho, Kenya

HIV, Human immunodeficiency virus; AIDS, acquired immune deficiency syndrome.

Denominator totals vary due to missing data.

* P<0·05 by χ2 or Fisher's exact test.

Additionally, most participants (99%) reported having received information on HIV/AIDS. Radio was the most cited source of information. The WRP staff, health personnel, television, and newspapers/magazines were also cited as other sources of information. Women were more likely than men to receive information from health personnel and family.

Willingness to participate in HIV vaccine studies

Over 98% of men and 96% of women reported they would be willing to participate in a HIV vaccine study. Ninety-six percent of men and women reported that they would probably want or definitely want to receive a HIV vaccine that had been proven safe and efficacious. The percentage willing to participate in HIV vaccine research was similar across the six estates and age groups.

DISCUSSION

We found a high prevalence of HIV-1 among this rural Kenyan population. Among men, higher risk for HIV-1 was found for those in older age groups, having been married at least once, being ⩾5 years older than their spouse or partner, having had a STI symptom in the past 6 months, being of Luo ethnicity, and having ⩾7 years of sexual activity. Circumcision was associated with lower risk of HIV-1 among men. Among women, higher risk for HIV-1 was being in the ⩾25–29 years age group, those married once or more, being ⩾10 years younger than their spouse or partner, and having had a STI symptom in the past 6 months and a history of a STI in the past 5 years.

In the Rift Valley Province (which extends from Sudan in the North to Tanzania in the South and where Kericho is located), the HIV-1 prevalence reported by the KDHS [7] was 5·3%, and the neighbouring province of Nyanza, ∼15 km northwest of Kericho, reported the highest HIV-1 prevalence (15·1%) in Kenya [7]. In our study, over 47% of enrolled participants and 60·1% of all HIV-positive participants were originally from Nyanza, which could help to explain the high HIV-1 prevalence observed in Kericho.

The epidemiological features of HIV-1 infection observed in Kericho were similar to previous studies in sub-Saharan Africa [Reference Buve, Bishikwabo-Nsarhaza and Mutangadura2, Reference Glynn11Reference Nyindo13]. In our study population, HIV-1 prevalence was nearly twofold greater among women than among men. One possible explanation for this gender disparity concerns the unequal power dynamics between men and women [Reference Glynn11, Reference Clark14]. Our findings were also consistent with the KDHS, which reported a marked gender disparity with women almost twice as likely to be infected as men, with HIV prevalences of 7·5% and 3·6%, respectively [7]. An age difference of ⩾10 years from current spouse was also associated with HIV-1 infection among both men and women in our study. These findings were consistent with earlier work [Reference Clark14]. Circumcision was associated with lower risk for HIV-1 infection among men. Circumcision being protective against HIV-1 infection has been also observed in other areas of sub-Saharan Africa [Reference Agot12, Reference Bailey15, Reference Siegfried16]. Recently, UNAIDS and the World Health Organization have suggested male circumcision as one preventive measure against acquiring infection in areas with high HIV-1 prevalence [17]. A STI symptom in the past 6 months for both women and men was associated with HIV-1. As is well-known, STI has constituted a complementary risk factor for the spread of HIV-1 infection in sub-Saharan Africa [Reference Nyindo13]. Interestingly, in contrast to other research [Reference Clark14], sex with a FSW was not associated with HIV-1 among men, adjusting for other variables (data not shown). However, this lack of association could be explained by the fact that men were more likely to use condoms when having sex with a FSW [Reference Ferguson18, Reference Kapiga and Lugalla19]. This factor was not addressed in our study.

Although most participants knew that sex without condoms with a HIV-1-positive person was one way to contract HIV/AIDS, a significant proportion did not know that sharing needles or receiving a blood transfusion from a HIV-1-infected person could also lead to infection. Interestingly, a high proportion of both men and women thought they could get HIV/AIDS through sharing razors/scissors with a HIV-1-positive person. These findings identify HIV/AIDS education needs in Kericho. Despite the fact that the majority of participants were familiar with sexual risks associated with HIV-1 infection, additional education on HIV-1 transmission and specific behaviours that are not high risk for infection (e.g. casual contact with a HIV-1-infected person) may be warranted. In addition, the high proportion of women who did not know that the virus can be transmitted to a child through breastfeeding illustrates an educational opportunity which could be part of an overall strategy to reduce mother-to-infant HIV transmission.

Volunteers expressed strong willingness to participate in future HIV vaccine research and receive an efficacious vaccine when one is developed. The degree to which the community knows about the disease and the ability of its members to provide informed consent are critical elements for the conduct of HIV research [Reference Swartz and Kagee20, Reference Lindegger and Richter21], which is one of the goals of the WRP in Kericho. Other critical elements include a strong research infrastructure, effective recruitment and retention strategies, and community commitment and support [Reference Suligoi22, Reference Newman23]. The Kericho research infrastructure has been integrated with HIV/AIDS treatment facilities supported by the United States President's Emergency Plan for AIDS Relief [24].

Some limitations of this study should be considered. No information was available on potential participants who did not enrol in the study. Therefore we were unable to determine how representative our study population is of the population of the six estates or of the overall tea plantation population. Several study findings suggest that there may be important cultural factors related to tribal affiliation that could be associated with an increased risk for HIV-1 infection. Our study was not designed to address these specific factors. However, this information will inform future studies in this rural population which seek to examine these factors in greater detail. Finally, sensitivity to revealing personal information (i.e. sexual behaviour) may have prevented those who did participate in the study from being totally truthful, despite assurances of confidentiality, which may have led to underreporting of some risk behaviours.

In summary, in this rural Kenyan population, a high HIV-1 prevalence was found and this was significantly higher among women than men. The epidemiological and socio-behavioural features of this study, combined with the research infrastructure in Kericho, make this site suitable for continued HIV research.

ACKNOWLEDGEMENTS

This study was supported and approved by the U.S. Military HIV Research Program at the Walter Reed Army Institute of Research (WRAIR protocol #855, RV142), and by the Kenya Medical Research Institute, Nairobi, Kenya. The material has been reviewed by the Walter Reed Army Institute of Research and there is no objection to its presentation and/or publication. The authors would like to thank the management and employees of James K. Finlay LLC (formerly African Highlands Produce) for their invaluable assistance and cooperation during the conduct of this research among plantation employees and their dependants. We thank Dr Nelson L. Michael at the Walter Reed Army Institute of Research for manuscript review.

DECLARATION OF INTEREST

None.

References

REFERENCES

1. UNAIDS (United Nations Programme on HIV/AIDS). AIDS Epidemic Update. December 2006 Report from UNAIDS (http://www.unaids.org). Accessed 29 March 2007.Google Scholar
2. Buve, A, Bishikwabo-Nsarhaza, K, Mutangadura, G. The spread and effect of HIV-1 infection in sub-Saharan Africa. Lancet 2002; 359: 20112017.CrossRefGoogle ScholarPubMed
3. UNAIDS 2006. UNAIDS action plan on intensifying HIV prevention 2006/2007. UNAIDS Report 06.09E, March 2006.Google Scholar
4. Hallett, TB, et al. Declines in HIV prevalence can be associated with changing sexual behavior in Uganda, urban Kenya, Zimbabwe, and urban Haiti. Sexually Transmitted Infections 2006; 82 (Suppl. 1): i1i8.CrossRefGoogle ScholarPubMed
5. Stoneburner, RL, Low-Beer, D. Population-level HIV declines and behavioral risk avoidance in Uganda. Science 2004; 304: 714718.CrossRefGoogle ScholarPubMed
6. Cheluget, B, et al. Evidence for population level declines in adult HIV prevalence in Kenya. Sexually Transmitted Infections 2006; 82 (Suppl. 1): i21i26.CrossRefGoogle ScholarPubMed
7. Kenya Central Bureau of Statistics. Kenya Ministry of Health (MoH), ORC Macro. Kenya Demographic and Health Survey, 2003. Report published July 2004, Nairobi, Kenya and Calverton, Maryland, CBS, MOH and ORC Macro.Google Scholar
8. Sateren, WB, et al. Epidemiology of HIV infection in agricultural plantation residents in Kericho, Kenya: preparation for vaccine feasibility studies. Journal of Acquired Immune Deficiency Syndromes 2006; 43: 102106.CrossRefGoogle ScholarPubMed
9. Kenya Ministry of Health. Clinical Guidelines for Diagnosis and Treatment of Common Hospital Conditions in Kenya. Kenya Ministry of Health: Regal Press Kenya Ltd, 2002.Google Scholar
10. Conway, MR. A random effects model for binary data. Biometrics 1990; 46: 317328.CrossRefGoogle Scholar
11. Glynn, JR, et al. Study group on the heterogeneity of HIV epidemics in African cities. Why do young women have a much higher prevalence of HIV than young men? A study in Kisumu, Kenya and Ndola, Zambia. AIDS 2001; 15 (Suppl. 4): S51S60.CrossRefGoogle Scholar
12. Agot, KE, et al. Risk of HIV-1 in rural Kenya: a comparison of circumcised and uncircumcised men. Epidemiology 2004; 15: 157163.CrossRefGoogle Scholar
13. Nyindo, M. Complementary factors contributing to the rapid spread of HIV-I in sub-Saharan Africa: a review. East African Medical Journal 2005; 82: 4046.CrossRefGoogle Scholar
14. Clark, S. Early marriage and HIV risks in sub-Saharan Africa. Studies in Family Planning 2004; 35: 149160.CrossRefGoogle ScholarPubMed
15. Bailey, RC, et al. The acceptability of male circumcision to reduce HIV infections in Nyanza province, Kenya. AIDS Care 2002; 14: 2740.CrossRefGoogle ScholarPubMed
16. Siegfried, N, et al. HIV and male circumcision – a systematic review with assessment of the quality of studies. Lancet Infectious Diseases 2005; 5: 165173.CrossRefGoogle ScholarPubMed
17. UNAIDS 2007. New data on male circumcision and HIV prevention: policy and programme implications. WHO/UNAIDS Technical Consultation, 28 March 2007.Google Scholar
18. Ferguson, A, et al. Sexual patterning and condom use among a group of HIV vulnerable men in Thika, Kenya. Sexually Transmitted Infections 2004; 80: 435439.CrossRefGoogle ScholarPubMed
19. Kapiga, SH, Lugalla, JL. Male condom use in Tanzania: results from a national survey. East African Medical Journal 2003; 80: 181190.Google ScholarPubMed
20. Swartz, L, Kagee, A. Community participation in AIDS vaccine trials: empowerment or science. Social Science & Medicine 2006; 63: 11431146.CrossRefGoogle ScholarPubMed
21. Lindegger, G, Richter, LM. HIV vaccine trials: critical issues in informed consent. South African Journal of Science 2000; 96: 313317.Google ScholarPubMed
22. Suligoi, B, et al. The epidemiological contribution to the preparation of field trials for HIV and STI vaccines: objectives and methods of feasibility studies. Vaccine 2005; 23: 14371445.CrossRefGoogle Scholar
23. Newman, PA, et al. HIV vaccine acceptability among communities at risk: the impact of vaccine characteristics. Vaccine 2006; 24: 20942101.CrossRefGoogle ScholarPubMed
24. Office of the United States Global AIDS Coordinator. The power of partnerships: the President's Emergency Plan for AIDS Relief. Overview of the third annual report to congress (http://www.pepfar.gov/press/c21604.htm). Accessed 29 March 2007.Google Scholar
Figure 0

Table 1. Demographic characteristics of 2801 participants from Kericho, Kenya

Figure 1

Table 2. HIV-1 prevalence by gender among 2801 participants from Kericho, Kenya

Figure 2

Table 3. Gender-specific risk factor analysis for HIV-1 infection among 2801 participants from Kericho, Kenya

Figure 3

Table 4. Participants' beliefs on ways to contract or be protected from HIV/AIDS among 2801 participants from Kericho, Kenya