Intimate Partner Violence and Adherence to HIV Pre-exposure Prophylaxis (PrEP) in African Women in HIV Serodiscordant Relationships: A Prospective Cohort Study.

BACKGROUND: Intimate partner violence (IPV) is associated with higher HIV incidence, reduced condom use, and poor adherence to antiretroviral therapy and other medications. IPV may also affect adherence to pre-exposure prophylaxis (PrEP).
METHODS: We analyzed data from 1785 HIV-uninfected women enrolled in a clinical trial of PrEP among African HIV serodiscordant couples. Experience of verbal, physical, or economic IPV was assessed at monthly visits by face-to-face interviews. Low PrEP adherence was defined as clinic-based pill count coverage <80% or plasma tenofovir levels <40 ng/mL. The association between IPV and low adherence was analyzed using generalized estimating equations, adjusting for potential confounders. In-depth interview transcripts were examined to explain how IPV could impact adherence.
RESULTS: Sixteen percent of women reported IPV during a median of 34.8 months of follow-up (interquartile range 27.0-35.0). Overall, 7% of visits had pill count coverage <80%, and 32% had plasma tenofovir <40 ng/mL. Women reporting IPV in the past 3 months had increased risk of low adherence by pill count (adjusted risk ratio 1.49, 95% confidence interval: 1.17 to 1.89) and by plasma tenofovir (adjusted risk ratio 1.51, 95% confidence interval: 1.06 to 2.15). Verbal, economic, and physical IPV were all associated with low adherence. However, the impact of IPV diminished and was not statistically significant 3 months after the reported exposure. In qualitative interviews, women identified several ways in which IPV affected adherence, including stress and forgetting, leaving home without pills, and partners throwing pills away.
CONCLUSIONS: Women who reported recent IPV in the Partners PrEP Study were at increased risk of low PrEP adherence. Strategies to mitigate PrEP nonadherence in the context of IPV should be evaluated.

RCT Entities:   Population Interventions Outcomes

INTRODUCTION

Randomized trials have demonstrated that oral antiretroviral pre-exposure prophylaxis (PrEP) is effective for HIV prevention in several populations, including heterosexual men and women,[1,2] men who have sex with men,[3-5] and injection drug users.[6] Based on these data, the World Health Organization recommends PrEP as part of a comprehensive HIV prevention package for people at substantial risk of HIV infection.[7] Several PrEP demonstration projects are testing strategies to maximize population impact and cost-effectiveness.[8,9]

One population eligible for PrEP targeting is sexually active women in sub-Saharan Africa.[10] In this region, women have considerably higher incidence of HIV than do men, particularly at young ages.[11] Intimate partner violence (IPV) is also common, with lifetime prevalence estimates ranging from 36% to 71%.[12] IPV is associated with an increased risk of HIV infection,[13-20] with 2 prospective studies showing that HIV incidence is approximately 50% higher among women who have experienced IPV than women with no IPV history.[21,22] In the study by Kouyoumdjian et al,[22] the effect size was similar for physical, sexual, and verbal IPV; increased with IPV frequency and severity; and persisted for more than 1 year after the last violent episode. In the context of violent relationships, individual-level biomedical interventions such as PrEP may be more effective for HIV prevention than behavioral interventions requiring cooperation of both partners.[22,23] However, for PrEP to prevent HIV infection, consistently high adherence is necessary during periods of potential exposure.[24-26] Women who experience IPV have lower adherence to several medication regimens, including antiretroviral therapy (ART) for HIV treatment and methadone treatment for drug addiction[27-30]; IPV may also be a barrier to PrEP adherence.[31]

With programs or demonstration projects beginning to offer PrEP to women, including women who experience IPV, it is important to understand whether adherence levels will be high enough for PrEP to be effective. If IPV is associated with low PrEP adherence, additional, targeted adherence support may be required for IPV survivors. We conducted a prospective cohort study to examine whether recent and/or past exposure to IPV is associated with low PrEP adherence among HIV-uninfected women participating in a clinical trial of PrEP.

METHODS

Study Population

The population for this analysis was all HIV-uninfected women participating in the Partners PrEP Study, a phase 3, randomized, double-blind, placebo-controlled clinical trial that demonstrated the efficacy of daily oral PrEP among HIV-uninfected members of HIV serodiscordant couples. The design, procedures, and outcomes of the trial are described elsewhere.[1,32] Briefly, from 2008 to 2012, 4747 couples were randomized and followed at 9 research sites in Kenya and Uganda. HIV-uninfected partners were randomly assigned to once-daily tenofovir disoproxil fumarate (TDF), emtricitabine (FTC)/TDF, or placebo, and followed monthly for 12–48 months. All couples received a package of HIV prevention services, including risk-reduction counseling, couples' counseling, and condoms. The study protocol was approved by the University of Washington Human Subjects Review Committee and ethics review committees at each of the study sites. All participants provided written informed consent in English or their local language.

Data Collection

Experience of IPV was assessed monthly by asking whether the participant had been verbally, physically, or economically abused by her partner since the last study visit. Participants were asked in the context of a risk-reduction counseling session, in local languages, and in a manner considered culturally appropriate for each study site.[33] Although the wording of the question varied and was context specific, all interviewers were experienced in counseling couples and were trained through multiple role plays to assess and document IPV on case report forms according to standard protocols. If the participant reported IPV, the type (verbal, physical, or economic), frequency, and consequences (eg, relationship breakup, income loss) were documented on a structured questionnaire.

PrEP adherence was measured by clinic-based pill counts and plasma tenofovir concentrations. For all HIV-uninfected participants, pill counts were conducted on returned, unused medication tablets each month at the study clinic. Plasma samples were collected and stored at visit months 1, 3, and quarterly thereafter, and at any visit during which a participant tested positive for HIV. Plasma tenofovir concentrations were measured only in a subset of participants, using ultraperformance liquid chromatography–mass spectrometry assay methods.[34] Of the 1297 plasma tenofovir measurements, 606 (47%) were from 113 randomly sampled women, and 691 (53%) were from 302 women purposively selected for other secondary analyses.[32,34-37]

Demographic characteristics were collected separately from the participant and her partner at enrollment, including age, income, education, weekly alcohol intake, marital status, relationship duration, and how long the couple had known they were serodiscordant. Data on sexual behavior, including coital frequency, condom use, and outside partnerships were collected through interviewer-administered questionnaires at monthly intervals for the participants and at quarterly intervals for their partner. We relied on participant reports for dyad-level data such as relationship duration and coital frequency, and on partner reports for his individual-level data, including demographic characteristics and outside partnerships. Monthly HIV testing and annual STI testing were conducted using methods described previously.[38]

Data Analysis

At each study visit, women were categorized as having no IPV reported to date in the study, IPV reported in the past 3 months, or IPV reported in the study and >3 months ago. This approach enabled us to distinguish between an acute effect of recent IPV on PrEP adherence, compared with a more long-lasting effect.

Pill count coverage was defined as the percentage of days between study visits when a pill was available to be taken, calculated as: (number of pills dispensed − number of pills counted)/number of days between study visits. Coverage was dichotomized into high (≥80%) or low (<80%), consistent with other HIV prevention studies[39,40] and with recent pharmacodynamic modeling suggesting that 6 of 7 doses per week of oral FTC/TDF PrEP may be required to protect female genital tissue from HIV infection.[41] Although clinic-based pill counts are an imperfect measure of adherence, they were strongly correlated with other objective measures of adherence in the Partners PrEP Study.[30,31] Visits were excluded if the participant was not taking the study drug for a protocol-defined reason, such as pregnancy, breastfeeding, seroconversion, or toxicity concerns. Missed visits were included, because one possible consequence of IPV could be failure to attend clinic visits, and adherence was set to zero when the number of days since the last visit exceeded the number of pills dispensed. About 2% (1400/59,806) of eligible follow-up visits were missed.

Plasma tenofovir adherence was dichotomized at 40 ng/mL. This concentration is based on the lower 95% confidence interval 24 hours after dose for directly observed daily dosing at steady state, but is also consistent with a single dose taken in the last 24 hours.[42-45] We selected this threshold because it is more sensitive to occasional missed doses than a threshold of detectable versus nondetectable, and because data suggest that near-daily dosing may be necessary to achieve adequate vaginal concentrations of activated intracellular metabolites of tenofovir diphosphate and FTC triphosphate required for effective protection from HIV.[46,47]

We evaluated the associations between IPV and each PrEP adherence measure using univariate and multivariable (adjusted) generalized estimating equation Poisson models with an exchangeable correlation matrix and robust standard errors, to account for repeated measures for each participant.[48,49] Multivariable models were adjusted a priori for age, study site, and time in study. We also evaluated the following covariates as potential confounders and retained them in the model if they resulted in meaningful changes (>10%) to the estimated risk ratios: baseline covariates of partnership duration, years in the known HIV serodiscordant partnership, age difference with HIV-infected partner, income, education, alcohol intake; and time-varying covariates of HIV-infected partner's report of outside sexual partners, and participant's reports of outside sexual partners and any sex with their HIV-infected partner. Because changes in the participant's sexual behavior could be either a cause or a consequence of IPV, the last 2 time-varying covariates were lagged by 3 months to ensure that they preceded both the exposure and the outcome. Because the amount of missing data was small (<5% of visits), we conducted complete case analyses. Risk estimates did not change under different assumptions about the values of missing data. In sensitivity analyses, we excluded participants with pill count coverage >103%, indicating that fewer pills were returned than would be expected based on the number of days since the last visit. Previous studies suggest that coverage above that threshold may indicate lower adherence.[34,50] To maximize statistical power, we included measurements from both randomly sampled and purposefully sampled participants in our plasma tenofovir analysis. We also restricted the analysis to randomly sampled participants to assess the potential for selection bias.

Additional analyses examined the effects of the type of IPV (physical, verbal, or economic) and the frequency of physical and verbal IPV on PrEP adherence measured by pill count coverage. The comparison group for each of these analyses was women who reported no IPV to date in the study. We used a Cox proportional hazards model to determine whether IPV was associated with higher HIV incidence in this cohort. The adjusted hazard ratios (aHRs) controlled for study arm and did not change with adjustment for age, marital/cohabiting status, number of children, any sex or unprotected sex in past month, male partner viral load and circumcision status, HSV-2 status at enrollment, or depot medroxyprogesterone acetate (DMPA) use.

Qualitative Data

As part of an ancillary adherence substudy, in-depth qualitative interviews were conducted with 88 HIV-uninfected participants (40 women and 48 men) at a single study site in Uganda. Methods and other findings from these interviews are described elsewhere.[51,52] Participants were purposively sampled based on adherence levels, as estimated from unannounced home-based pill counts conducted as part of the substudy procedures. The study enrolled all 58 participants at the site whose adherence dropped below 80% at some point during the substudy (“low adherers”), and a sample of 30 participants with 100% adherence throughout the substudy (“perfect adherers”). Women in the qualitative sample were older than in the overall study [age: median 36 years, interquartile range (IQR) 29.5–40.5], had fewer years of schooling (median 3, IQR 0–5), and were more likely to earn an income (97.5%). They were similar to the overall sample on marital status, relationship duration, and number of children. The interview addressed participants' experiences of taking PrEP, accounts of missed doses and lapses in adherence, and strategies for sustaining adherence. Interviews were conducted a minimum of 3 months and median of 21 months after enrollment (IQR 16–24 months). Data were analyzed using an inductive process to understand social influences that seemed to impact adherence. For this analysis, we reviewed the 7 transcripts that contained references to IPV, including 4 low adherers and 3 perfect adherers. Relevant content was organized to reveal patterns in the data. The ancillary adherence substudy was approved by the Partners Health Care Human Research Committee, the University of Washington Human Subjects Review Committee, and the Uganda National Council on Science and Technology. Separate written consent was obtained from all participants for this substudy.

RESULTS

Participant Characteristics

Characteristics of the 1785 HIV-uninfected female participants are shown in Table 1. Mean age was 33.2 years; participants had completed an average of 5.6 years of school; and 69.6% had earned any income in the past 3 months. The majority of participants were married (99.2%), with a mean relationship duration of 12.9 years, and had mutually disclosed HIV serodiscordant status for a mean of 1.4 years.

TABLE 1.

Participant Characteristics at Baseline and During Follow-up

Prevalence and Correlates of IPV

Over the course of the study, 288 women (16.1%) reported IPV at 437 visits (0.7% of 60,191 total visits). Of these women, 198 (68.8%) reported IPV at 1 study visit, 19.8% at 2 visits, 6.6% at 3 visits, and 4.9% at ≥4 visits. Most women reported multiple types of IPV (Fig. 1A). Verbal IPV was the most common, reported at 376 visits, followed by physical IPV (235 visits) and economic IPV (212 visits). At 53% of visits with verbal IPV, women reported 1–2 incidents since the last monthly study visit. Three to 5 incidents were reported at 31% of visits, and ≥6 incidents at 15%. At the majority of visits with physical IPV (86%), women reported 1–2 incidents since the last visit, with 13% reporting 3–5 incidents and 3% reporting ≥6 incidents (Fig. 1B). The most common consequences of IPV were change of residence, relationship loss, and income/property loss. Missed doses of study drug and missed study visits were also reported, although these were not predetermined response categories and were mentioned infrequently (Fig. 1C).

FIGURE 1.

Descriptive statistics for IPV exposure during the study. A, Type of IPV reported at each study visit in which any IPV was reported. B, The number of IPV episodes reported since the last study visit. Data were not collected on frequency of economic IPV. C, Reported consequences of IPV. Consequences marked with an asterisk (*) were explicitly listed as response options, whereas those without the asterisk were described by participants in the open-ended “other” category. Participants were only asked to describe IPV consequences during follow-up visits. Data are missing for the IPV episodes reported at enrollment.

Women who reported IPV were similar to women who reported no IPV on most demographic, relationship, and behavioral characteristics (Table 1). Baseline characteristics associated with subsequent reporting of IPV included having younger partners (mean 38.2 versus 39.4 years), having mutually disclosed HIV serodiscordant status for slightly longer (1.6 versus 1.3 years), and reporting any income (78.1% versus 67.9%). Seventy-five percent of women who reported IPV were from Uganda (versus Kenya), compared with 65.9% of women who did not report IPV in the study. At visits with IPV, women were less likely to report sexual activity with their study partners than at visits with no IPV (68.7% versus 81.1%), more likely to report unprotected sex (22.4% versus 12.3%), and more likely to have partners who reported an outside sexual partner (19.8% versus 14.8%).

Adherence to PrEP and Association With IPV

Pill count coverage was high among most women, regardless of reported IPV [mean 95.3%, standard deviation (SD) 19.8%, Table 2]; the proportion of visits with pill count coverage <80% was 7.0%. Among visits with plasma tenofovir measurements, 32.0% had concentrations <40 ng/mL.

TABLE 2.

Summary of Adherence by Measure and IPV Status

Table 3 presents crude and adjusted risk ratios (aRRs) for the association of IPV with PrEP adherence. After adjusting for age, study site, time on study, and male partner reports of outside sex partners, women were 50% more likely to have low PrEP adherence at visits with IPV in the past 3 months, compared with visits with no IPV to date in the study. This association was consistent regardless of whether adherence was measured by pill count [aRR = 1.49, 95% confidence interval (CI): 1.17 to 1.89, P = 0.001] or by plasma tenofovir (aRR = 1.51, 95% CI: 1.06 to 2.15, P = 0.02). Adherence at visits >3 months after reported IPV was similar to adherence at visits with no IPV to date in the study (aRR for pill count: 1.08, 95% CI: 0.86 to 1.36, P = 0.5, aRR for plasma tenofovir: 0.95, 95% CI: 0.73 to 1.24, P = 0.7). There was no evidence of effect modification by time on study, or by country for recent IPV; for IPV occurring in the study >3 months ago, lower adherence persisted in Kenya but not in Uganda (P interaction = 0.02) in the pill count analysis but not in the plasma tenofovir analysis.

TABLE 3.

Effect of IPV Exposure on Each PrEP Adherence Outcome: Univariate and Multivariable Results

The association between IPV in the past 3 months and low adherence was similar in women who reported sex in the past month (aRR = 1.53, 95% CI: 1.11 to 2.10, P = 0.009) and women who reported no sex in the past month (aRR = 1.44, 95% CI: 1.04 to 1.99, P = 0.03). Risk estimates did not substantially change when pill count analyses excluded participants with coverage >103%, when tenofovir analyses were restricted to the randomly sampled cohorts, or when adjusting for other potential confounding factors listed in Methods.

When different types of IPV were considered separately, effect sizes for pill count coverage were similar for recent (past 3 month) verbal IPV (aRR = 1.65, 95% CI: 1.17 to 2.33, P = 0.005) and recent economic IPV (aRR = 1.48, 95% CI: 1.14 to 1.92, P = 0.003). The effect of recent physical IPV was not statistically significant (aRR = 1.27, 95% CI: 0.89 to 1.82, P = 0.2). However, the frequency of IPV since the last study visit was higher for verbal IPV (mean 4.1 episodes, SD 6.9) than for physical IPV (mean 1.7 episodes, SD 2.1), and the risk of low adherence increased significantly with increasing frequency of recent physical IPV (aRR = 1.09 for each additional episode of IPV within the reporting period, 95% CI: 1.04 to 1.14, P < 0.001) and recent verbal IPV (aRR = 1.02 for each additional episode, 95% CI: 1.02 to 1.03, P < 0.001). Type and frequency of IPV reported in the study and >3 months ago were not associated with adherence.

IPV and HIV Incidence

There were 48 HIV seroconversions among women with no IPV to date in the study, 9 among women with IPV during the study and >3 months ago, and 2 among women with IPV in the past 3 months, resulting in HIV incidence rates of 1.2, 1.3, and 2.2 per 100 person-years, respectively. The associations between IPV and HIV incidence were not statistically significant (aHR for IPV in the past 3 months: 1.54, 95% CI: 0.37 to 6.51, P = 0.6; aHR for IPV >3 months ago: 1.26, 95% CI: 0.55 to 2.90, P = 0.6).

Participant Reports on IPV and PrEP Use

Although the in-depth interviews did not specifically ask about IPV, 7 women raised the topic when describing adherence challenges and strategies. Three patterns of how IPV interfered with adherence were evident in the transcripts (Table 4). Some women explained how violence and discord in the home made it difficult to remember to take the pills (panel A in Table 4). Others described running away during violent episodes, either because they feared for their safety or because they were chased away by their partners; they did not take their pills with them when leaving the house, so these episodes could result in missed doses (panel B in Table 4). In 2 cases, the women's partners threatened to take or throw away their pills, either as a form of punishment or because they blamed relationship discord on the pills themselves (panel C in Table 4). Some women also described ways to surmount these challenges, and maintained high adherence despite experiences of IPV. Two women reported sending their children to retrieve their pills after they had run away from the house, and another was able to replace pills her husband had thrown away by explaining her situation to the study staff (panel D in Table 4).

TABLE 4.

Excerpts From Qualitative Interviews on How IPV Impacts PrEP Adherence

DISCUSSION

Overall, adherence to PrEP was high among women in the Partners PrEP Study, regardless of the IPV history. However, women who reported IPV in the past 3 months had an increased risk of low PrEP adherence. The association did not persist for more than 3 months after the violence occurred, which suggests that, among this group of women, the effects of IPV on adherence were acute and time-limited. Qualitative findings suggested several pathways through which IPV may cause short-term adherence lapses, including stress, being forced to leave the home, or a partner trying to take pills away from the participant; some women also developed strategies to maintain high adherence during IPV episodes.

This is the first study to examine the association between IPV and PrEP adherence. IPV was associated with less frequent use of condoms and diaphragms in one prospective study[53] and with lower ART uptake, self-reported ART adherence, and viral suppression in a meta-analysis.[27] Other studies have described the importance of partner support and disclosure of product use for good adherence in PrEP and microbicide trials,[52,54-59] and the role of violence as a barrier to disclosure.[57,59] Because couples enrolled in the Partners PrEP Study together, our findings suggest that IPV impacts adherence even when women are using PrEP with their partner's knowledge and consent. It will be important for PrEP demonstration projects targeting high-risk women to collect data on this risk factor going forward.

At 16%, the period prevalence of IPV during this study was similar to that reported in another study of HIV serodiscordant couples using the same instrument,[33] but lower than national Demographic and Health Survey estimates of spousal violence in the past 12 months: 41% in Kenya and 45% in Uganda.[60,61] Our study population consisted of women in stable long-term relationships who were willing to be tested for HIV with their partners and to enroll in a couples-based prevention study. Women with these characteristics may be less likely to experience IPV than women in the general population or those participating in other PrEP trials. Several qualitative studies have noted the predominance of violence in the lives of PrEP and microbicide study participants in some geographies, such as for some women in South Africa where the majority of VOICE and FEM-PrEP participants resided.[62,63] Our estimates of the impact of IPV on PrEP adherence may be based on more moderate or infrequent IPV, and the effect may be stronger or more persistent in other populations. However, women reporting IPV in our study population reported higher risk sexual behavior, such as unprotected sex and having a partner who reported outside partners, relationship loss, change of residence, and property loss, which suggests that they experienced meaningful consequences of IPV.

Strengths of this study include a large sample size, prospective study design, and integration of quantitative and qualitative methods. Our findings were robust to different measures of PrEP adherence, adjustment for multiple potential confounding factors, and several sensitivity analyses to address misclassification, missing data, and selection bias. The association between recent IPV and PrEP adherence persisted when we restricted the analysis to women reporting sexual activity with their study partners, which suggests that IPV increases the risk of low adherence during periods in which women are at risk for HIV acquisition. Although the study was not powered to test for an association between IPV and HIV incidence, the hazard ratio point estimates are consistent with previous estimates of a 50% increase in HIV incidence associated with IPV.[21,22,33]

An important limitation to our study is that classification of IPV was based on self-report and may be underreported. Our measurement tool did not ask about sexual IPV, violence severity, history of IPV before enrollment, or specific violent acts such as hitting, slapping, or threatening. Women may not have disclosed IPV if they did not consider specific acts to be abusive or if they did not feel comfortable discussing IPV with the study staff. In addition, IPV was assessed in the context of a counseling session rather than with a standardized question. This approach may have increased disclosure of IPV, but IPV assessment may have differed between sites. We cannot distinguish whether differences in reported IPV and its effects represent true differences in the rate of IPV by site or country, differences in participant willingness to report IPV, or differences in IPV ascertainment by study interviewers. If the degree of underreporting is the same among women with low versus high PrEP adherence, this would likely underestimate the risk of low adherence associated with IPV. Although the proportion of visits with low adherence was higher when measured by plasma tenofovir levels than by pill count coverage, the risk estimates for IPV and PrEP adherence were consistent between adherence measures, increasing our confidence in the results. Although the qualitative interviews were conducted at only one study site, a review of the narrative descriptions of IPV episodes and consequences on study case report forms suggest that the mechanisms described were relevant to other sites in Uganda and to Kenya as well.

In sub-Saharan Africa, targeting PrEP to high-risk women may be a cost-efficient approach to reduce HIV incidence,[64-66] but high adherence levels are required during periods of risk. Demonstration projects are ongoing to evaluate the feasibility of this approach and to identify strategies for implementation.[67-69] Given the high prevalence of IPV in this region, and its impact on HIV risk, IPV should be considered when identifying high-risk women. In our cohort, the majority of women were able to take PrEP consistently, regardless of IPV history, but IPV in the short-term was associated with lower adherence in some subjects. Efforts to target PrEP toward women with IPV should recognize the risk of low adherence, and interventions should be evaluated to promote PrEP adherence in the context of violence. A potential intervention could integrate lessons from successful PrEP adherence programs[70] and from interventions to improve ART adherence among HIV-infected women with histories of abuse,[71] and could include motivational interviewing and problem-solving approaches to help women identify ways that IPV impacts their adherence and develop approaches to prevent violence or avoid lapses in adherence associated with IPV.[70,71] Individual or group counseling approaches should be evaluated; group counseling may involve a social support network that could increase self-efficacy for adherence.[72] Some women in our study reported strategies to maintain adherence in the face of IPV, and lessons from these examples of resilience could help in developing successful interventions. Such interventions could increase the prevention benefit of PrEP by promoting effective use in a population at high risk of HIV.