Directly Observed Antiretroviral Therapy in Substance Abusers Receiving Methadone Maintenance Therapy Does Not Cause Increased Drug Resistance

Introduction

S ince the discovery of combination antiretroviral therapy (ART), patients infected with HIV have seen remarkable improvements in morbidity and mortality. ^{1 –3} These benefits, however, are dependent on medication adherence, as poor adherence can lead to virologic failure, immune compromise, and the development of opportunistic infections. Poor adherence also allows the proliferation of viral mutations and the development of antiretroviral resistance, resulting in the loss of one or more classes of medications. Early studies of nonboosted protease inhibitor-based regimens found a nearly linear relationship between rates of adherence and virologic failure, with adherence rates less than 95% significantly associated with lower rates of viral suppression. ^{4 –6} Follow-up studies, however, have demonstrated that the relationship between adherence and subsequent resistance is far more complex, and depends on several factors, including specific medication classes. ⁷ Given the different pharmacokinetics and toxicity profiles of various antiretrovirals, resistance to each class tends to occur at a different level of adherence. ⁸ Therefore, the linear relationship between adherence and viral suppression may be too simplistic. More recent research suggests that for some antiretroviral medications, better adherence can paradoxically increase the risk of developing viral resistance. ⁹

Practitioners are often reluctant to initiate ART in HIV-infected substance users, believing that such patients are more prone to medication nonadherence and may therefore develop antiretroviral resistance. ¹⁰ Because substance users may engage in high-risk sexual and drug use behaviors, which can spread HIV, the development of drug resistance may have negative consequences for both patients and their communities. ¹¹ When adherent, however, active substance users have outcomes similar to nondrug users, ¹² and studies in clinical settings where substance users are aggressively treated with ART have not found increased resistance rates. ¹³

Because of the known difficulty in maintaining high levels of adherence with medication for chronic diseases, ^14,15 many studies have evaluated adherence-improving interventions for patients at high risk for antiretroviral nonadherence, such as substance users. Although adherence interventions are generally efficacious in improving adherence, ¹⁶ few data have been published about the impact of adherence interventions on the development of drug resistance. ¹⁷

Support for Treatment Adherence Research through Directly Observed Therapy (STAR*DOT) was a randomized controlled trial designed to determine if DOT, delivered on-site in methadone clinics, is more efficacious than self-administered ART for improving adherence and reducing HIV viral load among methadone-maintained substance users. We previously reported that antiretroviral DOT was efficacious for improving adherence and decreasing HIV viral load, ¹⁸ but how such an increase in adherence affects drug resistance is unknown. The objective of the current analysis was to explore the impact of DOT on the development of new antiretroviral resistance mutations in subjects enrolled in the STAR*DOT trial.

Materials and Methods

Results

We enrolled 77 antiretroviral-experienced participants into the STAR*DOT trial (Fig. 1), of whom 39 were randomized to DOT and 38 to TAU. Baseline characteristics are shown in Table 1. At baseline, 31 participants had a viral load >500 copies/ml. The resistance profile of these 31 participants is shown in Table 2. There were no significant differences in pre-enrollment resistance between study arms. Sixty-five participants completed the 24-week intervention; our overall retention rate was 84%.

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FIG. 1.

Flowchart of subjects included in the study analysis. GT, genotypic resistance test.

Of the 65 subjects who completed the 24-week intervention, 30 (46%) had an undetectable viral load at baseline, and were excluded from this analysis. Of the 35 subjects who had detectable HIV viral loads at baseline, 14 were undetectable at the end of the intervention, and were also excluded from the current analysis, leaving 21 participants with resistance testing performed at baseline and either week 8 or week 24. Among these, four participants had resistance testing at baseline and week 8, and 17 participants had resistance testing at baseline and week 24.

Table 3 summarizes the prescribed ART regimen, HIV viral loads, and resistance mutations for each subject who acquired mutations during the 24-week intervention period. After 24 weeks, 9 of the 21 subjects showed new drug resistance mutations: six in the TAU arm and three in the DOT arm (p = 0.27). Two of the subjects with new mutations developed the M184V mutation for lamivudine (both in the TAU arm), and both had been receiving either lamivudine or emtricitabine (004 and 006 in Table 3). One subject in the TAU arm (005), who had been receiving both stavudine and nevirapine, developed mutations associated with each medication (D67N, K70R, K219E/Q, and G190A). Two subjects developed the K103N mutation for nonnucleoside reverse transcriptase inhibitors (NNRTIs; one subject each from DOT and TAU arms), and one of these subjects (009) also had a Y181C mutation associated with NNRTI use. Of note, neither subject with new K103N mutations was receiving NNRTI-based regimens during the intervention period. Two subjects (004 and 007) had major protease mutations but these did not confer resistance to the antiretrovirals in their current regimen. Several additional minor protease mutations were seen, but the majority of these represented results of only two subjects (data not shown).

No participant changed his or her antiretroviral regimen during the 24 week intervention. The median pill count adherence rate for the seven subjects who developed new mutations was 0.76 (IQR: 0.72–0.92), compared with 0.74 (IQR: 0.63–0.79) for the 14 subjects who did not develop new mutations (p = 0.51).

Of the 21 subjects with resistance test results at two time points (baseline and either week 8 or week 24), only seven appeared to have no drug resistance mutations at baseline. This could represent infection with wild-type virus, or the presence of undetected, archived mutations. Four of these seven subjects (three TAU and one DOT) developed new mutations during the study, although one of these mutations did not correlate with the participant's ART regimen.

Overall, of these 21 subjects, five in the TAU arm developed major mutations correlating with their current ART regimen, while no subjects in the DOT arm developed any such mutations.

Discussion

Direct observation of ART is a treatment strategy that has been proposed for HIV-infected populations at high risk for medication nonadherence, such as substance users. DOT has been shown, in our trial and others, to improve adherence rates and decrease HIV viral load compared with self-administration of ART in HIV-infected substance users. ^17,18 One concern about DOT, however, is that improving rates of adherence to intermediate levels could inadvertently increase the risk of drug resistance as each antiretroviral class is thought to have a different threshold of adherence necessary to prevent resistance. The resistance mutations associated with individual drug classes (and specific medications within a class) compromise viral fitness to varying degrees and this has been shown to play a major role in the likelihood of resistance when adherence to that medication or class is imperfect. ²¹

Analysis of antiretroviral drug resistance is complicated by methodological challenges. Different drug mutations have varying levels of clinical significance and cross-resistance, making absolute counts of mutations misleading. ¹⁷ In our treatment-experienced population, 87% of subjects with a detectable baseline viral load had at least one antiretroviral resistance mutation, although only 26% of subjects had major mutations. Among subjects with a detectable baseline viral load, very few in either arm developed new mutations at the end of the 24-week intervention period, and only seven developed major resistance mutations. For five of these seven subjects, the resistance mutations at week 24 were related to their prescribed ART regimen, but for two subjects (one from each study arm), new NNRTI mutations emerged even though the subjects had been prescribed a protease inhibitor-based regimen. We hypothesize that these NNRTI mutations were most likely present at baseline but were not detected because of testing artifact. Both subjects had relatively low baseline viral loads (1034 and 692 copies/ml, respectively), which has been shown to limit detection of archived viral subpopulations. ²² Alternatively, subjects could have been superinfected with a resistant strain during the intervention, or could have received antiretrovirals from another source, such as a separate physician, a leftover supply, or another person's medication.

Two other groups have examined rates of ART resistance in the context of DOT clinical trials. ^17,23 Maru and colleagues, who also studied DOT among substance users, ¹⁷ found increased adherence among those receiving DOT, with no difference between study arms in the probability of developing new resistance mutations. Their trial compared 6 months of DOT to self-administered therapy, but targeted active substance users rather than methadone patients. Theoretically, this might have selected for a less adherent population than our study, but the proportion of subjects with detectable viral loads at baseline was similar to ours. In this trial, as in ours, randomization to the DOT arm was not associated with a greater number of drug resistance mutations. In another trial by Gross et al., ²³ DOT was evaluated in treatment-naive subjects receiving a lopinavir-based regimen. Prior or current substance abuse was not a prerequisite for study eligibility and was not reported. Of the 243 subjects enrolled in this study, 14 developed new NRTI mutations at the time of virologic failure, with no difference between treatment arms (DOT vs. self-administered).

Our analysis of drug resistance has limitations and results should be interpreted in this context. The trial was designed and powered to detect a difference in adherence between study arms, not drug resistance. Subjects were not treatment naive and were all receiving different ART regimens (with different levels of potency). Moreover, our analysis was limited to those who had amplifiable viral load at baseline. Several subjects who were undetectable at baseline experienced treatment failure with detectable drug resistance mutations at week 24, but without baseline resistance testing results; we are unable to say if these mutations were new or old. Lastly, we used conventional viral resistance testing, which is known to detect only major viral populations. Newer, ultradeep sequencing techniques may have provided more sensitive detection of archived mutations in smaller, viral subpopulations. ²⁴ Despite these limitations, and our small sample size, none of the subjects in the DOT arm developed any new major resistance mutations that were related to their antiretroviral regimen.

Two meta-analyses of trials examining directly observed ART have recently been published. ^25,26 In their analysis of DOT randomized clinical trials, Ford et al. called into question the utility of DOT, finding no improvement in outcomes across broad U.S. and international study populations, except in certain high-risk populations. ²⁵ In addition, Ford et al. included measures after DOT had ended, which may have diluted the impact of DOT. In contrast, Hart et al. included both randomized and nonrandomized studies in a second DOT meta-analysis, and found an immediate postintervention benefit to DOT. ²⁶ We believe that the results of this trial lend further support to the provision of DOT to HIV-infected substance users enrolled in methadone maintenance programs.

Our results may also have implications for treatment programs in other countries, where HIV-infected substance users are often denied care and treatment. Our data support recent calls to integrate HIV and substance abuse therapy. ²⁷ The increased medication adherence and decreased HIV viral load seen in this study were not accompanied by an increase in antiretroviral resistance mutations, and DOT may have protected against the development of resistance. Larger studies with greater power to detect differences in longitudinal acquisition of resistance will be needed to confirm our findings.