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1398 T. FIELD ET AL. levels (averaging decreases 31%). In studies in which the activating neurotrans-mitters (serotonin and dopamine) were assayed in urine, an
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Effects of Depression and Selective Serotonin Reuptake Inhibitor Use on Adherence to Highly Active Antiretroviral Therapy and on Clinical Outcomes in HIV-Infected Patients Michael Alan Horberg, MD, MAS, FACP,* Michael Jonah Silverberg, PhD, MPH,* Leo Bartemeier Hurley, MPH,* William James Towner, MD,† Daniel Benjamin Klein, MD,‡ Susan Bersoff-Matcha, MD,§ Winkler Gabriel Weinberg, MD,k Diana Antoniskis, MD,¶ Miguel Mogyoros, MD,# Wayne Thomas Dodge, MD,** Robert Dobrinich, MD,†† Charles Price Quesenberry, PhD,* and Drew Anthony Kovach, MD‡‡
Objectives: To determine the impact of depression on highly active antiretroviral therapy (HAART) adherence and clinical measures and investigate if selective serotonin reuptake inhibitors (SSRIs) improve these measures.
Design: Retrospective cohort study. Methods: In 2 large health maintenance organizations, we measured the effects of depression (with and without SSRI use) on adherence and changes in viral and immunologic control among HIV-infected patients starting a new HAART regimen. HAART adherence, HIV RNA levels, and changes in CD4 T-cell counts through 12 months were measured.
Results: A total of 3359 patients were evaluated; 42% had a depression diagnosis, and 15% used SSRIs during HAART. Depression without SSRI use was associated with significantly decreased odds of achieving $90% adherence to HAART (odds ratio [OR] = 0.81, 95% confidence interval [CI]: 0.70 to 0.98; P = 0.03). Depression was associated with significantly lower odds of an HIV RNA level ,500 copies/mL (OR = 0.77, 95% CI: 0.62 to 0.95; P = 0.02).
Received for publication June 4, 2007; accepted November 1, 2007. From *HIV Research, Kaiser Permanente, Oakland, CA; †HIV Medicine, Kaiser Permanente, Los Angeles, CA; ‡HIV Infectious Disease, Kaiser Permanente, Hayward, CA; §Infectious Disease, Kaiser Permanente, Washington, DC; kHIV Infectious Disease, Kaiser Permanente, Atlanta, GA; {Immune Deficiency Clinic, Kaiser Permanente, Portland, OR; #HIV Infectious Disease, Kaiser Permanente, Denver, CO; **HIV Medicine, Group Health Cooperative, Seattle, WA; ††HIV Infectious Disease, Kaiser Permanente, Cleveland, OH; and the ‡‡HIV Medicine, Kaiser Permanente, Honolulu, HI. Funded by the Garfield Memorial Research Fund of Kaiser Permanente. The funders had no role in the data collection, analysis, or manuscript preparation. Presented in part at the XVI International AIDS Conference, Toronto, Ontario, Canada, August 13–18, 2006. Correspondence to: Michael Horberg, MD, MAS, HIV/AIDS Policy, Quality Improvement, and Research HIV Initiative of Kaiser Permanente and The Permanente Federation, 2000 Broadway, 5th Floor, Oakland, CA 94612 (e-mail: [email protected]). Copyright Ó 2007 by Lippincott Williams & Wilkins
Depressed patients compliant with SSRI medication (.80% adherence to SSRI) had HAART adherence and viral control statistically similar to nondepressed HIV-infected patients taking HAART. Comparing depressed with nondepressed HIV-infected patients, CD4 T-cell responses were statistically similar; among depressed patients, those compliant with SSRI had statistically greater increases in CD4 cell responses.
Conclusions: Depression significantly worsens HAART adherence and HIV viral control. Compliant SSRI use is associated with improved HIV adherence and laboratory parameters. Key Words: adherence, combination antiretroviral therapy, depression, HIV/AIDS, selective serotonin reuptake inhibitors (J Acquir Immune Defic Syndr 2007;00:000–000)
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ess than optimal adherence was found to be the most common cause for virologic failure in the early treatment phases of HIV infection1–5 and in analysis of causes of virologic failure.6 Diseases affecting cognitive function can have a negative impact on adherence.7–9 As such, depression has been considered a risk factor for nonadherence to highly active antiretroviral therapy (HAART).7,10–17 Previous studies, however, were based on smaller study populations or selfreported adherence and did not quantify the relative impact of depression on adherence or clinical outcome measures. Further, treating depression as a means of improving adherence has not been well studied. The presence of comorbidities (including depression) can also play a role in adherence to the extent that they require other medications that may interact pharmacologically with the HAART medicines.2,18–21 Of further concern, depression in HIV infection has been shown to be associated with earlier mortality, but the effect of depression on CD4 T-cell counts or progression to clinical AIDS is debated.15 In clinical practice, selective serotonin reuptake inhibitors (SSRIs) have become widely used in HIV-infected depressed patients because of their efficacy and tolerability.22 Although several studies demonstrated that SSRI therapy was
beneficial in reducing depressive symptoms in patients with HIV disease,23–26 the role of SSRIs in improving adherence to HAART regimens among HIV-infected patients remains unclear. To our knowledge, only 1 prior study investigated the association of SSRI use and HAART adherence. Yun et al27 showed a benefit of antidepressive therapy on HAART adherence, but it was not exclusive to SSRI medications and it was early in the HAART treatment era. Only 1 other study investigated clinical outcomes with SSRI use (fluoxetine), but it failed to find improvement in CD4 T-cell counts with this medication.24 Depression is a significant comorbidity with a prevalence .30% in some studies in HIV-infected patients.28,29 It is conceivable that SSRI use, which is commonly prescribed in this population, might improve HAART adherence by improving mood and treating any underlying depression and/or anxiety. Thus, we studied the association of depression and SSRI use with adherence to HAART and with HIV-related clinical outcomes, specifically HIV viral control and CD4 Tcell count, among HIV-infected patients in 2 integrated health maintenance organizations (HMOs) in the United States.
METHODS Study Design We performed a retrospective cohort analysis of HIVinfected patients in 8 states (California, Colorado, Georgia, Maryland, Ohio, Oregon, Virginia, and Washington) and the District of Columbia. All patients were enrolled in the Kaiser Permanente and Group Health Cooperative HMOs and were treated with a new HAART regimen in the period January 2000 through December 2003. We defined a HAART regimen as $3 antiretroviral drugs used in combination (excluding ritonavir at doses #400 mg/d). We examined the impact of an outpatient diagnosis of depression on adherence to HAART using previously validated pharmacy refill adherence measures.30–33 We also evaluated the effect of depression on HIV RNA levels and CD4 T-cell counts over the 12 months after initiation of the new HAART regimen. Finally, we studied whether SSRI use in HIV-infected patients diagnosed with depression altered the association of depression with HAART adherence and with the 2 clinical outcome measures.
Subjects Kaiser Permanente and Group Health Cooperative are integrated HMOs serving various geographic populations in the United States. Patients in these systems receive multidisciplinary health care, including HIV specialty care. The Kaiser Permanente and Group Health Cooperative HIV-infected populations are representative of the states they serve. Recent data from Kaiser Permanente indicated that, overall, members were similar to the general population with regard to age, gender, and race/ethnicity, with only slight underrepresentation of those in lower and higher income and education categories.34 However, HIV-infected patients more accurately reflect the general populations, because patients with low incomes are eligible for state Medical Health Maintenance Organization programs, and many such individuals obtain Kaiser Permanente and Group Health Cooperative mem-
2
bership. Current Kaiser Permanente Northern California HIVinfected patients, for example, are largely male (89.3%), men who have sex with men (MSM; 77.9%), and white (62.7%); these statistics are remarkably similar to demographics of reported AIDS-infected patients in California, who were also largely male (91.1%), MSM (76.9%), and white (56.8%).35 Electronic databases in all Kaiser Permanente and Group Health Cooperative regions capture a variety of data, including patient demographics, hospitalization and outpatient visit diagnoses, laboratory results, and pharmacy dispenses. Appropriate databases and disease registries were queried to identify eligible patients. Subjects were HIV-infected patients older than 17 years of age who initiated a new HAART regimen (initial HAART or switch to a new HAART regimen) in the period January 1, 2000 through December 31, 2003. For inclusion in the analysis, patients also were required to have at least 12 months of membership before initiation of the new HAART regimen, to receive their laboratory testing and medications through the health plan’s laboratories or pharmacies, and to have an initial HIV RNA load .500 copies/mL. Patients were considered depressed if the patient also had a coded outpatient or inpatient depression diagnosis based on clinical evaluation of the patient. In the 2 HMOs, the diagnosis of depression was determined by board-certified internal medicine or family practice specialists, infectious disease specialists, or psychiatry consultations. For this analysis, a depression diagnosis was defined as having at least 1 outpatient visit with a coded clinical diagnosis of depression, major depression, or dysthymia. We could not ascertain severity of depression from electronic records.
Measurements We identified SSRI use from administrative pharmacy databases and defined SSRI use as the filling of at least a 2 months’ supply of any of the following agents: citalopram, escitalopram, fluoxetine, paroxetine, and sertraline. We assumed that SSRI medications were prescribed for the depression diagnosis, which was concurrently or previously recorded. We obtained date of birth (to calculate age at time of the new HAART regimen) and gender and recorded geographic region. We retrieved baseline HIV RNA levels (measured as copies/mL and log10 copies/mL) and CD4 T-cell counts (measured as cells/mL) taken at the closest time before the initiation of the new HAART regimen and all CD4 T-cell counts and HIV RNA levels measured in the 12 months after initiation of the new HAART regimen. We assigned plasma HIV RNA level measures during follow-up that were below the limit of quantification of the assay used as 1 unit less than the lowest measurable quantity. We obtained pharmacy dispensing and refill data for assigning SSRI therapy status and adherence to SSRI medication. Pharmacy records also provided details of the specific antiretrovirals used, including regimen composition and other medications prescribed, date of first antiretroviral prescription fill, and all refill data for these patients during study follow-up. Adherence to the HAART regimen over the 12-month observation period was calculated using established methods developed for administrative pharmacy databases. These methods q 2007 Lippincott Williams & Wilkins
account for all the component medicines of an individual patient’s HAART regimen.36–38 This measure of adherence is computed across all antiretroviral medications as the number of doses in an interval bounded by the first and last fill dates of a drug (at least 2 fills required per drug) for which the patient has the drug in possession (based on quantity supplied and dosing in the interval between fills) as a percentage of total intended doses in the span between the first and last fills. Use of pharmacy records to ascertain HAART adherence has been validated in previous studies at other institutions and at Kaiser Permanente.30–33
Statistical Methods We defined different groups of patients starting a new HAART regimen for purposes of analysis. A first group included patients with a diagnosis of depression; these patients constituted the depression group. We split these patients for further analysis between patients having depression but no evidence of SSRI use, patients having depression and evidence of greater than 2 months of SSRI medication use irrespective of SSRI adherence, and a third group having depression with evidence of greater than 2 months of SSRI medication use with .80% adherence to the SSRI medication. We used 80% as the cutoff for adherence to SSRI medications based on previous studies and National Committee on Quality Assurance recommendations.39,40 A final group had no depression and no evidence of SSRI use; these patients served as the control group for all analyses. We also identified a group of patients with depression who had 12 months of HAART and no SSRI use and then a subsequent 12 months of HAART but with concomitant SSRI use. This group provided an opportunity for before and after comparison of SSRI use on outcomes of interest. Our primary research questions were to determine to what extent depression affects HAART adherence and HIV outcome measures and to determine if SSRI use can modify that effect. The primary predictor of interest was the presence of depression. The other major predictor of interest was the use of SSRI medications and, specifically, if patients were .80% adherent to SSRI medications (dichotomous). The main outcome measures were adherence to a HAART regimen over a 12-month observation period (measured as a continuous measure and as a dichotomous outcome of achieving/not achieving at least 90% adherence to HAART), change in HIV RNA levels over the 12-month observation period (measured as a continuous measure and as a dichotomous outcome of achieving ,500 copies/mL [indication of maximal HIV RNA control]), and change in CD4 T-cell count over the 12-month observation period. We chose 500 copies/mL as the plasma HIV RNA odds cutoff because assays before 2001 used this as the lower limit of quantification. We analyzed adherence as a continuous measure using longitudinal linear regression with clustering by geographic region (to account for variability between health care regions and HMOs) with random effects modeling with maximal likelihood estimation. We analyzed odds of achieving at least 90% adherence to HAART using conditional logistic regression with clustering by geographic region. q 2007 Lippincott Williams & Wilkins
Depression, SSRI Use, and HIV Outcome Measures
We used linear mixed models longitudinally to examine changes over time in CD4 T-cell counts and HIV RNA levels with random intercepts and slopes. A 2-piece segmented linear model was used to allow for changing CD4 cell or HIV RNA slopes over time, as done in previous studies,31,33,41 with time segments from 0 to 6 months and from 6 to 24 months. For these analyses, we clustered by patient and time. We used conditional logistic regression for the outcome of achieving ,500 copies/mL with clustering by geographic region. Other predictive variables included in the adjusted models were gender, age at start of the regimen, antiretroviralnaive status (defined as no documented prior history of antiretroviral use), regimen type (nonnucleoside reverse transcriptase inhibitor [NNRTI] or protease inhibitor [PI] based, nucleoside reverse transcriptase inhibitor [NRTI] only, or PI plus NNRTI mixed), baseline CD4 T-cell count (for HIV RNA analyses), and year that the regimen began (to account for temporal trends). All predictor variables were included in the final models. Results were stratified by use or nonuse of SSRI medications and if there was .80% adherence to SSRI medication. No potential interactions achieved a statistical significance of P , 0.20 and are not reported. We also performed all the aforementioned analyses on the patients eligible for the before and after comparison of SSRIs but, here, with clustering by the patient as a fixed effect with robust standard errors. STATA v.9.2SE (Stata Corporation, College Station, TX) was used for all analyses, employing the commands xtreg, xtmixed, and xtlogit. We obtained approval from all Kaiser Permanente regional and Group Health Cooperative Institutional Review Boards. Consistent with other HIV-related retrospective cohort studies,31,33 the Institutional Review Boards waived the requirement for informed consent before the start of the study for all patients.
RESULTS We identified 13,874 HIV-infected patients with active membership during the study period. A total of 7596 patients never had a diagnosis of depression or evidence of SSRI use. Of these, 1961 had a new HAART regimen in the study period and constituted the control group. We identified 1398 patients with depression, of whom 508 patients had depression and had evidence of greater than 2 months of SSRI medication use. Forty-two percent of the study population (3359 subjects) had depression, and 15% of the entire cohort was prescribed SSRIs. Thirty-six percent of the patients with depression were prescribed an SSRI medication. Patient characteristics at the start of the new HAART regimen are shown in Table 1. The groups were heterogeneous with respect to age and CD4 T-cell counts at the start of this HAART regimen but were similar for gender, HIV RNA levels, and HAART regimen type. Absolute differences in HIV RNA levels and CD4 T-cell counts were small and not likely clinically significant. The mean rate of adherence to HAART over the 12month observation period for all patients analyzed was 80.9% (95% confidence interval [CI]: 76.5 to 85.3). The nondepressed patients had an unadjusted mean adherence rate of
Sample size Gender, male Regimen type, NNRTI based PI based NRTI only PI+NNRTI mixed Antiretroviral naive at HAART regimen initiation Age at start of study period, y (median, IQR) Viral load log10 copies/mL at start of regimen (median, IQR) CD4 T-cell count (cells/mL) at start of regimen (median, IQR)
Coded Depression Diagnosis With SSRI Use 508 (15.1%) 436 175 203 22 65
294
889
271
40.9, 34 to 47
40.5, 25 to 47
42.0, 36 to 48
4.63, 3.90 to 5.16
4.60, 4.07 to 5.21
3.90, 3.90 to 4.78
3.90, 3.39 to 4.70
245, 100 to 401
226, 79 to 384
261, 125 to 420
264, 119 to 432
40, 35 to 47
82.6% (95% CI: 77.6 to 87.6). Among the patients prescribed SSRI medications, mean adherence to an SSRI over 12 months was 76.9% (95% CI: 24.1 to 100) and 57.9% had .80.0% adherence to SSRIs. Depressed patients not using an SSRI medication had a significantly lower HAART adherence rate than the control group (Table 2). Rates of HAART adherence, measured as a continuous variable, among depressed patients treated with SSRIs did not differ significantly from HAART adherence rates in depressed patients not treated with SSRIs. Depressed patients taking SSRI medications who were adherent to their SSRI medication had HAART adherence values statistically superior to those of nondepressed patients (P , 0.001) and statistically better HAART adherence than depressed patients not taking SSRI medications (P = 0.001). Depressed patients without SSRI exposure had significantly lower odds of achieving at least 90% HAART adherence (P = 0.03, adjusted). Depressed patients prescribed SSRIs were statistically as likely to achieve at least 90% adherence (adjusted analysis) as were nondepressed comparison group patients. These results improved further if patients were adherent
to their SSRI medication and became statistically superior to those of depressed patients not taking SSRIs (P = 0.01). Overall, the mean decline in HIV RNA level over 12 months was 1.82 log10 copies/mL (95% CI: 21.94 to 21.17; Table 3). The control group had a mean HIV RNA level decrease of 1.97 log10 copies/mL. Seventy percent of the entire cohort and 85% of the nondepressed patients achieved an HIV RNA level ,500 copies/mL by 12 months. The depressed groups of patients (with or without SSRI use) had fewer patients achieving an HIV RNA level ,500 copies/mL by 12 months than the control group (P , 0.001). Odds of achieving an HIV RNA level ,500 copies/mL by 12 months were significantly less among depressed patients without SSRI use compared with controls (P = 0.02). This negative association persisted even if HAART adherence was considered (adjusted OR = 0.88, 95% CI: 0.69 to 0.99; P = 0.05). The depressed patients with SSRI use had statistically similar odds of achieving an HIV RNA level ,500 copies/mL compared with control patients, however, especially if they were adherent to their SSRI medication. We found similar differences when
P Comparing Patients With Depression Without SSRI With Patients Adherent to SSRI
Depression Diagnosis Without SSRI Use
Depression Diagnosis With SSRI Use*
Depression Diagnosis With SSRI Use and SSRI Adherence .80%†
79.2% (74.5 to 98.7; ,0.001) 22.6% (24.6 to 20.6; 0.01)
81.4% (76.4 to 86.5; ,0.001) 22.1% (24.6 to +0.4; 0.10)
84.7% (79.4 to 90.0; ,0.001) +1.6% (21.4 to +4.6; 0.29)
0.001 0.01
0.88 (0.71 to 1.09; 0.25) 0.91 (0.72 to 1.15; 0.41)
1.07 (0.82 to 1.39; 0.60) 1.13 (0.86 to 1.49; 0.39)
0.01 0.01
0.72 (0.61 to 0.85; ,0.001) 0.81 (0.70 to 0.98; 0.03)
All patients, unadjusted: 80.9% (76.5 to 85.3). Control group adherence at 12 months, unadjusted: 82.6% (78.1 to 87.1). *Adherence to SSRI medication among patients prescribed SSRIs: 76.9% (24.1 to 100). †57.9% of patients prescribed SSRI medication had .80.0% adherence to SSRI medication over time period. ‡Continuous outcomes analyzed by longitudinal linear regression with random effects; dichotomous outcomes analyzed by conditional logistic regression, with clustering by where patient received care. §Adjusted for age, gender, antiretroviral-naive status, HAART regimen type, and temporal trend.
TABLE 3. Differences in Viral and Immunologic Control
Outcome*
Depression Diagnosis Without SSRI Use
Depression Diagnosis With SSRI Use
Depression Diagnosis With SSRI Use and SSRI Adherence .80%
Change in HIV RNA log10 copies/mL at 12 mo: continuous outcome† Unadjusted +0.24 (+0.11 to +0.36; ,0.001) +0.11 (20.17 to +0.38; 0.75) 0.00 (20.14 to +0.14; 0.98) Adjusted‡ +0.08 (20.02 to +0.17; 0.10) 20.06 (20.21 to +0.09; 0.43) 20.05 (20.20 to +0.11; 0.54) Percent achieving HIV RNA level ,500 copies/mL by 12 mo 69.9% 65.0% 65.0% Odds of HIV RNA level at 12 mo ,500 copies/mL Unadjusted 0.51 (0.42 to 0.61; ,0.001) 0.60 (0.48 to 0.75; ,0.001) 0.69 (0.53 to 0.89; 0.005) Adjusted§ 0.77 (0.62 to 0.95; 0.02) 0.84 (0.65 to 1.09, 0.19) 0.95 (0.71 to 1.28; 0.76) Change in CD4 T-cell count (cells/mL) at 12 mo: continuous outcome Unadjusted 29 (234 to +16; 0.47) 227 (247 to 27; 0.009) 224 (246 to 23; 0.03) Adjusted‡ 219 (245 to +8; 0.17) +9 (213 to +32; 0.41) +19 (24 to +43; 0.10)
P Comparing Patients With Depression Without SSRI With Patients Adherent to SSRI
0.001 0.16
0.05 0.05
0.27 0.01
*Continuous outcome analyzed by mixed models linear regression; dichotomous outcome analyzed by conditional logistic regression. †Compared with control group: no coded depression diagnosis and no SSRI use. ‡Adjusted for age, gender, antiretroviral status, HAART regimen type, baseline CD4 T-cell count, and temporal trend, with clustering by patient and time. §Adjusted for age, gender, antiretroviral-naive status, HAART regimen type, baseline CD4 T-cell count, and temporal trend, with clustering by where patient received care. All patients change in HIV RNA level (log10 copies/mL) at 12 months, unadjusted: 21.82 (21.94 to 21.71); change in CD4 T-cell count (cells/mL) at 12 months, unadjusted: +140 (+129 to 151). Control group change in HIV RNA level (log10 copies/mL) at 12 months, unadjusted: 21.97 (22.10 to 21.84); change in CD4 T-cell count (cells/mL) at 12 months, unadjusted: +152 (+147 to +157); 84.8% achieved HIV RNA level ,500 copies/mL by 12 months.
comparing relative changes in HIV RNA levels over the 12-month period. CD4 T-cell count changes over 12 months (see Table 3) were robust overall, with a mean increase of 140 cells/mL (95% CI: +129 to +151) in all patients; the nondepressed group had a mean increase of 152 cells/mL over 12 months. The depressed patients not on SSRIs had no statistically or clinically significant change in CD4 T-cell responses compared with control patients, but the patients who were adherent to their SSRI medication did have a greater CD4 T-cell count rise over 12 months (+19 cells/mL adjusted; P = 0.10) as compared with controls and a statistically significantly greater rise in CD4 T cells compared with depressed patients without SSRI use (P = 0.01). In a separate analysis, we identified 428 patients who had been treated with a particular HAART regimen and then started a new HAART regimen and were given SSRI medication for the first time with this subsequent HAART regimen. In an adjusted analysis comparing the 12 months with SSRI use with the 12 months of HAART without SSRI use, we found no significant difference in adherence (+0.5%, 95% CI: 22.4 to +3.4; P = 0.75), odds of $90% adherence (OR = 0.72, 95% CI: 0.43 to 1.20; P = 0.21), odds of achieving an HIV RNA level ,500 copies/mL (OR = 1.11, 95% CI: 0.65 to 1.88; P = 0.70), change in HIV RNA log10 copies/mL (+0.11 log10 copies/mL, 95% CI: 20.24 to +0.46; P = 0.54), or change in CD4 T-cell count (+16 cells/mL, 95% CI: 228 to +60; P = 0.48). q 2007 Lippincott Williams & Wilkins
DISCUSSION This study’s significance is related to its large sample size, ability to quantify the impact of depression on HAART adherence and HIV-related laboratory parameters, and ability to study the association of SSRI use and adherence to SSRI medications on these same outcome measures. Few previous studies have addressed the significant issue of the association of depression on HAART adherence in patients with this comorbidity. We demonstrate that a diagnosis of depression is associated with significantly reduced adherence to HAART regimens. Further, a diagnosis of depression was associated with significantly decreased odds of achieving HIV RNA levels ,500 copies/mL by 12 months. Depressed patients who took SSRI medications and were adherent to their SSRI medications, however, had results similar to nondepressed patients. Although a diagnosis of depression did not have a significant impact on CD4 T-cell count changes over 12 months, depressed patients adherent to their SSRI medication were observed to have significantly greater increases in CD4 T-cell counts than depressed patients not taking SSRI medications and nearly statistically significant greater CD4 T-cell increases than nondepressed patients. Adherence to HAART is critical for positive clinical outcomes in HIV disease.2 Previous studies have suggested that depression has a negative impact on adherence in HIV disease,7 but no study has clearly demonstrated this negative association with HAART in the modern HIV treatment era. We
show that depression does decrease HAART adherence in the clinical setting. Improved adherence as a result of SSRI use did lead to significant improvement in HIV RNA levels or CD4 Tcell counts, abating much of the negative impact of depression in these patients. Of note, however, depressed patients who were on a particular HAART regimen and then started another HAART regimen along with SSRI medication had no improvement in adherence outcomes. It is possible, however, that the patients more likely to be adherent to medications in general were the more compliant patients to their SSRI medication and also to their HAART regimen, explaining the apparent positive association of SSRI and HAART adherence. The probability of maximal HIV viral control in HAARTtreated HIV-infected patients was lower among patients with depression. Inadequate adherence to HAART alone could account for this, but depression has been associated with poorer clinical progression independent of other factors.10,42 If depression and poorer viral control were attributable solely to poor HAART adherence, this effect should be fully ameliorated with greater HAART adherence. This was not the case, however, implying that depression itself may affect viral control. Viral control was improved among patients prescribed SSRI medications, even more so if SSRI adherence is considered. This negative association between depression and HIV RNA levels has been described previously.10,11 Depression did not significantly affect CD4 T-cell counts in our study; this has been previously described but mainly in the pre-HAART era.15 SSRI use was associated with greater rises in CD4 T-cell counts among depressed patients compared with depressed patients not taking SSRI medications. These results are particularly important, because depression has been associated with earlier mortality in HIV-infected patients.15 Although, in the pre-HAART era, Rabkin et al24 found that fluoxetine use in HIV-infected depressed patients did not improve CD4 T-cell counts; our results indicated that SSRI use may help to improve CD4 T-cell counts. Our results have clinical implications. Because depression is negatively associated with HAART adherence and with clinical outcome measures for these patients,10,43 screening for depression is essential.44,45 Patients who are found to be depressed should be offered therapy, because compliant SSRI medication use was associated with improved HAART adherence and HIV laboratory parameters. Clinical trials investigating which SSRI medications would be most effective for this purpose are needed, because our study was not powered to analyze the effect of individual SSRIs on HIV clinical outcomes. We could not find previous trials that have studied specific agents for improving HAART adherence in depressed patients in settings similar to those of our patients. There are some limitations with our study. Because we used electronic databases only, we cannot guarantee that none of the control patients had clinical depression. This potential misclassification is likely nondifferential, however, and thus resulted in conservative estimates for the association of depression and the outcome measures. Also, it is possible that the degree of depression among patients was not uniform across our various groups of depressed patients, resulting in residual confounding. Standardized depression scales for assessment of severity of depression have been infrequently used in the
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primary care setting; however, a previous study indicated that prescription of antidepressants in the primary care setting is an indicator of more severe depression.46 Thus, it is conceivable the depressed patients on SSRI medications in our study were the more severely depressed patients. We did not measure different potency and dosing of individual antidepressants, which certainly could have an impact on their effect on an individual patient. Also, our pharmacy databases do not record over-the-counter medications or supplements, which also could affect depression in our patients. Finally, we do not uniformly record illicit substance use, which could affect our results. In conclusion, depression negatively affects adherence and clinical parameters among HIV-infected patients taking HAART, including the odds of achieving at least 90% adherence over 12 months and achieving an HIV RNA level ,500 copies/mL by 12 months. We found that improved SSRI adherence is associated with improved HAART adherence, leading to improved HIV RNA levels and CD4 T-cell counts approaching or even exceeding results seen with nondepressed HIV-infected patients. SSRI use is likely beneficial in depressed HIV-infected patients if they can be compliant with their SSRI medication.
ACKNOWLEDGMENTS The authors thank Enid Hunkeler for her study design support and the programmers/analysts (Weiming Hu, Beth Tang, Wendy Dahar, Debbie Conley, Robert Diseker, Susan Shetterly, and Howard Rosenfeld) for compiling the data. REFERENCES 1. Descamps D, Flandre P, Calvez V, et al. Mechanisms of virologic failure in previously untreated HIV-infected patients from a trial of inductionmaintenance therapy. Trilege (Agence Nationale de Recherches sur le SIDA 072) Study Team. JAMA. 2000;283:205–211. 2. Ammassari A, Trotta MP, Murri R, et al. Correlates and predictors of adherence to highly active antiretroviral therapy: overview of published literature. J Acquir Immune Defic Syndr. 2002;31(Suppl 3):S123–S127. 3. Trotta MP, Ammassari A, Melzi S, et al. Treatment-related factors and highly active antiretroviral therapy adherence. J Acquir Immune Defic Syndr. 2002;31(Suppl 3):S128–S131. 4. Bangsberg DR. Less than 95% adherence to nonnucleoside reversetranscriptase inhibitor therapy can lead to viral suppression. Clin Infect Dis. 2006;43:939–941. 5. Paterson DL, Swindells S, Mohr J, et al. Adherence to protease inhibitor therapy and outcomes in patients with HIV infection. Ann Intern Med. 2000;133:21–30. 6. Knobel H, Guelar A, Carmona A, et al. Virologic outcome and predictors of virologic failure of highly active antiretroviral therapy containing protease inhibitors. AIDS Patient Care STDS. 2001;15:193–199. 7. Ammassari A, Antinori A, Aloisi MS, et al. Depressive symptoms, neurocognitive impairment, and adherence to highly active antiretroviral therapy among HIV-infected persons. Psychosomatics. 2004;45:394–402. 8. Hartzell JD, Spooner K, Howard R, et al. Race and mental health diagnosis are risk factors for highly active antiretroviral therapy failure in a military cohort despite equal access to care. J Acquir Immune Defic Syndr. 2007;44:411–416. 9. Hinkin CH, Castellon SA, Durvasula RS, et al. Medication adherence among HIV+ adults: effects of cognitive dysfunction and regimen complexity. Neurology. 2002;59:1944–1950. 10. Bouhnik AD, Preau M, Vincent E, et al. Depression and clinical progression in HIV-infected drug users treated with highly active antiretroviral therapy. Antivir Ther. 2005;10:53–61.
11. Cook JA, Grey D, Burke J, et al. Depressive symptoms and AIDS-related mortality among a multisite cohort of HIV-positive women. Am J Public Health. 2004;94:1133–1140. 12. Goldie SJ, Paltiel AD, Weinstein MC, et al. Projecting the costeffectiveness of adherence interventions in persons with human immunodeficiency virus infection. Am J Med. 2003;115:632–641. 13. Gordillo V, del Amo J, Soriano V, et al. Sociodemographic and psychological variables influencing adherence to antiretroviral therapy. AIDS. 1999;13:1763–1769. 14. Cruess DG, Petitto JM, Leserman J, et al. Depression and HIV infection: impact on immune function and disease progression. CNS Spectr. 2003;8: 52–58. 15. Leserman J. HIV disease progression: depression, stress, and possible mechanisms. Biol Psychiatry. 2003;54:295–306. 16. Mugavero M, Ostermann J, Whetten K, et al. Barriers to antiretroviral adherence: the importance of depression, abuse, and other traumatic events. AIDS Patient Care STDS. 2006;20:418–428. 17. Tucker JS, Burnam MA, Sherbourne CD, et al. Substance use and mental health correlates of nonadherence to antiretroviral medications in a sample of patients with human immunodeficiency virus infection. Am J Med. 2003;114:573–580. 18. Arras JD. Noncompliance in AIDS research. Hastings Cent Rep. 1990;20: 24–32. 19. Catz SL, Kelly JA, Bogart LM, et al. Patterns, correlates, and barriers to medication adherence among persons prescribed new treatments for HIV disease. Health Psychol. 2000;19:124–133. 20. DeFino M, Clark J, Mogyoros D, et al. Predictors of virologic success in patients completing a structured antiretroviral adherence program. J Assoc Nurses AIDS Care. 2004;15:60–67. 21. Turner BJ. Adherence to antiretroviral therapy by human immunodeficiency virus-infected patients. J Infect Dis. 2002;185(Suppl 2):S143– S151. 22. Robinson MJ, Qaqish RB. Practical psychopharmacology in HIV-1 and acquired immunodeficiency syndrome. Psychiatr Clin North Am. 2002; 25:149–175. 23. Elliott AJ, Uldall KK, Bergam K, et al. Randomized, placebo-controlled trial of paroxetine versus imipramine in depressed HIV-positive outpatients. Am J Psychiatry. 1998;155:367–372. 24. Rabkin JG, Wagner GJ, Rabkin R. Fluoxetine treatment for depression in patients with HIV and AIDS: a randomized, placebo-controlled trial. Am J Psychiatry. 1999;156:101–107. 25. Schwartz JA, McDaniel JS. Double-blind comparison of fluoxetine and desipramine in the treatment of depressed women with advanced HIV disease: a pilot study. Depress Anxiety. 1999;9:70–74. 26. Ferrando SJ, Goldman JD, Charness WE. Selective serotonin reuptake inhibitor treatment of depression in symptomatic HIV infection and AIDS. Improvements in affective and somatic symptoms. Gen Hosp Psychiatry. 1997;19:89–97. 27. Yun LW, Maravi M, Kobayashi JS, et al. Antidepressant treatment improves adherence to antiretroviral therapy among depressed HIVinfected patients. J Acquir Immune Defic Syndr. 2005;38:432–438. 28. Israelski DM, Prentiss DE, Lubega S, et al. Psychiatric co-morbidity in vulnerable populations receiving primary care for HIV/AIDS. AIDS Care. 2007;19:220–225.
q 2007 Lippincott Williams & Wilkins
Depression, SSRI Use, and HIV Outcome Measures
29. Bing EG, Burnam MA, Longshore D, et al. Psychiatric disorders and drug use among human immunodeficiency virus-infected adults in the United States. Arch Gen Psychiatry. 2001;58:721–728. 30. Fairley CK, Permana A, Read TR. Long-term utility of measuring adherence by self-report compared with pharmacy record in a routine clinic setting. HIV Med. 2005;6:366–369. 31. Horberg MA, Hurley LB, Silverberg MJ, et al. Effect of clinical pharmacists on utilization of and clinical response to antiretroviral therapy. J Acquir Immune Defic Syndr. 2007;44:531–539. 32. Seguy N, Diaz T, Campos DP, et al. Evaluation of the consistency of refills for antiretroviral medications in two hospitals in the state of Rio de Janeiro, Brazil. AIDS Care. 2007;19:617–625. 33. Silverberg MJ, Leyden W, Horberg MA, et al. Older age and the response to and tolerability of antiretroviral therapy. Arch Intern Med. 2007;167: 684–691. 34. Krieger N. Overcoming the absence of socioeconomic data in medical records: validation and application of a census-based methodology. Am J Public Health. 1992;82:703–710. 35. California Department of Health Services Office of AIDS. California AIDS Surveillance Report, Cumulative Cases as of December 31, 2005. Sacramento, CA, 2006. 36. Sikka R, Xia F, Aubert RE. Estimating medication persistency using administrative claims data. Am J Manag Care. 2005;11:449–457. 37. Steiner JF, Koepsell TD, Fihn SD, et al. A general method of compliance assessment using centralized pharmacy records. Description and validation. Med Care. 1988;26:814–823. 38. Kitahata MM, Reed SD, Dillingham PW, et al. Pharmacy-based assessment of adherence to HAART predicts virologic and immunologic treatment response and clinical progression to AIDS and death. Int J STD AIDS. 2004;15:803–810. 39. Cantrell CR, Eaddy MT, Shah MB, et al. Methods for evaluating patient adherence to antidepressant therapy: a real-world comparison of adherence and economic outcomes. Med Care. 2006;44:300–303. 40. Keene MS, Eaddy MT, Mauch RP, et al. Differences in compliance patterns across the selective serotonin reuptake inhibitors (SSRIs). Curr Med Res Opin. 2005;21:1651–1658. 41. Hunt PW, Deeks SG, Rodriguez B, et al. Continued CD4 cell count increases in HIV-infected adults experiencing 4 years of viral suppression on antiretroviral therapy. AIDS. 2003;17:1907–1915. 42. Lima VD, Geller J, Bangsberg DR, et al. The effect of adherence on the association between depressive symptoms and mortality among HIV-infected individuals first initiating HAART. AIDS. 2007;21:1175–1183. 43. Singh N, Berman SM, Swindells S, et al. Adherence of human immunodeficiency virus-infected patients to antiretroviral therapy. Clin Infect Dis. 1999;29:824–830. 44. Simoni JM, Frick PA, Pantalone DW, et al. Antiretroviral adherence interventions: a review of current literature and ongoing studies. Top HIV Med. 2003;11:185–198. 45. Starace F, Ammassari A, Trotta MP, et al. Depression is a risk factor for suboptimal adherence to highly active antiretroviral therapy. J Acquir Immune Defic Syndr. 2002;31(Suppl 3):S136–S139. 46. Schuyler D. Depression comes in many disguises to the providers of primary care: recognition and management. J S C Med Assoc. 2000;96: 267–275.
