Treatment modification after starting cART in people living with HIV: retrospective analysis of the German ClinSurv HIV Cohort 2005–2017

This study was planned and conducted by the academic and public sector researchers of the University Hospital of Cologne and German Center for Infection Research. We conducted a retrospective analysis of PLWH enrolled in the German national ClinSurv HIV cohort of the Robert Koch Institute (RKI), an ongoing, long-term observational multicenter cohort initiated in 1999. Details of the ClinSurv HIV cohort have been published previously [17]. In brief, 15 German University Hospitals and specialized clinical HIV treatment centers contribute comprehensive data on treatment and outcomes to the ClinSurv cohort. Data for ClinSurv are collected upon enrollment and are updated biannually based on all visits to the participating centers.

PLWH enrolled in ClinSurv from January 2005 through June 2017 were eligible for our analysis if they initiated their first-line therapy during this time period, were older than 18 years, and had both, an available pre-cART CD4+ T-cell count and viral load, yielding 8788 participants. Patients who received their first-line treatment in the setting of a clinical study were excluded from this analysis.

The first endpoint was defined as the date when the first-line drug class was changed to another class during follow-up. Modification was not counted if individuals alternated the dosage or used other drugs within the same drug class or if they interrupted the first-line drug class. The second outcome was defined as immunological recovery after 12 months of first-line treatment. Patients were censored if they died during the study period, failed to follow-up, or reached the end of the observation period before experiencing the endpoint. The epidemiological trends were evaluated between 2005 and 2017 (date of starting the respective cART). Moreover, we compared an early period (2005–2010) and late period (2011–2017), with the latter representing the period in which current INSTI regimens and STRs become available.

Baseline characteristics of included patients were reported as absolute numbers with percentage and median with interquartile range (IQR), as appropriate. Patients were compared during the period 2005–2010 (early period) and 2011–2017 (late period), using the Chi-square test.

We analyzed two different outcomes. First, we examined the durability of the first-line regimen, defined as switching the first-line cART drug class. Second, we analyzed viral suppression after cART initiation, defined as achieving low or undetectable plasma HIV RNA (< 200 copies/mL) after 12 months (± 6 months). The Kaplan–Meier (KM) method was used to examine factors independently associated with the durability of first-line cART. Differences between subgroups were compared by the log-rank test. The presence of multicollinearity problems was assessed among the explanatory variables using the Tolerance and Variance Inflating Factor [18]. A multivariable Cox regression model was used to identify the factors associated with the durability of the first-line cART regimen. We used backward selection eliminating variables with p > 0.2 to reach the simplest model that explained the data. Our final multivariable model was adjusted for sex, transmission risk group, pre-cART CD4+ T-cell count and viral load, first-line drug class, antiretroviral drugs that were included in the first-line regimen (TDF/FTC in combination with EFV, DRV/r, LPV/r, ATV/r, RAL, NVP, RPV, DTF or Others), the tablet regimen (single versus multi tablet regimen), and the period of cART initiation (2005–2010 and 2011–2017). Hazard ratio (HR) and adjusted hazard ratio (aHR) with 95% confidence intervals (CI) were reported to measure the strength and association between variables.

The RKI is the national public health institute and is responsible for disease prevention and control in Germany. The Federal Commissioner for Data Protection is the responsible entity for studies conducted by the RKI. All HIV infections are reported to the RKI as a statutory duty for anonymous notification, implemented by the national Protection against Infection Act. The data collected in the ClinSurv cohort are generated during routine care. In this scenario, no informed consent or permission for secondary analysis of the anonymized data was required. This study was performed in accordance with the Declaration of Helsinki.

Between January 2005 and June 2017, a total of 8788 PLWH met the inclusion criteria and were eligible for our analyses (Figure S1). Baseline characteristics are presented in Table 1. The median age was 38 years (IQR 31–46), and patients were predominantly male (n = 7040; 80.1%). Among male patients, 4470 (63.5%) reported sex with men (MSM) as the main transmission risk factor. In the total study population, the median pretreatment CD4+ T-cell count was 241 cells/µL (IQR 111–369 cells/µL), and 39.6% of patients had a CD4+ T-cell count below 200 cells/µL. The median pretreatment HIV RNA was 65,000 copies/mL (IQR 13,903–213,000), and 38.9% of patients had a pretreatment viral load greater than 100,000 copies/mL. A total of 338 (3.8%) patients died over the observation period, of whom 177 (52.4%) were on a PI-based regimen, 105 (31.1%) on a nucleotide reverse-transcriptase inhibitor (NRTI)/non-nucleotide reverse-transcriptase inhibitor (NNRTI) regimen, and 22 (10.1%) on an INSTI-based regimen.

The most common prescribed first-line cART regimens were TDF/FTC/EFV (n = 1734/8788; 19.7%) and TDF/FTC/DRV/r (n = 1180/8788; 13.4%). Within the early period of 2005–2010, TDF/FTC/EFV accounted for almost one third (n = 1285/4450; 28.2%) of all prescribed cARTs, while TDF/FTC/DRV/r (n = 860/4238; 20.3%) was the most frequent cART during the late period of 2011–2017. Most of the common first-line drug class combinations were NRTI/PI/boosted (n = 3682/8788; 41.9%), NRTI/NNRTI (n = 2951/8788; 33.6%), and NRTI/INSTI (n = 1676/8788; 19.1%), shown in Table 1. Since 2010, treatment initiation with NRTI/PI/boosted or NRTI/NNRTI decreased continuously and dropped below 5% in 2017. In comparison, treatment initiation with INSTI-based regimens increased constantly since 2008 and amounted to 85% of all patients initiating cART in 2017. Changes over time are shown in detail in Fig. 1.

The reason for modifying first-line therapy was recorded in 3597/4210 (85.4%) patients. The most commonly reported causes in men and women were side effects of drugs 792/3597 (22.0%), simplification of therapy 394/3597 (11.0%), patients’ choice 267/3597 (7.4%), decision of the responsible physician 259/3597 (7.2%), non-adherence 212/3597 (5.9%), comorbidities 136/3597 (3.8%), and virological failure 133/3597 (3.7%). Among women, side effects of drugs 152/588 (25.9%), patients’ choice 75/588 (12.8%), simplification of therapy 70/588 (11.9%), and pregnancy 51/588 (8.7%) were the most common causes to modify first-line therapy.

Physicians’ choice to modify first-line therapy was reported in 4.9% (128/1609) of patients during the early period and increased to 8.1% (131/2601) during the late period. The percentage of patients who modified first-line cART due to the simplification of therapy was lower in the early period than in the late period (192/2601; 7.4% vs. 202/1609; 12.6%).

Of the 4210 patients who modified their first-line cART, 21.5% (701/3259) switched from a MTR to a STR. The proportion increased from 19.4% (384/1981) in the early period to 24.8% (317/1278) during the late period (p < 0.001). A total of 31.3% (1084/3464) switched from a non-INSTI towards an INSTI-based regimen, the proportion increased from 24.6% (564/2297) to 44.6% (520/1167; p < 0.001) comparing the early to the late period.

Time-to-event analyses revealed prognostic factors to modify the first-line regimen, illustrated in the KM plots in Fig. 2a–d and Supplementary Figures S2 A and B and Table S1. For the duration of the first-line regimens, significant differences were identified among sex (p < 0.001), different drug classes (p < 0.001), and the year of cART initiation (p = 0.002). The median durability of the first-line regimen was significantly shorter in patients on MTR than in patients on STR (median 51 months, 95% CI 47–53 vs. 93 months, 95% CI 87–97; p < 0.001) (Table S1). KM analyses also revealed an increasing trend of first-line cART modification with a lower pre-cART CD4+ T-cell count (< 350 µL) (p < 0.001). These differences remained significant in the adjusted multivariable Cox regression model.

Women were more likely to modify the first-line regimen than men (aHR 1.24; 95% CI 1.12–1.37). Patients on a STR were significantly less likely to modify the first-line regimen compared to patients on an MTR (aHR 0.91; 95% CI 0.70–0.94). In addition, the frequency of tablet intake twice daily compared to once daily was significantly associated with treatment modification (aHR 1.34; 95% CI 1.22–1.48). We found that being on a NRTI/NNRTI (aHR 0.75; 95% CI 0.67–0.84) or a NRTI/INSTI (aHR 0.44; 95% CI 0.39–0.50) first-line regimen was associated with lower rates of modification, compared to being on a NRTI/PI/boosted first-line regimen. Modification of first-line regimen increased in the late period (2011–2017) compared to the early period (2005–2010) (aHR 1.45; 95% CI 1.33–1.58) (Table 2).

We also identified significant differences for modification of the discontinuation of first-line cART among transmission risk groups and different INSTI regimens. Patients on RAL and EVG were significantly more likely to modify therapy compared to those on DTG (HR 2.01; 95% CI 1.59–2.53 and HR 1.46; 95% CI 1.08–1.96, respectively). However, the transmission risk group did not remain significant in the adjusted multivariable Cox regression model, and INSTI regimens were excluded due to multicollinearity. Uni-and multivariable analyses were also performed separately for the early and late period. Details are displayed in supplementary table S2–S4.

Among patients with an available HIV-1 RNA assessment at month 12 (± 6 months), 5745/6089 (95.4%) achieved viral suppression (< 200 copies/mL).

Pre-cART viral load was significantly higher in patients who modified their first-line cART regimen within 12 months (± 6 months) (median 70,324 copies/mL; IQR 12,812–257,914 copies/mL) than in patients who remained on their first-line regimen (median 63,126 copies/mL; IQR 14,078–200,000; p = 0.013). In the whole group, the median decrease in viral load after 12 months on cART was 3.4 log copies/mL (IQR 2.8–4.0 log copies/mL) and was greater in those who remained on their first-line cART than in patients who modified the initial treatment (4.0 vs. 3.5 log copies/mL, respectively). The overall pre-cART CD4+ T-cell count increased with a median gain of 205 cells/µL (IQR 180–374 cells/µL) at month 12 (± 6 months), a relative increase of 84%. No differences were observed between individuals who remained on their first-line regimen compared to those who modified their first-line regimen (p = 0.843).