- Research article
- Open Access
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Switch rates, time-to-switch, and switch patterns of antiretroviral therapy in people living with human immunodeficiency virus in Japan, in a hospital-claim database
BMC Infectious Diseases volume 19, Article number: 505 (2019)
Regardless of chronic treatment with antiretroviral therapy (ART), the switching rate for ART regarding anchor drugs has not been articulated in real-world clinical-settings in Japan. We assessed switch rates and time-to-switch of ART regimens according to anchor drug classes (integrase strand transfer inhibitors (INSTI), non-nucleoside reverse transcriptase inhibitors (NNRTI) and protease inhibitors (PI)) and common switching patterns of anchor drug classes in people living with human immunodeficiency virus (HIV) (PLWH) from 2008 to 2016.
This retrospective, observational study used data of 1694 PLWH drawn from a large-scale medical claims database. The median time-to-switch and switch rates of anchor drug class were estimated by Kaplan-Meier analysis. To estimate 95% confidence intervals for switch rates and median days, the Brookmeyer and Crowley method and Greenwood method were used respectively. The switching patterns were summarized based on the time of switching. The switch rates were compared between two anchor drug classes for each year using log-rank tests.
We focused our results on 2011–2016 (n = 1613), during which most ART prescriptions were observed. A total of 268 patients switched anchor drug class from the first to a second regimen. The switch rate constantly increased over four years for NNRTIs (17.8–45.2%) and PIs (16.2–47.6%), with median time-to-switch of 1507 and 1567 days, respectively, while INSTI maintained a low switch rate (2.3–7.6%), precluding median-days calculation. The majority originally treated with NNRTI and PI switched to INSTI regardless of the switching timing after starting the first regimen (< 1 year: 91.7 and 97.5%, respectively, and ≥ 1 year: 100.0 and 97.5%, respectively). The risk of switching anchor drug classes was lower for INSTI than for other anchor drug classes in the first regimen even after adjusting for potential confounding factors.
Patients with an ART regimen including INSTI as an anchor drug class maintained a low switch rate for long durations. The major switching strategies of anchor drug class for secondary treatment were from NNRTI or PI to INSTI. These results suggest that INSTI may be a durable anchor drug class for PLWH on ART although there are limitations inherent to the database.
Antiretroviral therapy (ART) has increased the survival of people living with human immunodeficiency virus (HIV) (PLWH), resulting in an improved life expectancy [1,2,3] nearly the same as that of people without HIV [4, 5]. Owing to the need of chronic treatment with antiretroviral drugs, a prescription of a durable, simple ART regimen is key to alleviating the burden of lifelong treatment and to improve quality of life in PLWH.
When initiating ART, the latest guidelines recommend a combination regimen mostly consisting of two nucleoside reverse transcriptase inhibitors (NRTIs) as backbone plus a third drug (the anchor drug) from the other classes, including non-nucleoside reverse transcriptase inhibitors (NNRTIs), protease inhibitors (PIs), and integrase strand transfer inhibitors (INSTIs) [6, 7]. In Japan, five classes of antiretroviral drugs, NRTIs, NNRTIs, PIs, INSTIs, and entry inhibitors (EIs), are currently available . Among the various available combination patterns, the doctor’s choice of an anchor drug plays an important role in the treatment strategy due to the limited number of backbone choices. To date, the evidence is scarce regarding the selection of the anchor drug for the initial ART.
During the lifelong treatment of HIV, PLWH commonly experience switches of ART regimens. The reasons for switching regimens can be varied including drug-related adverse events (AEs), viral suppression, drug toxicity, new drug availability, and simplification of a current regimen [8,9,10]. The launch of a new drug may also trigger regimen switches if physicians or PLWH are unsatisfied with the current regimen. Despite the frequent treatment modifications expected in the lifelong course of ART, the switching strategies have also not been clearly defined.
As the switching rate for ART with regards to anchor drugs has not been articulated, it is important to understand when and how the ART regimens are switched and to identify anchor drug classes that might be administered for longer durations in real-world clinical-settings in Japan. Therefore, the objective of the present study was to assess the switch rates and time-to-switch of ART regimens according to anchor drug class and to identify common switching patterns of anchor drug class in PLWH, using a large-scale Japanese medical claims database.
Study design and data source
This was a retrospective, observational database study. Data were extracted from a hospital-based medical claims database in Japan that was constructed by Medical Data Vision Co., Ltd. (MDV, Tokyo, Japan). As of August 2016, the MDV database contained patient-level information and claims data, including diagnoses, medical procedures, prescriptions, and hospitalization, of over 15 million patients in 270 hospitals in Japan. These hospitals can provide advanced treatments and include advanced treatment hospitals, general hospitals, and acute care hospitals that provide the combination of diagnosis and per-diem payment system.
PLWH on an ART regimen were the target of interest. Our analyzed dataset included patients aged ≥18 years with a diagnosis record of HIV, B20–24 according to the International Statistical Classification of Diseases and Related Health Problems 10th Revision (ICD-10) codes and with a prescription record of ART between April 2008 and December 2016 (study period). A prescription record of ART was identified when at least one anchor drug in any of the following antiretroviral drug classes was prescribed during the study period: NNRTIs, PIs, INSTIs, and EIs. Patients with a code of HIV-2 infection were excluded.
The primary outcomes were the switch rates and time-to-switch of ART regimens according to the anchor drug classes. The secondary outcomes were the switch rates and time-to-switch of anchor drug class-based ART regimen by type of backbone, characteristics of patients who experienced an anchor drug switch in each anchor drug class-based ART regimen, and common switching patterns of anchor drug class.
The extracted data included demographic patient characteristics (age, sex), year of first ART record in the database, prescription records of anchor drugs and backbone, comorbidities, history of hospitalization, and AIDS-defining illnesses.
Anchor drugs and backbones
The anchor drugs of the ART regimens were identified using receipt codes and classified into four classes (anchor drug classes) according to the anti-HIV drug classification available in Japan , as follows: 1) NNRTIs, 2) PIs, 3) INSTIs, and 4) EIs.
The backbones of the ART regimens were identified using receipt codes and classified into three categories: 1) tenofovir disoproxil fumarate (TDF), 2) abacavir (ABC), and 3) others. As tenofovir alafenamide fumarate (TAF)/emtricitabine (FTC) were not available before December 2016 in Japan, TAF/FTC was not included as a backbone in the present study.
ART regimen switch and time-to-switch
The ART regimen switch focused solely on anchor drug classes and was defined based on a switch in the anchor drug class used in the ART regimens. The time-to-switch of ART regimen was defined as the period from the date of the first record of anchor drug class in the ART regimen within patient data (index date) (defined as the first regimen) to the date of switch to another anchor drug class in the ART regimen (defined as second regimen) during the study period. The date of anchor drug class switch was defined as the date of prescription of the new anchor drug class within 28 days after the termination of the preceding ART regimen. When no initiation of any new anchor drug class was identified within 28 days after termination of the preceding ART regimen, the regimen was considered discontinued. A change of anchor drug within the same anchor drug class was not considered a switch.
AIDS-defining illnesses were identified if any of the following records were present in the month of the index date: HIV non-tuberculous mycobacteria, HIV cytomegalovirus infection, HIV candidiasis, HIV Pneumocystis carinii pneumonia, HIV Kaposi’s sarcoma, HIV Burkitt’s lymphoma, HIV non-Hodgkin’s lymphoma, HIV encephalopathy, HIV-associated dementia, slim disease, acquired immune deficiency syndrome, AIDS, neonatal HIV infection, and AIDS-related complex. The corresponding ICD-10 codes were listed in Table 1.
Comorbidities were identified if any of the following ICD-10 codes were present in the same month as the index date: HIV-related diseases, hypertension, dyslipidemia, hepatitis B/C coinfection, diabetes, bone disorder, vascular disease, psychiatric disorders, kidney disease, and malignancy. The corresponding ICD-10 codes were listed in Table 1.
History of hospitalization
A history of hospitalization was identified if a record of hospitalization was present during the ART regimen prescribed on the index date.
The proportions of anchor drug class and backbones prescribed on the index date were obtained by year. The demographic and clinical characteristics of all patients on ART regimens were analyzed descriptively according to anchor drug class prescribed on the index date.
The median time-to-switch and switch rates according to anchor drug class prescribed on the index date and those stratified by the backbone were estimated using Kaplan-Meier analysis. For the estimate of 95% confidence interval (CIs), the Brookmeyer and Crowley method was used for median days and the Greenwood method was used for switch rates. The switch rates were compared between two anchor drug classes for each year using log-rank tests. Discontinuation of the regimen or regimen continuation to the end of study period were censored.
The demographic and clinical characteristics of patients who switched anchor drug classes in their ART regimens were analyzed descriptively according to the anchor drug class prescribed on the index date. The timings (< 1 and ≥ 1 year) were descriptively analyzed in patients who switched anchor drug class in their ART regimen according to the anchor drug class prescribed on the index date and the corresponding 95% CI using Wilson scores.
To identify potential confounding factors for switching ART regimens and the factors interacting with the anchor drug class, a multivariate Cox regression model was initially used for variable selection with a cut-off of p < 0.05 for the main effect and p < 0.10 for the interaction term. The time-to-switch was included as an objective variable and the anchor drug class, risk factors, and interaction term between anchor drug class and each risk factor were included as explanatory variables. If the interaction term had a p < 0.10, the variable was retained in the model even if the main effect of the variable had a p ≥ 0.05. Subsequently, the hazard ratio (HR) of each anchor drug class was calculated adjusting for remaining variables and stratified by interaction factors to estimate the risk of switching anchor drug classes from the ART regimen prescribed on the index date.
All statistical analyses were performed using SAS release 9.4 (SAS Institute Inc., Cary, NC, USA). The remaining statistical tests were two-sided with a significance level of 0.05.
The patient disposition is shown in Fig. 1. A total of 4093 patients in the MDV database had a diagnostic record of HIV during the study period. Of those, 1757 were prescribed ART. After excluding 63 patients who were prescribed multiple anchor drug classes on the index date, 1694 patients had a single prescription record of anchor drug class on the index date. Broad usage of INSTI class in the database started after 2010 (first INSTI introduction in Japan was July 2008) and over 95% of the patients started an ART regimen between 2011 and 2016 (n = 1613) [Fig. 1], the main results reported in the present study focused on this time period.
Distributions of anchor drug class and backbone in the ART regimens by year
The prescription of NNRTI and PI as anchor drug class in the ART regimen overall decreased after 2010 or 2011 (NNRTI: 41.7–6.0% between 2011 and 2016; PI: 60.6–15.1% between 2010 and 2016) [Fig. 2(a)]. Contrarily, the prescription of INSTI had increased rapidly since 2010 and accounted for over three-fourths of anchor drug classes prescribed in 2016 (2.8% in 2010 and 78.9% in 2016). Only one patient was prescribed EI as anchor drug class in 2014. Among backbones, TDF has been the predominant backbone since 2011 (41.7–72.7% between 2011 and 2016), followed by ABC (33.3% in 2011 to 33.6% in 2016) [Fig. 2(b)]. Others between 2011 and 2016 included mostly zidovudine (AZT)/lamivudine (3TC) accounted for 73.7% (AZT/3TC: 37.3% or 3TC and AZT: 36.4%) [see Additional file 1].
In 1613 patients who started an ART regimen during 2011–2016, 20.1% were on NNRTI, 35.0% on PI, and 44.8% on INSTI [Table 2]. Only one patient (0.1%) was prescribed an ART regimen with EI. Therefore, our results focused on NNRTI, PI, and INSTI. The mean (± standard deviation, SD) age of patients on INSTI was numerically younger (41.9 ± 11.9 years) and smaller proportions of patients had AIDS-defining illnesses (38.7%), dyslipidemia (18.5%), and diabetes (18.7%), compared to those in patients on NNRTI and PI (48.0 ± 12.5 and 45.4 ± 12.3 years; 47.4 and 46.6%; 29.8 and 26.8%; and 26.2 and 23.2%; respectively).
Characteristics of patients who switched anchor drug class
Of all patients who started an ART regimen, 270 (16.7%) switched anchor drug classes. For each anchor drug class, 26.2% switched from NNRTI (85/325), 28.7% from PI (162/564), and 3.0% from INSTI (22/723) [Table 3]. Overall, no major differences were observed in characteristics among patients treated with these three predominant anchor drug classes. AIDS-defining illnesses accounted for 59.1% of patients originally treated with INSTI, while the proportions were lower in those originally treated with NNRTI or PI (45.9 and 40.7%, respectively). The proportion of patients with dyslipidemia was higher among those originally treated with NNRTI (35.3%) and INSTI (31.8%) than that among those treated with PI (25.3%). The proportion of patients with diabetes was highest among patients originally treated with NNRTI (30.6%), followed by those with PI (22.2%) and INSTI (13.6%).
Switching patterns of anchor drug classes
Of 270 patients who switched anchor drug class from their first to their second ART regimens, two patients with multiple prescription records of anchor drug class in the second regimen were excluded (n = 268) [Table 4]. Most patients originally treated with NNRTI and PI switched to INSTI (91.7% [95% CI: 80.4–96.7] and 97.5% [91.4–99.3], respectively) < 1 year after starting the first regimen; 57.1% (32.6–78.6) of patients originally treated with INSTI switched to PI in the second regimen. Among patients who switched their anchor drug class ≥1 year after starting their first regimen, most originally treated with NNRTI and PI switched to INSTI (100.0% [90.1–100.0] and 97.5% [91.4–99.3], respectively), while those originally treated with INSTI equally switched to NNRTI and PI (50.0%, 21.5–78.5, for both).
Switching of anchor drug classes in the ART regimens
The switch rate constantly increased over 4 years in both NNRTI (17.8–45.2%) and PI (16.2–47.6%), while INSTI maintained a low rate (2.3–7.6%) [Fig. 3]. The median time-to-switch were 1507 and 1567 days for NNRTI and PI, respectively, while that of INSTI could not be obtained due to the low regimen switch rate of 7.6% at 4 years. The results of log-rank tests indicated a significant difference in the switch rates at years one through four for any pairs of anchor drug classes (p < 0.05, for all), except for the comparison between NNRTI and PI at years 1, 2, and 3 (p = 0.398, 0.551, and 0.077, respectively).
Switching of anchor drug class-based backbones in the ART regimens
In both NNRTI and PI, the switch rates at 1 year varied between backbones, with the lowest rate with other backbones (13.7 and 10.5%, respectively), followed by TDF (14.2 and 13.8%, respectively) and ABC (28.0 and 25.4%, respectively) [Fig. 4]. The switching rates differed significantly between TDF and ABC and between ABC and other backbones (p < 0.05, for all). Contrarily, in INSTI, the equally low switch rate at 1 year was observed for both ABC (1.5%) and TDF (2.1%) whereas that for other backbones was higher (20.5%). However, only a small number of patients were prescribed other backbones in any anchor drug class.
Assessment of potential confounding factors associated with regimen switch
In Cox regression analysis, the following four risk factors and two interaction terms were selected: AIDS-defining illness, type of backbone, year of first ART regimen (2011–2013, 2014–2016), anchor drug class, and interaction terms between anchor drug class and AIDS-defining illness and between anchor drug class and type of backbone. Subsequently, these six factors were included in the model, and HRs were calculated for anchor drug class stratified by each interaction term with anchor drug class (AIDS-defining illness and type of backbones). The HRs were constantly lower in INSTI compared with those of PI and NNRTI, regardless of the presence of AIDS-defining illness (HRs: 0.107–0.314) or type of backbone (HRs: 0.141–0.145 for TDF and 0.044–0.053 for ABC), whereas HRs for PI compared to those of NNRTI were close to 1 [Fig. 5].
To our knowledge, this is the first study to assess the switch rates and time-to-switch of anchor drug classes of ART regimens and the switching patterns of the anchor drug classes in these regimens, using a large hospital-based medical claims database in Japan. INSTI was the anchor drug class prescribed continuously after the first ART regimen prescribed. The common switching pattern of anchor drug class was from NNRTI or PI to INSTI. Consistent with the assessment of switch rate, the risk of switching anchor drug classes, stratified by factors with possible interaction effects with anchor drug class, was lower for patients originally prescribed INSTI than that for other anchor drug classes after adjusting for potential confounding factors.
Our results showed an increasing trend of INSTI prescriptions as an anchor drug class and a predominant prescription of TDF comprising approximately two-thirds of backbone prescriptions as the first regimen in recent years. This finding was partially consistent with the trend in initial ART regimen reported in the 2017 HIV treatment guidelines published in Japan indicating an increasing prescription of INSTI (e.g., raltegravir and dolutegravir [DTG]) as anchor drug classes in the initial regimen between 2012 and 2016 and a predominant prescription of TDF as backbone followed by ABC between 2012 and 2016, with a decreased share of TDF in 2016, perhaps due to the DTG/ABC/3TC launch in 2015 .
A constant increase in the switch rates of anchor drug classes over 4 years for NNRTI and PI was observed in this study, consistent with previous studies. The switch of anchor drug class over 3 years in Europe and the United States increased to over 20% among treatment-naïve PLWH treated initially with both NNRTI and PI . Similarly, an increased cumulative probability of anchor drug modification in 1 year from the initiation ART regimen by 19% in efavirenz (EFV) and 23% in atazanavir/ritonavir (ATV/r) . Contrarily, the switch rate in INSTI was as low as approximately 8% over 4 years and it was persistently low regardless of the type of backbone prescribed. Furthermore, the two most common switching strategies were from NNRTI or PI to INSTI regardless of switching timing among those who switched anchor drug classes from the first regimen. These findings suggest that INSTI may be the most durable anchor drug class for PLWH on ART regimens in real-world clinical-settings irrespective of backbone in the first ART regimen. These imply that the selection of an INSTI anchor drug might overcome backbone disadvantages and support a longer continuation of the initiated ART. However, it should be noted that little has been known about the continuation of INSTI in ART regimens due to a shorter follow-up time for INSTI than those of NNRTI and PI in the present study.
The prevalence of comorbidities varied among all patients on ART regimens and those who experienced an anchor drug class switch: AIDS-defining illnesses, dyslipidemia, and diabetes were more prevalent in those treated with NNRTI and PI, AIDS-defining illnesses prevailed in those originally treated with INSTI, and dyslipidemia and diabetes prevailed in those originally treated with NNRTI among those with an anchor drug class switch. These results indicated that even after adjusting for potential confounding factors and after anchor drug class was stratified according to factors with interaction effects associated with anchor drug class in multivariate analysis, the risk of switching anchor drug classes was lower in patients prescribed INSTI regardless of the presence of AIDS-defining illness or type of backbone prescribed. This finding supports the longer treatment continuation in PLWH prescribed INSTI.
We further conducted a sensitivity analysis because our results may have included patients who had initiated ART regimens before being entered into the MDV database. We included only patients who had a record of a first ART prescription between 90 to 365 days from the first visit record in the MDV database. This inclusion should have limited our patient cohort to a more realistic selection of ART-naïve patients and overcome the limitation resulting from a lack of patient information before being entered into the MDV database as patients usually start an initial ART regimen after their definitive diagnosis of HIV and their application to the social security system specific to PLWH has been completed, which may require several months from the first hospital visit. This massively reduced the number of patients included in the analysis, with few patients on PI (n = 31) and NNRTI (n = 6) and sufficient patients on INSTI (n = 96), suggesting that most naïve PLWH receive an INSTI class-based regimen as recommended in the current guidelines in Japan. The Kaplan-Meier curve for INSTI, however, was similar to the one depicted in Fig. 3, with similar switch rates of 1.1% (95% CI: 0.2–7.5) at 1 year and 6.0% (1.8–18.5) at years two through four. Contrarily, the curves for PI and NNRTI varied from those in Fig. 3, but because of the low number of patients, their statistical correctness is questionable. These curves hinder our interpretations owing to the insufficient number of patients on PI and NNRTI based on our definition; however, we believe that this approach validates at least our data on INSTI in our initial analysis.
This study had several limitations. First, our results may not be generalizable to PLWH in Japan. Patients who receive medical care at these hospitals may have more complicated comorbid conditions than others because hospitals with advanced medical care capabilities are included in the database. Doctors’ choices of ART regimens or switching strategies may also differ not only among hospitals in the database but also between these hospitals and HIV-specialized facilities. Second, as data included in the database were originally recorded for billing purposes, like other claims-based studies, data unavailability, including the reasons for regimen selection, reasons for regimen change/discontinuation (e.g., treatment failure, adverse events, or poor adherence), or adherence to ART regimens, limits further interpretation of our results. Third, the limited duration following INSTI introduction to Japan (July 2008) may have influenced our results as stated earlier. In fact, a small number of patients were on INSTI during our early study period (2008–2010). Further long-term study is needed to assess INSTI treatment duration. Fourth, as the database is hospital-based, the complete medical history of a patient may not be captured as stated earlier. Regardless of this limitation, our sensitivity analysis validated our results for INSTI, but due to the low numbers of patients on PI and NNRTI, the comparison requires validation with a different set of data, ideally prospective data. Finally, reporting AEs and/or asking physicians to change the regimen is partially attributable to patient engagement, which may be highly influenced by cultural barriers. Thus, the interpretation of the results of the present study may be limited to Japanese clinical-settings.
In conclusion, patients with an ART regimen including INSTI as an anchor drug class maintained a low switch rate for long durations. This appeared to be independent of the presence of AIDS-defining illness or type of backbone prescribed. The major switching strategies of anchor drug class for secondary treatment were from NNRTI or PI to INSTI. These results suggest that INSTI may be a durable anchor drug class for PLWH on ART regimens. However, we cannot draw conclusions in regard to comparisons with other classes due to database limitations. Therefore, additional research on treatment duration and the reasons for switch/discontinuation is recommended to comprehend current HIV treatment in Japan.
Availability of data and materials
The dataset that support the findings of this study are available from MDV, a commercial database provider. The dataset analyzed for this study cannot be shared publicly due to contractual agreements between MDV and medical facilities. For inquiries about access to the dataset used in this study, please contact MDV (website, https://www.mdv.co.jp/; e-mail, firstname.lastname@example.org).
Human immunodeficiency virus
The International Statistical Classification of Diseases and Related Health Problems 10th Revision
Integrase strand transfer inhibitor
Non-nucleoside reverse transcriptase inhibitor
Nucleoside reverse transcriptase inhibitor
People living with human immunodeficiency virus
Tenofovir alafenamide fumarate
Tenofovir disoproxil fumarate
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Statistical and medical writing supports were provided by Ryozo Wakabayashi, Haruka Murano, and Mika Kawaguchi of Clinical Study Support, Inc., Nagoya, Japan under the contract with MSD K.K. We are particularly grateful for the assistance given by Noriyo Ihara of MSD K.K.
This study was funded by MSD K.K., Tokyo, Japan. The funder had no role in data collection, but was involved in study design, data analysis, interpretation of data, and in writing the manuscript.
Ethics approval and consent to participate
Approval from an ethical committee was not required for an observational study using de-identified secondary data according to the Japanese Ethical Guidelines for Medical and Health Research Involving Human Subjects (https://www.mhlw.go.jp/file/06-Seisakujouhou-10600000-Daijinkanboukouseikagakuka/0000153339.pdf). Obtaining consent does not apply to studies using such anonymized data in the Ethical Guidelines. As the data were obtained from Medical Data Vision, Co., Ltd. (MDV), a commercial database provider, no administrative permission was required to access the data.
Consent for publication
Not applicable due to the reason addressed in the ethics approval and consent to participate.
DJR, NK, and NO are employees and RS was an employee of MSD K.K., Tokyo, Japan. TN has received no funding for this study but received lecture fees from MSD K.K., Tokyo, Japan.
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Ruzicka, D.J., Kuroishi, N., Oshima, N. et al. Switch rates, time-to-switch, and switch patterns of antiretroviral therapy in people living with human immunodeficiency virus in Japan, in a hospital-claim database. BMC Infect Dis 19, 505 (2019) doi:10.1186/s12879-019-4129-6
- Antiretroviral therapy
- Switch rate
- Switching pattern