Neovascular age-related macular degeneration (nAMD) is a chronic eye condition that causes severe deterioration of vision and ultimately blindness. Two vascular endothelial growth factor inhibitors are approved for nAMD treatment in Europe: ranibizumab and aflibercept. The European license for ranibizumab was updated with an individualized “treat and extend” (T&E) regimen, which involves more proactive treatment based on changes in best corrected visual acuity (BCVA) and/or anatomical outcomes. The aim of this publication is to compare the efficacy of the ranibizumab T&E regimen with other approved dosing regimens for nAMD on the basis of outcomes identified from a systematic review and subsequent NMA.
Methods
Following a systematic search of publications, to identify relevant studies, a repeated-measures network meta-analysis (NMA) was performed to estimate the relative effectiveness of ranibizumab T&E versus approved dosing regimens of ranibizumab and aflibercept. The analysis focused on licensed treatment regimens for nAMD. We examined mean change from baseline in BCVA on the Early Treatment Diabetic Retinopathy Study (ETDRS) chart.
Results
The systematic literature review identified 22,949 records, of which 23 studies were included in the NMA. At 12 months, the ranibizumab T&E dosing regimen vs ranibizumab pro re nata (PRN) was associated with small differences in change in BCVA, between 1.86 letter gain at 12 months and 2.35 letter gain at 24 months. A similar difference was observed in the aflibercept dosing regimen versus ranibizumab T&E ; 1.94 letter gain at 12 months and 3.31 letter gain at 24 months. All doses of ranibizumab and aflibercept showed similar effectiveness, and the differences between treatment options were not significant.
Conclusion
This study used novel repeated-measures NMA to synthesize efficacy results when treatment effects were reported at multiple follow-up times. This repeated-measures NMA suggests that treating patients with the ranibizumab T&E regimen yields similar effectiveness compared to other approved ranibizumab and aflibercept dosing regimens for nAMD treatment.
Funding: Novartis Pharmaceuticals UK Ltd, Surrey, UK.
Neovascular age-related macular degeneration (nAMD) is a leading cause of vision loss globally [1, 2]. Studies have estimated that 8.7% of the worldwide population has AMD; the projected number of people worldwide with the disease is 196 million in 2020, which is projected to increase to 288 million by 2040 [3]. In 2013, over 338,000 individuals in the UK were affected by nAMD, with 50,000 cases resulting in blindness [4‐6].
There have been significant advances in the management of nAMD since the approval of anti-VEGF therapies, and patients now have effective treatment options that can limit the progression to blindness [7‐9]. Anti-VEGF injections aim to inhibit the growth of new, abnormal blood vessels. Two anti-VEGF therapies that target VEGF-A have been approved for intraocular use in nAMD cases by the European Medicines Association (EMA) for the treatment of nAMD [10, 11]: ranibizumab (Lucentis®; Novartis Pharma AG, Basel, Switzerland) [10] and aflibercept (Eylea®; Bayer Pharma AG, Berlin, Germany) [11].
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With two approved anti-VEGF treatments and multiple dosing regimens reported in the UK clinical practice, decisions on the optimal treatment regimen are increasingly difficult. In September 2014, the license for ranibizumab was updated to include a new “treat and extend” (T&E) regimen, in which patients are treated monthly until maximum visual acuity (BCVA) is achieved and/or there are no signs of disease activity, and then treatment intervals are extended in a stepwise manner of no more than 2 weeks at a time until signs of disease activity or visual impairment recur [10]. The effectiveness of treating nAMD patients with ranibizumab according to the T&E regimen has been demonstrated in two randomized controlled trials (RCTs) [12‐14]. However, the main comparisons have been to unlicensed treatment and not to other approved dosing regimens. Thus indirect comparisons are needed to evaluate the relative effects of different treatments over time and to inform decision-makers on the optimal treatment choice [15‐17].
Network meta-analysis (NMA) takes into account both direct and indirect evidence. In addition to the complexity created by changing dosing regimens, the trials that inform this comparison have varying lengths of follow-up and report the outcome of interest (mean change in BCVA) at different time intervals. In such a situation, it is important to utilize all available information for all the time points reported in the trials to be able to estimate accurately the relative treatment effectiveness. For these purposes, a repeated-measures NMA model was used to model the relative treatment effectiveness.
In clinical practice in the UK, both ranibizumab and aflibercept are recommended as first-line agents for the treatment of nAMD and the decision to use either agent is left to the treating physician [18]. The purpose of this publication is to compare the efficacy of the ranibizumab T&E regimen with other approved dosing regimens for nAMD on the basis of outcomes identified from a systematic review and subsequent NMA.
Methods
The NMA reported in this manuscript is an update of a review and NMA originally conducted in 2013 to compare the efficacy of a range of interventions for the treatment of nAMD. Results of the comparisons of ranibizumab T&E versus approved dosing regimens of ranibizumab and aflibercept are presented in this manuscript.
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Eligibility Criteria
Trials were eligible for inclusion in the systematic review if they assessed adult patients with nAMD and all relevant synonyms (e.g., exudative macular degeneration, choroidal neovascularization, AMD, age-related macular degeneration (ARMD)). Trials of mixed populations were eligible if the results for patients with nAMD were reported separately. Prospective RCTs, which assessed BCVA and compared any of the following interventions, were eligible for inclusion in the NMA: ranibizumab, unlicensed bevacizumab, aflibercept, photodynamic therapy, placebo, sham, or best supportive care.
Search Strategy
For the update to the systematic review, we searched 18 databases, websites, trial registries and three conference websites between February and March 2016. The search strategy for MEDLINE is shown in Supplemental Fig. 1 (Fig. S1) and the other searches are available on request. This search strategy was originally developed in 2013, and then updated for this analysis taking into account relevant recent changes in indexing [19, 20]. The searches were not limited by date, language, or document type. The information sources searched are shown in Supplemental Table 1 (Table S1). Search results were downloaded into Endnote and de-duplicated against each other and against the results of the original review.
Study Selection
The records were screened for relevance to the NMA on the basis of information in the title and abstract, by two independent reviewers. Any disagreements were discussed with a third reviewer. Full-text documents of all potentially relevant records were obtained and evaluated in detail against the eligibility criteria for participants, interventions, comparators, outcomes, and study design. Studies that were excluded following full-text review are reported in Appendix 1 along with a reason for exclusion.
Data Extraction and Quality Assessment
Data extraction and quality assessment were carried out by two reviewers independently with discrepancies resolved by a third reviewer. Data were extracted from all relevant trials in relation to the trial design and methodology, patient characteristics, details of the intervention and treatment regimens, and data on change in BCVA. Data were extracted at all time points reported for each trial. Study risk of bias was assessed according to the NICE STA guidance for assessing the quality of RCTs [21].
Feasibility Assessment
NMA guidelines require studies in the network to be sufficiently similar to facilitate a reliable comparison. We used the guidance produced by the Australian Pharmaceutical Benefits Advisory Committee (PBAC) [22] on best practice for the conduct of indirect and mixed treatment comparisons to guide this assessment. The feasibility assessment evaluated the similarity of the trials in relation to the methods employed in the trials, participant populations, similarity of treatments, and similarity of outcome measures.
Network Meta-Analysis
A list of unique dosing regimens was generated describing each of the treatments identified in the literature review (Table S7) and a network was constructed. Dakin et al. and Ding and Fu NMA models were used to analyze the data at all time points [23, 24] up to months 12 and 24. This NMA framework allows for repeated measurements of a continuous endpoint showing random and systematic variation (without specifying any particular relationship between treatment effects and time) [23]. The model by Ding and Fu assumes that the relationship of the mean relative treatment effect with time follows a parametric model [24]. Both fixed and random effects models were fitted to the 1–24 months network using WinBugs. The model with the minimum deviance information criterion (DIC) was chosen.
Compliance with Ethics Guidelines
This article is based on previously conducted studies and does not involve any new studies of human or animal subjects performed by any of the authors.
Results
Identification and Selection of Studies
The searches identified 22,949 records (Fig. 1). After de-duplication against each other and against the search results of the original review [19, 20], 5587 records were assessed for relevance. Thirty-four documents, reporting data for 14 trials, were identified from the update search as eligible for inclusion in the NMA. Twenty-one of these documents reported data for six trials, which had already been identified in the previous NMA [19]. For this analysis, the remaining 13 documents reported data for eight new trials to be considered for inclusion, of which four studies ultimately contributed to the comparisons of interest to this network (Table S2). A total of 25 trials (21 from the original review and two from the update search) were considered in the feasibility assessment. A preferred reporting items for systematic reviews and meta-analyses (PRISMA) flow diagram showing the study selection process is presented in Fig. 1.
Fig. 1
Record selection process
×
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Network Development
Feasible networks were identified for analyzing mean changes in BCVA, which differed depending on the time point. A number of potential sources of heterogeneity were identified in the feasibility assessment of the 25 candidate trials: in particular, the potential for heterogeneity due to differences in the methods used, differences in the interventions used (primarily with respect to the criteria used for assessing retreatment), and differences in the timing of reporting. However, following discussions with clinicians, it was decided that these differences would be acknowledged but all the studies would remain in the network.
Following an assessment of the available data, two trials, DETAIL [25] and Moon et al. [26], provided insufficient data to be included in the final analysis. Therefore, data from 23 trials were included in the NMA (Fig. S2, Tables S3–S6).
Results of the NMA
Treatment Differences at 12 and 24 Months
The random effects model fit the data better than the fixed effects model. The functional form assumed by Ding and Fu [24] to describe the time component in the treatment effects fit the data well, and better than the models described by Dakin et al. [23]. The frequency of treatment varied over time and therefore different networks were applied depending on the time point. All of the 23 candidate trials reported data on BCVA at one time point, but the frequency and duration varied across the trials (Table S3). Table S7 presents the assumptions regarding the equivalence of treatment regimens at 0–12 months. After 12 months all the treatment regimens in the analysis were different, and hence no assumptions were necessary for the 24 month analysis.
In general, ranibizumab T&E resulted in similar changes in BCVA compared to other treatment regimens. Compared to aflibercept, ranibizumab T&E was associated with an incremental letter gain from baseline of 1.94 [95% credible interval (CrI) −7.52 to 3.52] at 12 months and 3.31 (95% CrI −9.23 to 2.66) letter gain at 24 months. The relative treatment effectiveness of ranibizumab T&E was 1.86 (95% CrI −7.38 to 3.61) letter gain at 12 months and 2.35 (95% CrI −7.82 to 3.19) letter gain at 24 months (Table 1) compared to ranibizumab 0.5 mg 3× monthly, then as needed. A forest plot comparing ranibizumab T&E with other approved treatment strategies is shown in Fig. 2.
Fig. 2
Forest plots present the median treatment difference and 95% CrIs of rainbizumab T&E versus other approved treatment regimens at a 12 months and b at 24 months
Table 1
Differences in the change in visual acuity at 12 and 24 months between the treatments of interest
Mean|median [95% Crl] (p value)
Mean|median [95% Crl] (p value)
12 months
Aflibercept 2.0 mg 6× 8 weekly, then as needed
Ranibizumab 0.5 mg 3× monthly, then as needed
Ranibizumab 0.5 mg 3 x monthly, then as needed
−0.09|−0.10
[−2.75 to 2.57]
(0.47)
Ranibizumab 0.5 mg treat and extend
−1.95|−1.94
[−7.52 to 3.52]
(0.24)
−1.86|−1.86
[−7.38 to 3.61]
(0.25)
24 months
Ranibizumab 0.5 mg 3× monthly, then as needed
−0.97|−0.96
[−4.41 to 2.44]
(0.28)
Ranibizumab 0.5 mg treat and extend
−3.32|−3.31
[−9.23 to 2.66]
(0.13)
−2.35|−2.35
[−7.82 to 3.19]
(0.19)
×
Discussion
There is limited availability of head-to-head randomized trial data on the comparative efficacy of different treatment regimens of ranibizumab for the treatment of nAMD; this analysis summarizes the available RCT evidence for the effectiveness of the ranibizumab T&E regimen. The results of the analysis show ranibizumab T&E to be an effective treatment regimen for nAMD. Ranibizumab T&E showed minor increase in change in BCVA at 12 and 24 months compared to other licensed treatments.
These estimates are based on evidence from only two T&E RCTs, of which only one informed the primary comparisons, and are subject to a considerable degree of uncertainty due to few data points. It is possible that the observed outcome may change if estimates from ranibizumab T&E were based on a larger number of clinical trials. Until additional evidence is generated, this analysis provides insight on the treatment effects of ranibizumab T&E in comparison to other approved treatment regimens for healthcare decision-makers, as ranibizumab T&E is increasingly implemented in UK clinical practice. Furthermore, these results may be relevant in settings outside of the UK where the same approved anti-VEGF therapies are used in the clinic.
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The principal strength of this study is that it accounts for the time structure in the data while comparing treatments, thus increasing the precision of the treatment estimates. Traditionally, the meta-analysis of trials with repeated measures was based on separate meta-analysis at each relevant time point, or analysis at the final time point of each trial. Such analysis would have not utilized all the available trial data from the different dosing regimens of interest at different time points; therefore, the estimates of the relative treatment effectiveness would have been less accurate.
Recently, several models for NMA of repeated measures have been presented [24]. The NMA was undertaken using the most robust methodology for NMA of repeated measures, providing accurate estimates of the effects of ranibizumab T&E in the absence of head-to-head RCT data. Moreover, the Ding and Fu model proposes a parametric model for the response time of each treatment and can be used to extrapolate the data at unobserved time points. Therefore, NMA of repeated measures should be explored more systematically in appropriate future nAMD studies, as it allows for an evaluation of the treatment effects over time and overcomes some of the limitations of standard NMA. The concept of a single full network, as used in standard NMA, can be somewhat misleading, as the full network changes over time reflecting changes in individual dosages. In such a situation, using NMA of repeated measures could offer a greater advantage in terms of obtaining more precise estimates at specific time points.
NMA is subject to the same limitations as pairwise meta-analysis [27], mainly related to the quality of the individual studies and publication biases. Assessments of the risk of bias of the included trials showed there to be significant variability in the quality of the included studies, with a number of the studies included in our analysis failing to take appropriate steps to minimize bias. While it is difficult to assess formally the impact of including these within the context of the NMA analysis, there is the potential that the estimates generated from our analysis are subject to bias as a result of the inclusion of these studies.
As described above, our analysis is based on an extensive search of the literature. Although we identified several studies, the large number of dosing regimens in the network means that the network analyzed is relatively sparse, giving the estimates considerable uncertainty. Another limitation of the current analysis is that observable heterogeneity based on baseline BCVA has not been addressed. It has been demonstrated in previous studies that a significant association exists between baseline BCVA and subsequent changes in BCVA following treatment [28]. It was therefore proposed within the current analysis to utilize meta-regression techniques to adjust estimates for baseline BCVA. Our study was only able to use aggregate information on baseline BCVA, because individual patient data from each of the trials were unavailable. Actual treatment effectiveness may therefore vary according to a patient’s BCVA in a way that we were not able to demonstrate in this analysis. NMA of repeated measures provides a clear advantage over standard NMA, when the outcomes of interest across different trials are not reported at the same time points. Despite these limitations, our results show that ranibizumab T&E is similarly effective to other approved treatment regimens of nAMD.
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Conclusion
This study has shown the comparative effectiveness of ranibizumab T&E with other approved treatment regimens for nAMD. NMA of repeated measures provides a clear advantage over standard NMA, when the outcomes of interest across different trials are not reported at the same time points.
Acknowledgements
This study was funded by Novartis Pharmaceuticals UK Ltd, Surrey, UK.
The original analysis was undertaken by Kelly Fleetwood at Quantics Consulting Ltd and was funded by Novartis.
The authors were assisted in the preparation of the manuscript by Jackie L. Johnson, Novartis Ireland Limited, Dublin, Ireland. Writing support was funded by the study sponsor. Novartis funded the publication charges and open access fee.
All named authors meet the International Committee of Medical Journal Editors (ICMJE) criteria for authorship for this manuscript, take responsibility for the integrity of the work as a whole, and have given final approval to the version to be published.
Disclosures
Alberto Ferreira is an employee of Novartis Pharma AG and owns stock in Novartis. Adrian Skelly is an employee of Novartis Pharma AG and owns stock in Novartis. Ruth Pulikottil Jacob is an employee of Novartis Pharmaceuticals UK Ltd. Andriy Danyliv is employed by Novartis Ireland. Julie Glanville is an employee of YHEC. Rachael McCool is an employee of YHEC.
Compliance with Ethics Guidelines
This article is based on previously conducted studies and does not involve any new studies of human or animal subjects performed by any of the authors.
Data Availability
All data generated or analyzed during this study are included in this published article/as supplementary information files.
Open Access
This article is distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 International License (http://creativecommons.org/licenses/by-nc/4.0/), which permits any noncommercial use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0), which permits use, duplication, adaptation, distribution, and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
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