An official website of the United States government
NCBI Bookshelf. A service of the National Library of Medicine, National Institutes of Health.
Entyvio (Vedolizumab) [Internet]. Ottawa (ON): Canadian Agency for Drugs and Technologies in Health; 2016 Dec.
To summarize and critically appraise the comparative efficacy and safety of the available treatments for moderate to severe Crohn’s disease in adults through indirect comparisons (IDCs). A literature search was completed using MEDLINE, Embase, and PubMed. After screening the results, three IDCs51,52,61 comparing the efficacy and safety of the available treatments for moderate to severe Crohn’s disease in adults were identified. In addition, the publicly available IDC submitted by the manufacturer to NICE was also included in this review.88
The IDCs were all conducted using systematic literature reviews. Detailed information concerning the literature search strategies are presented in Table 46, and the inclusion and exclusion criteria of the included trials are presented in Table 47. The methods section in the NMA by Hazelwood et al. and the IDC by Miligkos et al. did not provide any information about whether the systematic review followed a standardized tool for reporting. The majority of the included trials were placebo-controlled and investigated one or more of the following biologics: vedolizumab, adalimumab, infliximab, certolizumab, ustekinumab, and natalizumab. The methods sections in the NMA submitted to NICE, the IDC conducted by Miligkos et al., and the NMA conducted by Hazelwood et al. lack any description about how definitions of moderate to severe Crohn’s disease were considered in the study selection process. The NMA submitted to NICE did not provide a description of whether or how study durations were considered in the study selection process
Systematic Review Strategies.
Inclusion and Exclusion Criteria of the Included Trials Used in the Indirect Comparisons.
Quality assessment of the individual included studies was performed using a variety of methods. Two investigators independently rated the quality of the included studies based on the criteria established by the Evidence-Based Gastroenterology Steering Group,89 which considers concealed random allocation, patient and caregiver blinding, interventions between treatment arms, follow-up, and use of an ITT analysis, in the NMA conducted by Singh et al., in contrast to one investigator in the IDC conducted by Miligkos et al., while the NMA by Hazelwood et al. and the NMA submitted to NICE were conducted used the Cochrane Risk of Bias tool and the assessment criteria recommended by NICE, respectively.
The NMAs all used Bayesian methods with placebo as the common comparator, with the exception of the IDC by Miligkos et al., which conducted IDCs of vedolizumab using the Bucher method with placebo as the common comparator. All of the outcomes that were evaluated in the NMAs were dichotomous outcomes, and differences between treatments were reported as RRs or odds ratios (ORs) with 95% credible intervals (CrIs), with the exception of the IDC conducted by Miligkos et al., which reported ORs with 95% CIs. In instances where there were data from multiple clinical studies, the results from the individual studies were pooled across studies using random-effects models, with the exception of the withdrawals due to adverse events data from the NMA by Hazelwood et al., which used a fixed-effect model (authors claim a fixed-effect model is more appropriate given the rarity of adverse events). Summaries of the trial characteristics included in the NMAs are provided in Table 48, Table 49, and Table 50.
Study Characteristics Included in the Network Meta-Analysis by Singh et al.
Study Characteristics Included in the Network Meta-Analysis by Hazelwood et al.
Study Characteristics Included in the Network Meta-Analysis Submitted to NICE.
| Drug | Study | Treatment Group Included in IDC | Primary End Point | Prior Anti- TNF Alpha (%) | Concomitant CD Treatment (%) | |
|---|---|---|---|---|---|---|
| CS | IS | |||||
| Induction Studies | ||||||
| VDZ | Feagan 2008 |
| Clinical remission CDAI < 150 (week 8) | PLA: 0 VDZ: 0 | NR | NR |
| GEMINI II 2012 |
| Clinical remission CDAI < 150 (week 6) | PLA: 49 VDZ: 51 | PLA: 31 VDZ: 39 | PLA: 17 VDZ: 29 | |
| GEMINI III 2012 |
| Clinical remission CDAI < 150 (week 6) | PLA: 76 VDZ: 76 | PLA: 52 VDZ: 53 | PLA: 33 VDZ: 34 | |
| ADA | CLASSIC I 2006 |
| Clinical remission CDAI < 150 (week 4) | PLA: 0 ADA: 0 | PLA: 23 to 43 ADA: 24 | PLA: 28 to 31 ADA: 100 |
| GAIN 2007 |
| Clinical remission CDAI < 150 (week 4) | PLA: 100 ADA: 100 | PLA: 44 ADA: 35 | PLA: 51 ADA: 46 | |
| Watanabe 2012 |
| Clinical remission CDAI < 150 (week 4) | PLA: 56 ADA: 58 | PLA: 22 ADA: 18 to 24 | PLA: 35 ADA: 30 to 33 | |
| IFX | T16 1996 |
| Clinical remission CDAI < 150 (week 4) | PLA: 0 IFX: 0 | PLA: 64 IFX: 56 to 61 | PLA: 44 IFX: 28 to 43 |
| Lémann 2006 |
| Clinical remission CDAI < 150 (week 12) | PLA: 0 IFX: 0 | PLA: 100 IFX: 100 | PLA: 100 IFX: 100 | |
| Colombel 2010 |
| NR | PLA: 0 IFX: 0 | PLA: 24 IFX: 28 | PLA: 100 IFX: 100 | |
| CRT | Sandborn 2007 |
| NR | PLA: 26 CRT: 30 | PLA: 23 CRT: 22 | PLA: 20 CRT: 21 |
| Sandborn 2011 |
| Clinical remission CDAI ≤ 150 (week 6) | PLA: 0 CRT: 0 | PLA: 46 CRT: 44 | PLA: 31 CRT: 35 | |
| Schreiber 2005 |
| Clinical remission CDAI ≤ 150 (week 12) | PLA: 22 CRT: 17 to 24 | PLA: 40 CRT: 31 to 40 | PLA: 36 CRT: 35 to 40 | |
| Winter 2004 |
| Clinical remission CDAI ≤ 150 (week 4) | PLA: 13 CRT: 28 | PLA: 28 CRT: 24 to 35 | PLA: 44 CRT: 44 to 53 | |
| NAT | Ghosh 2003 |
| Clinical remission CDAI < 150 (week 6) | PLA: 0 NAT: 0 | PLA: 49 NAT: 59 | PLA: 35 NAT: 22 |
| Sandborn 2005 |
| Clinical remission CDAI < 150 (week 10) | PLA: 38 NAT: 40 | PLA: 39 NAT: 37 | PLA: 29 NAT: 34 | |
| Targan 2007 |
| NR | PLA: 45 NAT: 50 | PLA: 38 NAT: 42 | PLA: 38 NAT: 37 | |
| Maintenance Studies | ||||||
| VDZ | GEMINI II 2012 |
| Clinical remission CDAI < 150 (week 52) | PLA: 54 VDZ: 57 | PLA: 37 VDZ: 38 | PLA: 15 VDZ: 18 |
| ADA | EXTEND 2012 |
| Mucosal healing (week 52) | PLA: 57 ADA: 47 | PLA: 39 ADA: 14 | PLA: 39 ADA: 44 |
| CHARM 2007 |
| Clinical remission CDAI < 150 (week 56) | PLA: 10 ADA: 30 | PLA: NR ADA: 42 | PLA: NR ADA: 48 | |
| CLASSIC II 2007 |
| Clinical remission CDAI < 150 (week 60) | PLA: 0 ADA: 0 | PLA: 56 ADA: 47 to 50 | PLA: 17 ADA: 21 to 28 | |
| Watanabe 2012 |
| Clinical remission CDAI < 150 (week 56) | PLA: 56 ADA: 52 | PLA: 22 ADA: 18 to 24 | PLA: 35 ADA: 30 to 33 | |
| IFX | ACCENT I 2001 |
| Clinical remission CDAI < 150 (week 30) | PLA: 0 IFX: 0 | PLA: NR IFX: 52 | PLA: NR IFX: 27 |
| Rutgeerts 1999 |
| Clinical remission CDAI < 150 (week 44) | PLA: 0 IFX: 0 | NR | NR | |
| CRT | PRECISE II 2007 |
| Clinical remission CDAI < 150 (week 26) | PLA: 24 CRT: 24 | PLA: 21 CRT: 22 | PLA: 25 CRT: 27 |
| NAT | Sandborn 2005 |
| Clinical remission CDAI < 150 (week 70) | PLA: 40 NAT: 33 | PLA: 44 NAT: 37 | PLA: 35 NAT: 38 |
ADA = adalimumab; anti-TNF = anti–tumour necrosis factor; CD = Crohn’s disease; CDAI = Crohn’s Disease Activity Index; CRT = certolizumab; CS = corticosteroid; IC = indirect comparison; IFX = infliximab; IS = immunosuppressant; NAT = natalizumab; NR = not reported; PLA = placebo; TNF = tumour necrosis factor; VDZ = vedolizumab.
Source: Miligkos et al.61
The results of the NMAs for induction therapy are summarized in Table 52 and Table 53. The NMA conducted by Singh et al. included a biologic-naive population only and suggests no significant difference between vedolizumab and adalimumab, with an RR of 0.47 (95% CrI, 0.13 to 1.75), for inducing clinical remission in the induction phase. However, the NMA conducted by Singh et al. does provide estimates of effect favouring treatment with infliximab over vedolizumab for inducing clinical remission in the induction phase, with an RR of 0.23 (95% CrI, 0.06 to 0.78). Furthermore, the NMA conducted by Hazelwood et al. included a mixed population of participants with and without prior experience with TNF alpha antagonists and suggests no significant difference between vedolizumab and adalimumab or infliximab for inducing clinical remission, with an OR of 0.67 (95% CrI, 0.33 to 1.5) and 0.70 (95% CrI, 0.25 to 1.5), respectively.
Clinical Remission or Response in the Induction Phase.
Induction Phase Efficacy End Points in the Network Meta-Analysis Submitted to Nice.
The IDC conducted by Miligkos et al. included a mixed population of participants with and without prior experience with TNF alpha antagonists and suggests no significant difference between adalimumab and vedolizumab, with an OR of 1.27 (95% CI, 0.69 to 2.33), for inducing clinical response in the induction phase. However, the IDC conducted by Miligkos et al. does provide estimates of effect favouring treatment with infliximab over vedolizumab for inducing clinical response in the induction phase, with an of 2.81 (95% CI, 1.10 to 7.20). With regard to clinical remission in the induction phase, the IDC conducted by Miligkos et al. suggests no significant differences between both infliximab and adalimumab compared with vedolizumab, with ORs of 1.41 (95% CI, 0.74 to 2.67) and 1.09 (95% CI, 0.60 to 1.98), respectively.
The NMA submitted to NICE provided only ORs versus placebo and did not present any data indirectly comparing active treatments to vedolizumab. In the anti-TNF-naive population, the NMA submitted to NICE did provide estimates of effect favouring treatment with vedolizumab, adalimumab, and infliximab when compared with placebo for inducing clinical remission in the induction phase, with ORs of 0.29 (95% CrI, 1.5 to 6.0), 4.1 (95% CrI, 1.8 to 10) and 26 (95% CrI, 4.0 to 425), respectively. Similarly, estimates of effect favouring treatment with vedolizumab, adalimumab, and infliximab when compared with placebo were observed for both enhanced clinical response and clinical response in the induction phase.
The NMA submitted to NICE also provided results based on an anti-TNF–experienced/failure population. The results for this population suggest no significant difference between vedolizumab and placebo for inducing clinical remission in the induction phase (OR 1.4; 95% CrI, 0.8 to 2.6). However, the IDC submitted to NICE does provide estimates of effect favouring treatment with adalimumab over placebo for inducing clinical remission in the induction phase with an OR of 3.6 (95% CrI, 1.8 to 7.1). Similar to the anti-TNF-naive treatment population, estimates of effect favouring treatment with vedolizumab and adalimumab when compared with placebo were observed for both enhanced clinical response and clinical response in the induction phase for the anti-TNF–experienced/failure population.
The NMA submitted to NICE provided no information with respect to infliximab in the induction phase for the anti-TNF–experienced/failure population.
The results of the NMAs for maintenance therapy are summarized in Table 54 and Table 55. The NMA conducted by Singh et al. included a biologic-naive population only and suggests no significant difference between vedolizumab and adalimumab or infliximab for maintaining clinical remission in the maintenance phase, with RRs of 0.43 (95% CrI, 0.05 to 3.36) and 0.67 (95% CrI, 0.06 to 5.64), respectively. Furthermore, the NMA conducted by Hazelwood et al. included a mixed population including participants with and without prior experience with anti-TNF treatments and suggests no significant difference between vedolizumab and infliximab for maintaining clinical remission in the maintenance phase, with ORs of 0.77 (95% CrI, 0.39 to 1.5) and 0.70 (95% CrI, 0.25 to 1.5), respectively. However, the NMA conducted by Hazelwood et al. does provide estimates of effect favouring treatment with adalimumab over vedolizumab for maintaining clinical remission in the maintenance phase, with an odds ratio of 0.42 (95% CrI, 0.22 to 0.85).
Clinical Remission or Response in the Maintenance Phase.
Maintenance Phase Efficacy End Points in the Network Meta-Analysis Submitted to Nice.
The IDC conducted by Miligkos et al. included a mixed population of participants with and without prior experience with TNF alpha antagonists and suggests estimates of effect favouring treatment with infliximab and adalimumab over vedolizumab for maintaining clinical response in the maintenance phase, with ORs of 1.95 (95% CI, 1.03 to 3.70) and 2.23 (95% CI, 1.26 to 3.93), respectively. With regard to clinical remission in the maintenance phase, the IDC conducted by Miligkos et al. suggests no significant differences between infliximab compared with vedolizumab, with an OR of 1.61 (95% CI, 0.80 to 3.22). However, the IDC conducted by Miligkos et al. does provide estimates of effect favouring treatment with adalimumab over vedolizumab for maintaining clinical remission in the maintenance phase, with an odds ratio of 2.22 (95% CI, 1.20 to 4.09).
The NMA submitted to NICE provided only ORs versus placebo and did not present any data indirectly comparing active treatments to vedolizumab. In the anti-TNF–naive population, the NMA submitted to NICE did provide estimates of effect favouring treatment with vedolizumab and infliximab when compared with placebo for maintaining clinical remission in the maintenance phase, with ORs of 2.9 (95% CrI, 1.4 to 6.1) and 2.5 (95% CrI, 1.3 to 5.2), respectively. Similarly, estimates of effect favouring treatment with vedolizumab and infliximab were observed for maintaining clinical response in the maintenance phase when compared with placebo.
The NMA submitted to NICE provided no information with respect to adalimumab in the maintenance phase for the anti-TNF–naive population nor did it provide any information with respect to the maintenance phase for any biologics in the anti-TNF–experienced/failure population.
The results of the IDCs for safety are summarized in Table 56 and Table 57. The IDC conducted by Hazelwood et al. included a mixed population including participants with and without prior experience with anti-TNF treatments and suggests no significant difference between vedolizumab and adalimumab or infliximab in total withdrawals, with ORs of 2.1 (95% CrI, 1.0 to 4.6) and 1.3 (95% CrI, 0.57 to 2.9), respectively. When considering withdrawals due to adverse events, the NMA conducted by Hazelwood et al. suggests no significant difference between vedolizumab and adalimumab, with an odds ratio of 1.4 (95% CrI, 0.72 to 2.8). However, the NMA conducted by Hazelwood et al. does suggest a significant difference favouring treatment with vedolizumab over infliximab with respect to withdrawals due to adverse events, with an odds ratio of 0.24 (95% CrI, 0.12 to 0.51).
Total Withdrawals and Withdrawals Due to Adverse Events in Hazelwood et al.
Withdrawals Due to Adverse Events in the Network Meta-Analysis Submitted to NICE.
The IDC conducted by Miligkos et al. included a mixed population including participants with and without prior experience with anti-TNF treatments and suggests no significant difference between vedolizumab and infliximab or adalimumab with respect to adverse events, with ORs of 1.46 (95% CI, 0.75 to 2.84) and 0.75 (95% CI, 0.44 to 1.28) in the induction phase, and 0.83 (95% CI, 0.35 to 1.96) and 1.04 (95% CI, 0.54 to 2.04) in the maintenance phase, respectively.
The NMA submitted to NICE provided only ORs versus placebo and did not present any data indirectly comparing active treatments to vedolizumab. In the anti-TNF–naive population, the NMA submitted to NICE did provide significant estimates of effect favouring treatment with adalimumab when compared with placebo when considering withdrawals due to adverse events in the induction phase, with an OR of 0.0 (95% CrI, 0.0 to 0.7); however, vedolizumab was not associated with a significant difference with an OR of 1.4 (95% CrI, 0.3 to 7.4). In contrast, when considering the anti-TNF–experienced/failure population, the NMA submitted to NICE did provide estimates of effect favouring treatment with vedolizumab but not adalimumab when compared with placebo when considering withdrawals due to adverse events in the induction phase, with ORs of 0.4 (95% CrI, 0.1 to 0.9) and 0.5 (95% CrI, 0.1 to 2.4), respectively.
The NMA submitted to NICE also provided results based on an anti-TNF–naive population during the maintenance phase. The results for this population provide no significant estimates of effect for treatment with vedolizumab when compared to placebo when considering withdrawals due to adverse events in the maintenance phase with an OR of 0.8 (95% CrI, 0.3 to 2.7); however, infliximab was associated with a significant increase with an OR of 3.4 (95% CrI, 1.3 to 10.0).
| Adverse Events | Miligkos et al. |
|---|---|
| Vedolizumab (OR 95% Cl) | |
| Induction Phase | |
| IFX | 1.46 (0.75 to 2.84) |
| ADA | 0.75 (0.44 to 1.28) |
| CRT | 1.28 (0.85 to 1.92) |
| Maintenance Phase | |
| IFX | 0.83 (0.35 to 1.96) |
| ADA | 1.04 (0.54 to 2.04)) |
| CRT | 0.85 (0.46 to 1.55) |
ADA = adalimumab; CI = confidence interval; CRT = certolizumab; IFX = infliximab; OR = odds ratio.
Source: Miligkos et al.61
Summaries of the limitations and heterogeneities of the included NMAs are presented in Table 59 and Table 60.
Summary of Heterogeneities of Induction Studies Included in the Indirect Comparisons.
Summary of Heterogeneities of Maintenance Studies Included in the Indirect Comparisons.
The majority of trials for vedolizumab were conducted later than the trials for the comparators, particularly for infliximab (T16 concluded in 1996;82 ACCENT I concluded in 200167). It is possible that the clinical management of Crohn’s disease has evolved over the period since the introduction of the first biologic, introducing heterogeneity between the included studies.
Some of the studies included in the induction phase NMAs for infliximab, adalimumab, and vedolizumab utilized doses that are not reflective of the induction dosage regimens recommended in the Canadian product monographs (e.g., T1682). These below-recommended dosages of active treatment may bias the study results in favour of vedolizumab for efficacy end points and against vedolizumab for safety end points. In the induction phase in some of the studies included in the NMAs, for maintenance end points, patients in the placebo groups received varying amounts of active treatment prior to randomization. For example, patients in the placebo group of ACCENT I67 received only a single infusion of active treatment (i.e., at week 0) compared with the two infusions of active treatment in the GEMINI II28 trial (i.e., at weeks 0 and 2). This difference in exposure is a significant source of heterogeneity across trials included in the NMAs and could contribute to the differences in placebo-response rates.
Although the dosing in at least one treatment group of the maintenance phase of the adalimumab trials was consistent with recommendations in the Canadian product monograph, the doses provided in the induction phase of the maintenance trials were below the recommended doses: patients in CHARM,86 CLASSIC II,54 and Watanabe85 could have also received suboptimal induction doses. Similar to the infliximab comparison, these differences in exposure to active treatment within the placebo groups is a significant source of heterogeneity between the vedolizumab and adalimumab trials and could contribute to the reduced placebo-response rates reported in the CHARM86 and Watanabe85 trials compared with those reported in GEMINI II.28 For all safety comparisons, using less than the recommended doses of Crohn’s disease treatment could underestimate the comparative harms associated with these treatments (with the exception of those associated with disease exacerbation).
Induction of clinical remission was evaluated at four weeks in the adalimumab and infliximab trials and six weeks in the vedolizumab trials. In addition, the efficacy end points in the maintenance phase studies were also evaluated at different time points (46 weeks with vedolizumab, 52 weeks with infliximab, and 52 to 56 weeks with adalimumab). Given that patients who failed to complete the trials were considered to be nonresponders in all of the included studies and that the proportion of patients who withdrew for any reason (including loss of efficacy and patients who were lost to follow-up) increases with time, having an earlier end point evaluation in the maintenance phase could favour vedolizumab treatment compared with the alternatives.
The population of interest for the current CDR submission is patients with moderately to severely active Crohn’s disease who have had an inadequate response to alternative therapies (as per the indication under review for vedolizumab). Mean baseline CDAI scores for the induction phase studies were all within the moderate to severe range and were generally similar across the different studies. However, there is substantial heterogeneity in the characteristics of the different study populations, including clinically relevant parameters such as prior exposure to TNF alpha antagonists and concomitant use of Crohn’s disease treatments.
Patients were enrolled in the maintenance phase studies only if they had demonstrated a response to the active treatment in the induction phase. This introduces variation within the placebo groups across the studies, as the patients who were randomized to receive placebo in the maintenance phase had been previously treated with a different biologic therapy (e.g., vedolizumab, adalimumab, or infliximab). There were also differences in the placebo-response rates for maintaining clinical remission across the studies. The reason for these differences in the baseline risk for inducing and maintaining clinical remission is unclear; however, the manufacturer of vedolizumab has suggested that the differences in the maintenance phase could be attributed to the longer-lasting effect of vedolizumab compared with the TNF alpha antagonists (i.e., remission induced as a result of vedolizumab treatment is maintained longer than remission induced with the TNF alpha antagonists following removal of active treatment). Overall, these differences are an important source of between-study heterogeneity, and the implications for the results of the NMAs are unclear.
The placebo-response rate for inducing clinical remission was lower in the infliximab trials compared with the trials for vedolizumab and adalimumab. Similar to the maintenance phase analyses, the reasons for the differences in placebo-response rates are unclear for the induction phase.
As infliximab was the first biologic to be approved for use in the treatment of Crohn’s disease, all patients enrolled in the infliximab trials were naive to biologic therapy for Crohn’s disease. In contrast, the study populations for many of the other trials used in the NMAs were composed of a mix of treatment-naive and treatment-experienced patients who had previously failed at least one TNF alpha antagonist. In addition, a significant proportion of the patients in the vedolizumab trials had failed treatment with two TNF alpha antagonists, and a small proportion had failed treatment with three TNF alpha antagonists. Some of the adalimumab trials included patients with prior exposure to TNF antagonists, although few would have failed multiple TNF alpha antagonists as those enrolled in the vedolizumab trials. These differences in prior exposure to biologic therapy for Crohn’s disease may be clinically relevant and may be an indication that the study populations included in the vedolizumab trials are composed of patients with Crohn’s disease that is more refractory to treatment.
In general, there were differences between the induction studies and maintenance studies in the proportion of patients using concomitant Crohn’s disease treatments at baseline. Overall, there is insufficient evidence to evaluate whether or not these across-trial imbalances in concomitant Crohn’s disease treatment usage could influence the results of the IDCs, particularly in the induction phase analyses, where the differences were most pronounced.
The methods for the literature search were incomplete in the NMA conducted by Hazelwood et al. and in the IDC conducted by Miligkos et al., which were missing information about the reporting strategy. Furthermore, the NMA submitted to NICE and the NMA by Hazelwood et al. as well as the IDC by Miligkos et al. lack any description about how definitions of moderate to severe Crohn’s disease were considered in the study selection process. The NMA submitted to NICE did not provide a description of whether or how study durations were considered in the study selection process. In addition, the IDC conducted by Miligkos et al. appears to base the systematic review on published literature only, and makes no reference to the utilization of unpublished materials, which can lead to publication bias.
The methodological descriptions of the Bayesian analyses were adequately reported in the all of the NMAs. Both direct (placebo comparisons) and indirect (active comparisons) estimates of effect are presented in the NMAs conducted by Singh et al. and Hazelwood et al.; however, the NMA submitted to NICE lacked the indirect (active comparisons) estimates of effect and reported only comparisons against placebo. The results of the NMAs for both efficacy and safety end points were adequately reported in summary tables, as RRs or ORs with 95% CrIs. In contrast, the methodological descriptions of the Bucher analyses were inadequately reported in the IDC conducted by Miligkos et al. The methods sections in the IDC conducted by Miligkos et al. lack any description about the Bucher analyses used to evaluate the results from the pooled trials included in the analysis. In addition, when considering trials with multiple active treatment arms, the IDC by Miligkos et al. combines the multiple treatment arms regardless of the dosing regimen in the evaluation of the pooled efficacy and safety, creating uncertainty in the overall dose-effect relationship. Furthermore, it appears that some of the included trials in the IDC by Miligkos et al. did not include consistent definitions for the measured outcomes (i.e., adverse events as defined in each of the included trials may have been different); consequently, any interpretation based on the pooling of safety outcomes must be made with caution, as this may not have been appropriate given the variation in definitions for safety outcomes. The results of the IDC for both efficacy and safety end points were adequately reported in summary tables, as ORs with 95% CIs.
Four published NMAs in which vedolizumab was compared with infliximab and adalimumab were identified. Overall, there was substantial heterogeneity with respect to study design and patient characteristics (e.g., follow-up duration, treatment doses, TNF alpha antagonist experience, and placebo-response rates) across the studies included in the NMAs, making any comparisons of relative efficacy in inducing and maintaining clinical remission of vedolizumab versus infliximab and adalimumab difficult. Given the limitations, the comparative efficacy of these agents is uncertain in both the induction and maintenance phases of treatment.
Except where otherwise noted, this work is distributed under the terms of a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International licence (CC BY-NC-ND), a copy of which is available at http://creativecommons.org/licenses/by-nc-nd/4.0/
Your browsing activity is empty.
Activity recording is turned off.
See more...
