Abstract
The introduction of biological agents has revolutionized the management of many life-threatening and debilitating immune-mediated diseases. Because of the high cost of biological drugs and their patent expiration, the market has opened to biosimilar agents, copy versions of the originators, which can lead to reduced health care expenditure and increase treatment access worldwide. CT-P13 is the first biosimilar of infliximab (IFX) and has been approved for the same indications as its originator drug. It obtained regulatory approval by the European Medicines Agency in September 2013 and by the US Food and Drug Administration in April 2016. The Phase I and Phase III clinical trials conducted in ankylosing spondylitis and rheumatoid arthritis have demonstrated pharmacokinetic and efficacy equivalence with comparable safety and immunogenicity to IFX. For these reasons, the use of CT-P13 has been extrapolated also to inflammatory bowel disease. There have been some initial concerns regarding the use of CT-P13 in inflammatory bowel disease patients, because of the lack of randomized controlled trials. However, emerging real-world data have further confirmed the comparability between CT-P13 and its reference product in terms of efficacy, safety, and immunogenicity, in patients naïve to the anti-tumor necrosis factor alpha agents and after switching from IFX, and will be summarized in this review.
Introduction
Inflammatory bowel diseases (IBDs), which include Crohn’s disease (CD) and ulcerative colitis (UC), are chronic immune-mediated inflammatory gastrointestinal disorders that lead to impaired quality of life, disease complications, and frequent surgery and hospitalization.Citation1,Citation2 They represent a global public health problem, and their prevalence is expected to increase because of the earlier age of onset and lower mortality rate of patients. Considering their social and economic long-term burden, the accurate control of these diseases is essential.
The introduction of biological therapies >15 years ago, such as the anti-tumor necrosis factor alpha (anti-TNFα) monoclonal antibodies (mAbs), has led to the achievement of important therapeutic targets although increasing the direct costs.Citation3 These treatments induce mucosal healing (MH), prolonged periods of remission, and improve quality of life, leading to the reduction of hospitalizations and surgery.Citation4 However, the high cost of biological drugs and their patent expiration have led to the development of biosimilar agents.Citation5 They may lead to significant cost savings and consequently larger access to biologicals with affordable cost of care.Citation6
CT-P13 has been the first mAb biosimilar evaluated by European Medicines Agency (EMA), and today over 34,000 patients in >40 countries worldwide have been treated with this drug.Citation7 This review focuses on the development of the CT-P13 and on the main studies that have supported its use in IBD patients.
Biologics and biosimilars
Biologics are defined as active substances derived from living cells or organisms with the aid of biotechnology methods (recombinant DNA, controlled gene expression, antibody technologies).Citation8 The first generation of biologics was launched in the late 1970s and early 1980s, and this class of drugs is now one of the fastest growing sectors of the pharmaceutical industry.Citation9 The high price of biological agents and their recent or impending patent expiration has led to development of similar versions of these drugs, called “biosimilar agents.” The World Health Organization defines a biosimilar as a “biotherapeutic product which is similar in terms of quality, safety and efficacy to an already licensed reference biotherapeutic product.”Citation10 Biosimilars may differ from the original reference drug, in particular for post-translational modifications like glycosylation, which are specific to the individual production process, but differences are acceptable if the final molecule falls within defined “boundaries of tolerance”: variations in some features of the 2 molecules are only considered important if they are clinically relevant.Citation11,Citation12 However, considering their size and complexity, biosimilars of biologic molecules require a more complex development and regulatory assessment than small-molecule generics to ensure that their safety and efficacy are similar to that of the original product. A comparability exercise is required to demonstrate biosimilarity.Citation13,Citation14 Approval of a biosimilar by the US Food and Drug Administration (FDA), Health Canada, and EMA includes extensive in vitro studies demonstrating similarity to a reference product in terms of quality features, as well as nonclinical and clinical studies demonstrating comparable pharmacokinetics, efficacy, safety, and immunogenicity.Citation15–Citation17 Subsequently, given that clinical efficacy of the reference drug has already been established, the nonclinical and clinical studies required for approval of a biosimilar could be reduced, and the extrapolation of data from one indication to another allows the approval for all indications held by the original drug.Citation18,Citation19 Indeed, EMA, FDA, and Health Canada have allowed the extrapolation, based on a number of comparability exercises although with no clinical data for all indications.Citation20
Infliximab (IFX; Remicade™) and its biosimilar agent CT-P13
The anti-TNFα IFX was the first biologic agent used to treat IBD patients, and it is still widely used in these diseases. IFX is a chimeric human-murine mAb against the pro-inflammatory cytokine TNFα. Several multicenter, randomized, double-blind clinical trials have established the efficacy and safety of the IFX in the treatment of IBD.Citation21–Citation23 The management and the dosage of IFX in CD patients are supported by the results of the ACCENT I study, while the main experience with IFX in UC is based on the pivotal ACT trials; ACT I and ACT II demonstrated that IFX induces clinical remission, MH, and steroid sparing in UC patients.Citation24,Citation25
CT-P13 (Inflectra-Hospira, Lake Forest, IL, USA; and Remsima-Celltrion, Incheon, South Korea) is the first biosimilar agent of IFX. In 2012, it has been authorized for the treatment of autoimmune diseases and IBD in India and South Korea.Citation26
CT-P13 has the same amino acid sequence, is produced by the same type of cell line (Sp2/0-AG1 purchased from ATCC, Manassas, VA, USA), and has the identical pharmaceutical form, composition, and same route of administration as the reference IFX.Citation27 In the EU, South Korea, and Japan, CT-P13 received approval for the same therapeutic indications as reference IFX, including rheumatoid arthritis (RA), ankylosing spondylitis (AS), CD, UC, psoriatic arthritis, and psoriasis.Citation28,Citation29 In April 2016, CT-P13 was also approved for the treatment of IBD by the US FDA with the generic name IFX-dyyb, becoming also the first biosimilar mAb to be licensed in the US.Citation30 The extrapolation to IBD was initially held by Health Canada because of differences between CT-P13 and IFX observed in vitro, potential differences in the mechanism of action of IFX in these conditions, and the lack of clinical studies, but has been recently approved.Citation31,Citation32
Clinical and nonclinical evaluation of CT-P13
Regulatory approval of CT-P13 was based on nonclinical and clinical comparisons with the IFX. As required by EMA, nonclinical evaluation includes pharmaco-toxicological analysis, while clinical evaluations include pharmacokinetic, pharmacodynamic, and efficacy studies and clinical safety studies also regarding the immunogenicity property of the biosimilar.Citation33
Nonclinical evaluation
Several in vitro studies have demonstrated that CT-P13 and IFX have a comparable primary pharmacodynamic: CT-P13 and IFX showed very similar binding affinities for soluble monomeric and trimeric forms of TNFα and transmembrane TNFα and for the Fcγ receptors FcγRI, FcγRIIa, and FcRN.Citation34 A difference in relative binding affinities for FcγRIIIa was found, but after additional analysis with serum of CD patients, it was seen that the difference does not influence biological activity and does not have clinical relevance for the efficacy and safety of CT-P13. CT-P13 and IFX are also comparable in terms of the lack of binding activity to TNFβ and TNFα from different species known not to bind to infliximab and in terms of relative binding affinities to complement protein C1q. They are also comparable when considering complement-dependent cytotoxicity effects and apoptotic effects against a Jurkat T-cell line expressing TNFα. Pharmacokinetic analysis comparing CT-P13 and IFX and repeat-dose toxicity studies of intravenous CT-P13 have been conducted in rats: the pharmacokinetics of 2 drugs at the doses of 10 and 50 mg/kg in rats were similar, and there were no toxicity concerns with CT-P13.Citation35
Some minor differences, compared to IFX, including FcγRIIIa receptor binding, the level of α-fucosylation and some antibody-dependent cell-medicated cytotoxicity (ADCC), have been recorded.Citation36 However, the initial differences observed on ADCC were only seen in vitro by using target cells overexpressing membrane TNF and by using enriched natural killer cells from CD patients with the high-affinity genotypes of the FcR. When ADCC activity was tested by using more physiologic cells, such as whole blood or isolated peripheral blood mononuclear cells, the difference in fucosylation for CT-P13 and the innovator drug did not impact ADCC; therefore, the clinical significance of these differences is questioned.Citation37
Clinical evaluation
Data on the efficacy and safety of CT-P13 come from 2 randomized controlled trials (RCTs) in rheumatic disease, which demonstrated pharmacokinetic and efficacy equivalence and comparable safety and immunogenicity of CT-P13 and IFX in patients with active RA or AS.Citation38–Citation41
In the first (randomized, Phase I, double-blind) study (PLANETAS), efficacy and safety of CT-P13 and IFX 3 mg/kg were compared in 250 patients with AS. At 30 weeks, the pharmacokinetic profiles of the 2 agents (the primary outcome of the trial) were considered equivalent; CT-P13 and original IFX also displayed comparable efficacy and safety profiles.
The second (Phase III, double-blind) trial (PLANETRA) was conducted in 604 patients affected by RA with active disease despite methotrexate (MTX) treatment (12.5–25 mg/week). They were randomized to receive 3 mg/kg of CT-P13 (Remsima) (n=302) or IFX (n=302) with MTX and folic acid. At 30 weeks, the 2 treatment groups presented similar rates of the American College Rheumatology 20% responses (the primary end point of the trial), drug-related adverse events, and anti-drug antibodies (ADAs).
Extension studies of these 2 RCTs have also demonstrated that the treatment efficacy, safety, and immunogenicity were not affected when patients were switched from reference product (RP) to CT-P13 at week 54 of treatment and followed up to week 102.Citation42,Citation43 However, the number of mild or moderate treatment-emergent adverse event and rate of ADAs seem to be slightly higher in patients switching therapy than in patients continuously treated with CT-P13 in AS patients and not in AR patients, suggesting that safety and immunogenicity after switching from an originator product to biosimilar could be influenced by different kinds of patient populations.
It is well known that immunogenicity is common in most biologics including IFX. It is associated with the loss of response, infusion reactions, and other adverse events.Citation44 The degree of immunogenicity is not the same for all biologics, and only minor differences in the formulation, purity, or packaging of a biological drug can affect its immunogenicity profile. In both PLANETAS and PLANETRA studies, ADAs against CT-P13 and IFX were measured with similar findings for the 2 agents. During the extension phase, ADA incidence was comparable between maintenance and switch groups and did not increase significantly.
CT-P13 in IBD
The overall comparability testing of CT-P13 to IFX has led to the extrapolation of CT-P13 approval to all other indications for which reference IFX is approved, including IBD; however, when CT-P13 received the approval, its use in IBD was supported by data reported in the rheumatological trials and only by a small study of 25 IBD patients and some in vitro experiments. This has initially led to some concerns regarding the use of CT-P13 in IBD patients. It has been largely established that the efficacy of a biologic drug in IBD cannot be always predicted by effectiveness in other indications, such as RA.Citation45 In addition, the dose of infliximab for IBD, 5 mg/kg, is different from that used for RA, 3 mg/kg. Moreover, biological drugs are more often used as monotherapy in IBD compared with rheumatic diseases. The concomitant use of MTX in the PLANETRA study may have reduced the risk of immunogenicity, compromising the validity of extrapolation of safety and efficacy data. Finally, the exact downstream effects of anti-TNFα agents in rheumatological diseases and in IBD are potentially different, and the immunogenicity of the biosimilar compared to originator could probably be different in different clinical settings.Citation46 Regarding the mechanism of action, in RA IFX is thought to act predominantly through the neutralization of soluble and transmembrane TNFα; in other diseases, like CD, signaling through membrane-associated forms of TNFα and Fcg receptor (triggering apoptosis or ADCC) may play a more important role.Citation47,Citation48 For all these reasons, extrapolation across indications is not well established for biosimilars, and the following post-marketing studies have been crucial to provide useful insights into its efficacy and safety and to further support the use of CT-P13 in IBD patients.
CT-P13: post-marketing experience in IBD
An open-label, retrospective, multicenter study has evaluated the safety and the efficacy of CT-P13 (Remsima®) in 173 patients with IBD in South KoreaCitation49 (). In total, 60 patients switched from the IFX to CT-P13 and 113 patients were biologic naïve. Treatment-related adverse events (TEAEs) occurred in 10% of patients and were mostly mild-to-moderate in severity, and no significant differences were observed in TEAE incidence between naïve patients and the switch group. The study reports positive outcomes for response and remission, confirming that CT-P13 was well tolerated and efficacious in patients with IBD.
Another retrospective multicenter study from South Korea has evaluated CD and UC patients treated with IFX biosimilar (both IFX-naïve patients and patients who switched to CT-P13 from its originator) by using Crohn’s Disease Activity Index and partial Mayo score.Citation50 In CD and UC IFX-naive patients, clinical response and remission were obtained in 85% and 58% at week 8, in 93% and 62% at week 30, and in 95% and 60% at week 54, respectively. There was also a significant reduction in C-reactive protein (CRP) from baseline to week 30 in both the patient groups. After switching from IFX, the efficacy of CT-P13 was maintained in 93% and 67% of CD and UC patients, respectively, and only 2 CD patients and 1 UC patient stopped therapy after the switch because of lack of efficacy, suggesting that CT-P13 may be interchangeable with its originator in IBD patients.
A case series of 17 IBD patients (8 CD and 9 UC) has been conducted in a tertiary center in South Korea.Citation51 Although the sample size was too small to allow statistical comparison and despite several limitations of this study, the results on the efficacy of CT-P13 are comparable to those of earlier controlled trials.
A prospective observational study was conducted in Czech Republic in 52 IBD patients treated with 5 mg/kg CT-P13 for up to 14 weeks: there were statistically significant improvements in Crohn’s Disease Activity Index, and CRP serum levels after 14 weeks of therapy, and body weight increased, confirming the effectiveness of CT-P13 in IBD.Citation52
Recently, a study has also evaluated the efficacy of CT-P13 induction therapy on MH in UC patients, demonstrating that MH is achieved in two-thirds of UC patients at the end of the induction treatment with CT-P13.Citation53
Even if most of the reported studies demonstrate no differences between biosimilar IFX and the originator, contrasting data were reported by a single study in abstract form, which has showed higher rates of surgery and more difficult disease control in patients treated with CT-P13 compared with those treated with IFX RP. However, the 2 cohorts included different kinds of patients in different study periods; rates of response and remission were not reported, and no descriptions of baseline characteristics are available.Citation54
A Hungarian prospective, multicenter, observational study has evaluated 210 IBD (126 CD and 84 UC) patients. Twenty-two percentage of CD patients and 10% of UC patients had previously received therapy with the originator IFX, but not during the last 12 months.Citation55 In this study, therapeutic drug levels were monitored, and ADAs were measured by using conventional and bridging enzyme-linked immunosorbent assay (ELISA) methods. This study showed that CT-P13 induces and maintains high clinical remission and response rates in both CD and UC patients up to week 30, while early response and remission rates were significantly different between patients previously exposed to the IFX as compared with the naïve patients. This was associated with significantly higher baseline ADA positivity in both CD and UC patients previously exposed to the originator drug. In conclusion, this study showed that patients with previous IFX exposure had a tendency toward lower early mean trough levels of the drug, decreased response rates, and more frequent allergic reactions.
Another Hungarian observational, prospective study has enrolled 39 IBD (18 CD and 21 UC) patients to evaluate efficacy, safety, and immunogenicity of CT-P13.Citation56 Immunogenicity was determined in half of the patients by determination of serum IFX and ADA levels, and a significant difference was found between patients who had developed ADAs or not. The study reported a mild arthralgia and an anaphylactic reaction after the second infusion of CT-P13 in a patient with high ADA levels and previously treated with the originator IFX.
A prospective observational study performed in a single center in Norway has evaluated the efficacy, tolerability, and safety of CT-P13 in 78 patients with moderate-to-severe disease (46 CD, 32 UC).Citation57 A total of 18 patients had previously been treated with TNFα inhibitors, without direct switching from IFX. In this study, CT-P13 was effective in both CD and UC patients, achieving similar clinical responses to those observed with the original IFX in large randomized studies, without unexpected adverse events. Immunogenicity, considered as the combination of ADA formation and a trough level of 0 mg/L, was seen in 8 patients (4 CD and 4 UC), and it led to discontinuation of treatment in 7 patients.
A German single-center study has evaluated the role of drug monitoring in IBD patients treated with biosimilar of IFX; this study included 86 IBD patients treated with IFX and 33 treated with CT-P13.Citation58 In the study, CT-P13 serum levels, IFX serum levels, and ADA serum levels were measured in both groups to investigate the possible differences in anti-drug immunogenicity. No significant differences in anti-drug immunogenicity in patients receiving Remsima or Inflectra and Remicade have been demonstrated, thus confirming the feasibility of drug monitoring in IBD patients treated with the IFX biosimilar CT-P13. Another recent study has demonstrated that anti-Remicade antibodies in IBD patients recognize and functionally inhibit Remsima to a similar degree, suggesting similar immunogenicity profile.Citation59
Recently, the clinical outcome of 547 IBD consecutive patients (313 CD and 234 UC) enrolled from 31 referral centers has been reported; 311 patients were naive to anti-TNFα agents, 139 had a previous exposure to biologics, and the remaining 97 were switched to CT-P13 after a mean of 18±14 infusions of IFX.Citation60 The mean follow-up was 4.3±2.8 months, and the total follow-up time was 195 patient-years. The efficacy of the biosimilar was evaluated in 434 patients who received treatment for at least 8 weeks, by using time-to-event methods for censored observations: 35 patients were primary failures (8.1%). After further 8, 16, and 24 weeks, the efficacy estimations were 95.7%, 86.4%, and 73.7% for naive; 97.2%, 85.2%, and 62.2% for pre-exposed; and 94.5%, 90.8%, and 78.9% for switch, respectively (log-rank P=0.64). Sixty-six serious adverse events were reported (12.1%), 38 (6.9%) of them were infusion-related reactions. Although no direct comparison was performed, preliminary data of the largest cohort of IBD patients treated with CT-P13 described so far demonstrate that the efficacy and safety were in line with those of IFX.
Switching and alternation of biosimilars
Following approval of biosimilars, it was important to evaluate the possibility to alternate or switch from the original product to the biosimilar or vice versa in clinical practice or also to switch between different biosimilars. However, concepts of interchangeability and switchability have not been sufficiently studied not only in the context of biosimilars but also with originator biologics in general.
According to the US FDA, an interchangeable biological product refers to a biosimilar that “meets additional standards for interchangeability” and “may be substituted for the reference product by a pharmacist without the intervention of the health care provider.”Citation61 Currently, no biosimilar agents have received approval for “interchangeable” status and interchangeability cannot be supported for any biosimilar. The “interchangeability” should be distinguished from the “transition” or switching that is the physician’s decision to switch between a reference biologic (RP) and its biosimilar, or vice versa. With regard to single switching from original drug to biosimilar CT-P13 during maintenance therapy, positive evidence came from clinical trials and real-world cohorts, demonstrating no new safety signals or immunogenicity changes. In contrast, multiple repeated transitions between a RP and its biosimilar or other biosimilars of the same RP are not recommended due to lack of data about the safety.
The effects of switching to CT-P13 from original IFX have been investigated in a small prospective observational study from Poland in 39 pediatric IBD patients (32 CD, 7 UC).Citation62 In the CD group, 69% were in remission at the time of switching and 31% had mild-to-moderate disease activity. After a further mean follow-up period of 8 months after switching, 88% of the patients were in clinical remission. Remission was also observed in some UC patients, although this subgroup was too small for reliable efficacy comparisons. Adverse event rate did not differ significantly before and after the switch from IFX to CT-P13. This study has several limitations such as the small sample size, the heterogeneity of time of switching during therapy, and the great variation in length of the individual follow-up period, but it demonstrates that switching from IFX to CT-P13 seems to be well tolerated in children with CD ().Citation60,Citation63–Citation65
The Norway government have commissioned a clinical trial, the NOR-SWITCH study (ClinicalTrials.gov NCT02148640), which is a randomized, double-blind, parallel-group, noninferiority study that compares the originator IFX with CT-P13 in patients with 6 immune-mediated inflammatory diseases, including RA, spondyloarthritis, psoriatic arthritis, UC, CD, and chronic plaque psoriasis.Citation66 This study assesses the safety, efficacy, and the immunogenicity of continued originator IFX treatment compared to the switching from originator IFX to CT-P13 in about 500 patients with immune-mediated disease. Patients enrolled have been in a stable remission with IFX RP for at least 6 months prior to inclusion; then they receive an equivalent dose of CT-P13 or continue to receive originator IFX for additional 52 weeks. The primary study end point is disease worsening that is defined in CD as an increase in Harvey Bradshaw Index of ≥4 points from randomization and a minimum HBI score of 7 points and in UC as an increase in partial Mayo score of ≥3 points from randomization and a minimum partial Mayo score of ≥5 points. The preliminary results were presented during the recent United European Gastroenterology Week in Vienna: all reported end points (disease worsening, incidence of ADAs, frequency of adverse events) have confirmed the noninferiority of the biosimilar versus the originator.Citation67 However, the NOR-SWITCH study has significant design limitations. The variety of included patients is both a strength of the study, with results applicable to a larger number of patients and diseases which already represent an indication of the drug. However, this variety is also a weakness. The study lacks clarity in definitions, including inclusion/exclusion criteria, end points, and use and impact of concomitant medications.
Ongoing studies – Phase III
Some Phase III studies of CT-P13 in IBD patients are still ongoing. A randomized parallel-group, Phase III study (ClinicalTrials.gov identifier: NCT02096861) should be completed in February 2017, and it will investigate the efficacy and the safety of CT-P13 in patients with active CD. A global registry study in IBD has also been initiated (ClinicalTrials.gov identifier: NCT02326155), and it will be completed in 2026. The study is recruiting adults or children aged ≥6 years with active CD and adults with fistulizing CD or UC. The main aim is to monitor the safety of CT-P13 in IBD patients, but efficacy and health economic parameters will also be assessed during the study.
Conclusion
CT-P13 has been largely evaluated in immune-mediated diseases, particularly in rheumatologic diseases, where it has demonstrated its equivalency in terms of efficacy and safety compared to the original product Remicade. Its adoption can lead, as for the other biosimilar agents, to cost savings with larger access to biological therapies. Emerging results from prospective observational studies support the short-term clinical efficacy and safety of CT-P13 in patients with IBD, including those who switched from the originator IFX. However, implementation of national registries of IBD patients on biological therapies and prospective long-term real-world data on clinical efficacy and safety are awaited.
Acknowledgments
The authors sincerely thank Dr Andrew Jamieson MB ChB(Hons) BSc(Hons) PhD FRCPGlasg for a careful review of English text for syntax, grammar, and spelling mistakes.
Disclosure
The authors report no conflicts of interest in this work.
Notes
SD performed literature search and wrote the first draft; TG performed literature research, wrote and reviewed the article; VA designed and coordinated the review, and revised the final draft of the manuscript. All authors contributed toward data analysis, drafting and critically revising the paper and agree to be accountable for all aspects of the work.
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