Introduction
In 2021, the European Union (EU) adopted the Regulation on Health Technology Assessment (EU HTAR), which introduces a framework enabling work sharing between HTA bodies through Joint Clinical Assessment (JCA). The overall aim is to reduce duplication of efforts, strengthen HTA quality, and foster faster patient access and sustainable long-term HTA cooperation across the EU [1].
The JCA process is linked to the procedural timetables of the EU centralized marketing authorization process (Supplementary Figure 1) [2]. Key milestones for the JCA process, according to HTAR and the adopted Commission Implementing Regulation [3], and the respective timepoint in the regulatory process, are:
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1) The JCA scoping which starts, when the regulatory review process starts, with a PICO (population, indication, comparator, and outcomes) survey being sent to all EU Member States.
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2) The JCA dossier submission by the health technology developer (HTD), which takes place 100 days after receiving the adopted assessment scope, however at the latest by 45 days before the opinion from the Committee for Human Medicinal Products (CHMP) of the European Medicines Agency (EMA) is finalized. While this could in principle be during the second clock stop after day 180 of the regulatory review process, due to uncertainty whether there will be a second clock stop and its length (that is will the regulators request more information and how long it will take for the applicant to respond), companies are forced to submit latest at day 165. Otherwise, there is a risk of not meeting the legal deadline.
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3) The JCA report generation and publication, which takes place 30 days after the Commission Decision granting marketing authorization.
The proposed therapeutic indication plays a central role in the JCA assessment scope because it defines the target population for whom the benefit–risk balance is expected to be positive and thus, defines the starting point for the PICO survey. The final wording is subject to the regulatory assessment process and should be justified scientifically in the benefit–risk section of the CHMP assessment report and therefore usually reflects the clinical trial evidence [4]. The inclusion and exclusion criteria for patients in clinical studies, patient characteristics, as well as the prespecified disease-relevant stratification factors and subgroups are considered for the indication wording. Regulatory bodies may interpret the clinical trial findings differently, which may in some cases lead to diverging regulatory decisions or approved indications in different jurisdictions [Reference Rohr, Iovine and Rudofsky5]. The deliberative process for the indication is reflective of the proposed indication and supporting evidence and is an ongoing scientific dialogue between the regulators and the developer until the CHMP has adopted its opinion.
The JCA assessment scope determines the content of the dossier and informs all subsequent activities. It is important that the final indication is well reflected in the PICO survey to ensure the JCA report can be used in reimbursement decisions at the national level [Reference Willemsen6]. The legal framework for the HTAR dictates that the assessment scope as well as the dossier generation and submission will take place before the final therapeutic indication has been adopted by the CHMP, incorporating the inherent uncertainty of the final indication. This has been indicated as one of the most challenging areas to navigate successfully in the future system [Reference Behring7]. The first exercises to test the PICO survey by the HTA bodies resulted in up to 6 populations, 11 comparators and 15 outcomes [8–10]. In a similar exercise, the pharmaceutical industry came to up to 10 populations and up to 23 comparators in their selected case studies [11]. The European Commission has clearly indicated its intention to reduce the number of PICOs to the lowest level agreeable to reducing the workload for both the applicants and the JCA assessors, while still meeting the needs of all Members States.
The JCA scoping activity starts with the proposed indication from the HTD. The final scope is reviewed, with consideration of the first list of questions (LoQ) from the regulators at day 120. The assumption is the number of PICOs could be reduced based on the list of questions as a predictor of the population included in the final indication. During the early phase of regulatory review, the rapporteur and corapporteur assess the proposed indication against the evidence provided and may independently propose changes in their Day 80 rapporteur assessment [12]. If an amendment to the indication is proposed or there are questions on the submitted evidence, the HTD can argue against the amendment in their responses to this LoQ. While the details of deliberation processes on indications amongst European regulators are not available in the public domain [Reference Bujar13], it is understood that the regulators pose questions on the evidence supporting the proposed indication for every marketing authorization application.
Potential changes to the therapeutic indication during the regulatory assessment process have been a subject of major concern and discussion among HTA bodies particularly in terms of the JCA scoping process [Reference Behring7]. The adopted Implementing Regulation on the JCA procedure outlines in Article 16 the consequences of therapeutic indication(s) changes. The JCA Subgroup would decide if the JCA process could be continued or should revert back to the starting point. If the process is reverted, it would trigger a new revised PICO scoping process, the development and submission of a revised JCA dossier and, (depending on when this happens), the generation of a revised JCA report [3]. Such a “scenario of reversion” would lead to significant delays in the JCA process at EU level, and at the national level as Member States are obligated to take it under due to consideration in national HTA decision-making [2, 14]. This thereby would delay patient access, the opposite of one of the goals of the new regulation.
We therefore wanted to understand how often indications change, how these changes may impact the JCA scoping process, and explore alternative management processes to mitigate delays in the EU level process. It is critical that the new process enables timely and predictable national appraisal processes and ultimately access to new medicines for patients.
Methods
Product Identification for the Study
We included all oncology and advanced therapy medicinal products (ATMPs) with new active substances (NAS) that recently underwent the European Medicines Agency’s (EMA) Marketing Authorization assessment procedure in our study because those product categories will be the first to enter the new JCA process. The sample size was gathered from the time periods between 2017 and January 2024 in the case of ATMPs. For NAS in oncology, the period is 2020 and January 2024. Of note, ATMPs included all therapeutic areas to have the biggest possible sample size, while for oncology the most recent approvals were considered most representative. Generics and Biosimilars have not been included as they are out of scope for EU HTAR. Also, conditionally approved products have not been considered because we aimed to investigate a standard situation as it would apply to the majority of new products. Recently new regulatory approvals were identified from the Committee of Advanced Therapies (CAT) quarterly highlights and the approved ATMPs report [16] and through the EMA Human Medicines highlights monthly newsletters [15] respectively. Through the CAT quarterly highlights, we identified 15 ATMPs that were most recently approved by the EMA between July 2017 and January 2024. After the redaction of generics, biosimilars, conditional approvals, and duplicates for ATMPs, we identified twenty-seven oncology products that were approved as NAS by the EMA between November 2020 and January 2024 from the EMA monthly newsletter. The period was considered suitable to provide representative insights into the patterns related to indication changes. The proposed and final approved indications were sourced from the respective European Public Assessment Report (EPAR) published under the Assessment history section on the EMA Web site for each product.
Categorization of Types of Indication Changes and Applied Definitions
The proposed and final indication wording were compared, and where indication wording differences were identified, changes were categorized as “wording clarification” or “change to eligible population”. To understand the way in which indications change, the changes observed were grouped into the four following themes: “specific prior therapy’, “focused population”, “later treatment line”, and/or “population expanded”. Individual products could be allocated to more than one theme due to the fact that some indications were found to change in more than one way. To conduct a risk assessment for the PICO, we first captured how the indication change could impact the resulting eligible population in clinical practice, and secondly, assessed the associated risk of the specified change for the PICO and JCA. The themes for how indications changed had captured what the change had been. Therefore, in order to explore how the resulting population would be impacted, the products with indication changes underwent a second review. For each product, it was captured whether the indication change was expected to add or remove a subgroup or subpopulation in clinical practice. This was based on broad clinical assumptions without expert clinical validation. To estimate the significance of the indication, change to the JCA decision, the expected relative importance of the subgroup or subpopulation to the JCA assessment was also captured. The following definitions were used:
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• Central population or central subgroup: A population or subgroup that is either the most significant or has very high significance to the decision-making and product value. This may be due to relative population size, level of unmet need, or clinical effectiveness.
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• Subpopulation: A population that would be expected to have a dedicated PICO and therefore an independent dossier chapter in the JCA. Expected to be supported by evidence from a full data set or prespecified subgroup.
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• Subgroup: Defined as a population that sits within another population, and therefore within the PICO of a larger group. It would not have its own dossier chapter. It may be considered exploratory, and supported by evidence that requires subgroup analyses that may not have been prespecified.
Analyzing the Impact to the PICOs and JCA Scope
To assess the risk for the change to the PICO and JCA, four risk categories were defined based on the potential consequences to the PICO and dossier development: major impact, high impact, moderate impact, and minor impact (see Table 1). A risk category was assigned for each of the potential subgroup/subpopulation changes that could occur.
For each product the expected subgroup/subpopulation change was used to assign a risk category, applying the highest risk of the changes that were expected to be observed. A conservative approach was taken, assuming a worst-case for subjective scenarios.
For indication changes associated with a risk of a major impact – the rationale applied by the regulator was qualitatively analyzed based on the discussion on benefit–risk and overview of clinical efficacy sections in the EPAR to identify patterns, as proposed by Bujar et al. [Reference Bujar13]. The potential PICO impact was qualitatively analyzed to consider in which situations and conditions a new scoping process could be warranted.
Results
Frequency of Indication Changes
For majority of products (67 percent), there were no differences, or only editorial differences, between the proposed and approved indications (Figure 1). Of the 27 oncology products reviewed, 9 had changes that would impact the eligible population. Of the 15 ATMP products reviewed, 5 had changes that would impact the eligible population, of which 2 were ATMP products for nononcologic indications.
For the products that had indication changes (n = 14), the majority reduced the eligible population (n = 13) and it was rare for the eligible population to be broadened (n = 1, an ATMP nononcologic product) (Table 2). The indication changes that reduced the eligible population did so by incorporating treatment-based conditions, such as specifying a prior therapy (n = 4) or proposing a later treatment line (n = 7), or incorporating patient-based conditions, such as narrowing to a specific patient group (n = 7).
Regulator Rationale for Indication Change
Patterns were identified in the regulators’ rationale for each change type (Table 3). The restrictions to indication often matched the provided clinical evidence, particularly evidence from pivotal trials. These would usually relate to the magnitude of the effect on different subgroups of the population (specifically in oncology) and/or the characteristics of the patients involved in clinical trials, particularly in situations where the trials had included patients with a specific prior therapy or a specific genetic profile and/or disorder. For ATMPs, safety was a more prominent reason for proposing a later treatment line, as many cell and gene therapies may have severe side effects, such as cytokine storms for CAR-T therapies. For population expansion, the method of action was generalizable to a larger population with an unmet medical need as the condition is caused by the same disease pathology (gene expression), and the scientific rationale supported expanding the population for all patients with that specific pathology as their benefit–risk profile would be expected to be positive.
How the Indication Changes Could Impact the Eligible Population and JCA PICO
Five distinct scenarios were observed in terms of how indication changes would likely impact the eligible clinical population and corresponding JCA PICO (see Table 4): 1. Major impact: Central subgroup added, or replacing a central population; 2. High impact: Adding a subpopulation; 3. Moderate Impact: Excluding a central subgroup, 4. Minor impact: Excluding a subpopulation or a subgroup. Indication changes generally restricted the population to a smaller group, and the addition of a new population(s) was rare. In some cases, restricting the indication could also change the clinically eligible population to such a large extent that it would become essentially a different subgroup or subpopulation, which would constitute its own PICO completely. The most common example of this was when the indication was moved to a later treatment line.
The most frequent indication changes in our assessment which was associated with a “major impact” risk for the PICO (18 percent, n = 8), was largely driven by the change to move to a later treatment line (16 percent, n = 7, Table 2). The other product (Orserdu) with a potentially “major impact” had two changes to its indication that specified a prior therapy and focused on a more severe patient group as shown in Table 2. One product (Luxturna) was associated with a “high impact risk” due to population broadening (Table 4). The remaining products with indication changes (12 percent, n = 5) were associated with a “minor to moderate impact” on the JCA process due to the fact that distinct populations or subgroups were excluded.
Discussion
The JCA process is expected to create unpredictability and complexity for both health technology developers and HTA bodies. Particularly, HTA bodies are concerned about the potential changes between HTD-proposed and regulator-approved indications. This analysis demonstrates that in the majority of cases in our sample, the proposed eligible population has not changed during the regulatory process, despite rapporteur questions or major objections on the proposed indication being common. Only one-third had an actual difference between the original HTD-proposed and regulator-approved indication. The results on frequency of indication changes align with previous research in this area [Reference Behring7]. Given that the deliberation for the final indication is a process that only ends at the adoption of the positive opinion [Reference Bujar13], information from regulatory rapporteurs during the regulatory process would not accurately predict likely changes to an indication, and consequentially reliably inform impacts on the EU HTA PICO. The greatest risk for the process would be to reduce the HTA PICO scope too early before the regulatory process has concluded, based on the list of questions.
Managing and Mitigating the Risks of Needing a PICO Resurvey: A Considered Decision is Needed
Where the proposed and the final approved indication differed, the most common change was narrowing the proposed population to a specific subgroup. In situations whereby narrowing the population risks the introduction of new subgroups or subpopulations to the PICO, a delay mitigation strategy would be needed to avoid undermining the ultimate goal of the HTA regulation of faster patient access [2]. These results show that indication changes could be anticipated based on the pivotal evidence and patient characteristics in the trials, and so an active role for the HTD during the PICO process to share this knowledge would be a valuable risk management approach.
The other common impact is where content is no longer required. Only an administrative step would be needed in these instances; the PICO could be reissued, and the respective chapters removed from the dossier. There may be cases where this may not be straightforward, especially if data or assumptions are connected between the excluded groups and those remaining. In these instances, it would be beneficial for the HTD to inform the assessors of the impact this would have on dossier development.
It was rare for a broader population initially proposed by the HTD to be included in the indication, and where it was, it was unlikely to have been possible to anticipate. Therefore, a new PICO survey would likely be needed along with the implied subsequent delay. It may be beneficial in these scenarios to have a staggered option whereby the JCA could start for the initial population, whilst the PICO survey and dossier development for the new population are completed. This would also be warranted by the regulatory process because the applicant will have the option to choose whether to include the broader population or not, due to Market Authorization Holder (MAH) liability for the new population.
Where a product was moved to a later treatment line, there in principle could be changed to the comparators in the assessment scope. However, the way the current scoping process is proposed to be conducted, it would be likely that comparators for the later treatment lines would have been included due to differences in treatment landscapes between the Member States and the comparators they have proposed already through the initial PICO survey.
These results demonstrate that indication wording changes would not dictate that a PICO resurvey would definitively be needed, but that an active and considered decision should be made. The need for a PICO resurvey in this regard is low and could be further mitigated with comprehensive upfront scoping, for products at high risk.
Managing Evidentiary Requirements: A Nuanced Decision for Delay
The JCA process has tight timelines for dossier development, and therefore small changes to the requirements, as determined by the PICO, can have a knock-on impact on the dossier development. However, a definitive need for a delay to enable dossier development or adaption was not identified in any of the scenarios observed, as there was always the potential for the HTD to have prepared for potential indication changes in advance. In all scenarios there was also a risk that the HTD could need time to adapt the dossier appropriately, depending on the nature of the changes applied. There may be cases where this may not be straightforward, especially if data or assumptions are connected between the excluded groups and those remaining. In all instances, it would be beneficial for the HTD to inform the assessors on the impact any PICO changes would have to dossier development; to avoid unnecessary delays, or setting the process up for failure because the dossier requirements could not be met within the timeframe.
Recommendations
The Implementing Regulation on JCA outlines that individual assessors propose a way forward without input from the HTD, relying solely on the assessor’s assumption about the risks of indication changes and consequent PICO impact. Because any difference between the initial HTD-proposed and regulator-approved indication is only certain after the CHMP has adopted its opinion, reopening the assessment scope will take place relatively late in the process, after the JCA dossier is already submitted and the assessment has begun.
Reopening the scoping process is therefore potentially costly for all stakeholders; for developers and JCA assessors, there are resource costs, while for national level decision makers and patients, there are opportunity costs in terms of time to access. Distinct criteria are needed for making the decision to reopen the scope as indicated in Article 16 in the Implementing Regulation for JCA. The absence of a guideline on how to assess the potential PICO impact of an indication change may result in inconsistency across the system. A collaborative role for the HTD in the JCA scoping process would help mitigate the risks of delays in the JCA process associated with regulatory indication changes. This could be achieved through:
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• HTD contribution to the initial PICO survey process, to ensure potentially critical subgroups from the trials are comprehensively included.
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• HTD and JCA assessor dialogue throughout the scoping process, to identify the risk of an indication change, what it may be, and seek to mitigate the impact on the assessment.
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• Communication between the HTD, European Commission and JCA assessors, at the time point when an indication change is confirmed. The purpose would be to assess whether there is a meaningful impact on the scope needed for the JCA, and dossier development, whether a PICO resurvey, or process delay(s) is needed.
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○ Some distinct criteria for when a scope resurvey is needed would be valuable to support this discussion.
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• A role for the HTD throughout the process is to support procedural decision-making processes, by being able to request and contribute rationale for a PICO resurvey, reissue, or a delay to the HTA process.
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• HTDs should leverage the possibility for joint scientific consultations early on as well as the scoping explanation meeting to indicate if there is a risk that the assessment scope does not adequately cover the aspirational indication, based on the regulatory strategy, to avoid the need to reopen the assessment scope later in the process.
Limitations
The study sample excluded products that were approved only conditionally. This decision was made due to the fact that conditionally approved products also go through a shorter deliberation process and may warrant an additional study to understand whether the faster deliberation process would result in different outcomes. The study assessed the PICO impact of an indication change through general patterns rather than a case-by-case analysis. The impact of indication changes on the eligible population relied on clinical assumptions and was not verified by clinical experts. The potential PICO impact was assumed and is dependent on the initial PICO survey and methodology for consolidating the final PICOs which was not publicly available at the time of research.
Supplementary material
The supplementary material for this article can be found at http://doi.org/10.1017/S0266462324004641.
Acknowledgments
The authors would like to sincerely thank Lara Wolfson for her strategic guidance and advice, Stephanie Lane for helping with conceptualization and Christel Vaissiere for helping with the graphical illustration of the referenced processes. This work has been financed by MSD International & Development GmbH, Switzerland.
Competing interest
I.H., N.S., M.P., and K.P. were all employees of MSD and stockholders of Merck Co & A when the work was conducted. M.G. was paid by MSD for this work.