Early network mapping to guide HTA literature reviews—how do we identify the right evidence efficiently?

With large scopes for systematic literature reviews (SLRs) looming as manufacturers begin to prepare their health technology assessment (HTA) submissions, early network mapping can help manufacturers balance a focused scope with the need to conduct indirect treatment comparisons.
Conducting a systematic literature review (SLR) of the clinical evidence base is a key component of preparing a health technology assessment (HTA) submission. These reviews lay the groundwork for the more technical components of a submission, such as indirect treatment comparisons (ITCs). While there are many valid approaches to conducting an SLR in terms of the search design, databases used, and screening methodology, HTA bodies generally have more comprehensive and strict requirements for the methodology used for SLRs than are needed for publication in peer-reviewed journals, with the National Institute for Health and Care Excellence (NICE) in the United Kingdom (UK) having some of the most stringent criteria. The new era of the Joint Clinical Assessment (JCA) in the European Union (EU) adds additional complexity with the potential for multiple PICOs (population, intervention, comparator, outcomes) to cover multiple countries’ standards of care.
The rapid growth of publications has increased the amount of time and cost related to conducting SLRs for all purposes, but this is especially felt when conducting a clinical SLR to support an HTA submission; approaches that can be used to limit the search yield in other situations (date restrictions, outcome filters, number of databases searched) are often not looked at favorably by assessors.

The best approach to limit the amount of literature to screen for an HTA-compliant review is to include search terms for the comparators of interest. Ultimately, the comparators of interest will be determined by the HTA body conducting the assessment and defined in the assessment scope. While the final scope may allow for more focused comparators, SLRs must start well before the determination of the final scope, leaving manufacturers to anticipate the comparators.

While there are multiple activities to aid in anticipating the scope, once that has been completed, it is tempting to conduct an SLR including only the comparators of interest. However, there is a danger that comparator limits may result in a disconnected network if a network meta-analysis (NMA) is to be conducted as part of the submission.
Figure 2. Disconnected network when including only trials of ublituximab, ofatumumab, and ocrelizumab
Figure 2. Disconnected network when including only trials of ublituximab, ofatumumab, and ocrelizumab
A recent NICE submission for ublituximab for RRMS included only two comparators (ocrelizumab and ofatumumab) in the final scope. However, if the SLR had been limited to only those comparators, the submission would not have been able to conduct an NMA, as the network was disconnected (Figure 2).

Note: Highlighted lines show trials connecting ublituximab and ofatumumab. No connection is possible to ocrelizumab.
Adapted from NICE. Committee Papers. Ublituximab for treating relapsing multiple sclerosis [ID6350]. 18 December 2024b.
Figure 2. Disconnected network when including only trials of ublituximab, ofatumumab, and ocrelizumab
Figure 3. Full network allowing for comparison of ublituximab, ofatumumab, and ocrelizumab
Figure 3. Full network allowing for comparison of ublituximab, ofatumumab, and ocrelizumab
To connect the scoped comparators and ublituximab in a network for analysis, additional disease-modifying therapies (DMTs) needed to be included in the search. The manufacturer included additional comparators in the SLR (alemtuzumab, natalizumab, interferon beta-1a, and teriflunomide). With trials that include these comparators added into the network, comparisons are possible for both ocrelizumab and ofatumumab (Figure 3).

Note: Highlighted lines show the most direct connection from ocrelizumab to ublituximab and ofatumumab.
Adapted from Ublituximab for Treating Relapsing Multiple Sclerosis [ID6350].
Figure 3. Full network allowing for comparison of ublituximab, ofatumumab, and ocrelizumab

With early network mapping, manufacturers can determine if the search needs to include comparators outside the anticipated PICO. 
Early network mapping uses clinical trial registries and labels of already approved treatments to identify the available trials in a given therapeutic area to construct the network that would be used for an NMA. From this exercise, we can determine:

  1. If the trials assessing the anticipated comparators from the HTA scope will connect in a network.
  2. If a connected network is not possible with only the anticipated comparators, what other treatments should be added to the SLR to create a network.
  3. If a connected network is still not possible with additional treatments, the other methods of ITC, such as matching-adjusted indirect comparison (MAIC), that will be possible.

In the example discussed here, early network mapping would have shown that comparators beyond ocrelizumab and ofatumumab needed to be included in the SLR; it would also have shown that alemtuzumab and natalizumab were not needed, further reducing the number of abstracts to screen (Figure 4).

Figure 4. Number of abstracts to screen based on comparators included in search

With increasing demands for the documentation needed for HTA submissions, streamlining wherever possible can help decrease the burden placed on the manufacturer. Early network mapping adds a small amount of work upfront to decrease the effort needed for an SLR while ensuring that all the necessary evidence is identified.

Figure 1. Percentage of search hits for RCTs in RRMS by year grouping
Figure 1. Percentage of search hits for RCTs in RRMS by year grouping

The amount of literature indexed in databases of peer-reviewed articles has been increasing exponentially. For example, over 28,000 citations for articles reporting on randomised controlled trials (RCTs) in relapsing-remitting multiple sclerosis (RRMS) are indexed in Embase over the time period from database inception (1974) to January 2025. Of these, 54%, approximately 16,000 studies, were published in the last 10 years, and 31%, nearly 9,000 studies, were published in the last 5 years (Figure 1).

Note: An SLR conducted 10 years ago would have half the number of hits as one conducted today.
Figure 1. Percentage of search hits for RCTs in RRMS by year grouping

 

Sources

  • NICE. Final scope. Ublituximab for treating relapsing multiple sclerosis. 24 June 2024a. Accessed January 13, 2025. https://www.nice.org.uk/guidance/ta1025/documents/final-scope
  • NICE. Committee Papers. Ublituximab for treating relapsing multiple sclerosis [ID6350]. 18 December 2024b. Accessed January 13, 2025. https://www.nice.org.uk/guidance/ta1025/evidence/committee-papers-pdf-13616646877


This article summarises Cencora’s understanding of the topic based on publicly available information at the time of writing (see listed sources) and the authors’ expertise in this area. Any recommendations provided in the article may not be applicable to all situations and do not constitute legal advice; readers should not rely on the article in making decisions related to the topics discussed.

 

Related resources

Nous sommes là pour vous aider

Contactez notre équipe dès aujourd’hui pour en savoir plus sur la façon dont Cencora contribue à façonner l’avenir des soins de santé.

Cencora.com fournit des traductions automatiques pour faciliter la lecture du site Web dans des langues autres que l’anglais. Pour ces traductions, des efforts raisonnables ont été faits pour fournir une traduction précise, cependant, aucune traduction automatique n’est parfaite et n’est pas destinée à remplacer les traducteurs humains. Ces traductions sont fournies en tant que service aux utilisateurs de Cencora.com et sont fournies « en l’état ». Aucune garantie d’aucune sorte, expresse ou implicite, n’est donnée quant à l’exactitude, la fiabilité ou l’exactitude de ces traductions effectuées de l’anglais vers une autre langue. Certains contenus (tels que les images, les vidéos, Flash, etc.) peuvent ne pas être traduits avec précision en raison des limitations du logiciel de traduction.

Toute divergence ou différence créée lors de la traduction de ce contenu de l’anglais vers une autre langue n’est pas contraignante et n’a aucun effet juridique pour la conformité, l’application ou toute autre fin. Si des erreurs sont identifiées, veuillez nouscontacter. Si vous avez des questions sur l’exactitude des informations contenues dans ces traductions, veuillez vous référer à la version anglaise de la page.