Trends and frontiers of research on pharmacoeconomics from 2012–2021: a scientometric analysis
Introduction
Pharmacoeconomics (PE), is a subdiscipline of health economics that studies the costs and benefits of drug therapy (1). PE research of various diseases can promote the rational distribution of medical resources and reduce waste (2). Currently, more than 40 guidelines have been published worldwide that refer to PE, including guidelines on pharmacoeconomic analysis methods, outcome indicators, and costing methods (2,3).
Scientometric analysis, often in combination with visualization maps, aims to quantitatively study scientific fields based on bibliometric analysis, while bibliometric analysis gives quantitative summaries of publications (4). Scientometric analysis has been applied in various areas, such as health care and nanotechnology (5-7). Given the attention paid to PE, relevant studies have accumulated in the last decade. However, existing scientometric or bibliometric analyses either focused on studies before 2012 or concentrated on the period from inception of databases to 2020 without sub-analyses of specific periods, both of which lack of latest information on PE (8,9). Hence, we aimed to conduct a scientometric analysis of PE in the last decade to present the current situation, and identify recent hotspots and trends to provide a reference for further cooperation and development in this field.
Methods
Data source and searching strategy
We searched for and retrieved PE-related documents published from 2012 to November 2021 in the Web of Science Core Collection-Science Citation Index Expanded (WoSCC-SCIE) database. The search strategy and screening process are shown in Figure 1. Search terms, such as “economic” and “cost,” were adopted to retrieve economic studies, categories were limited to “Pharmacology Pharmacy” to exclude studies unrelated to pharmacy, and the document type was refined to “articles” (original works) or “review articles” (reviews) to improve the accuracy of the results.
Scientometric and statistical analysis
CiteSpace is a scientometric analysis tool developed by Professor Chao-Mei Chen of Drexel University, which can perform a comprehensive bibliometric analysis of the literature from WoSCC-SCIE (5,10). CiteSpace 5.8.R3 was used in this study. We presented the annual publications and citations by Web of Science. We used CiteSpace to analyze the distribution of countries/regions and institutions, the number of journals and cited journals, the productive authors and influential authors, the frequency of keywords, and the co-citation situation of the references. A burst detection of keywords was conducted to identify hotspots in different periods, and a cluster analysis of references was conducted to identify possible trends. The results are presented in tables and network maps. All variables were shown as numbers in this statistical descriptive analysis, and no statistical inference was conducted.
The functional parameters of CiteSpace were adjusted according to the data. In the CiteSpace network map, a node represented a field type (e.g., an author). The node size reflected the occurrence frequency or cited times of a field. Each link represented the connection relationship between the fields. The color, ranging from dark to light, on the map indicated the year from far to near. Centrality was a measure of the degree to which a node was connected to other nodes, and a value >0.1 indicated a hub node in the network. Burst detection was used to identify nodes with an instant increase in frequency in a specific period, which represented the focus or hotspots of that period (5,11).
Results
Annual publications and citations
A total of 4,715 documents were retrieved, including 3,829 (81.21%) articles and 886 (18.79%) reviews. Additionally, there were 45,831 citing articles, 54,596 cited times, and 11.58 citation times per publication. The annual number of publications and citations of PE from 2012 to 2021 are shown in Figure 2. From 2012 to 2021, the number of literature citations increased annually, and the highest number of articles (i.e., 10,787 citations) were cited in 2020, a figure about 51 times that of 2012. The number of literature publications on PE fluctuated each year. The fewest articles (i.e., 367 publications) were published in 2013, and the most articles (i.e., 597) were published in 2019, a figure about 1.6 times that of 2013.
Countries/regions and institutions
One hundred twenty-one countries/regions and 410 institutions were involved in PE research, and the top 10 countries/regions and institutions by the number of publications from 2012–2021 are shown in Tables 1,2. The top 3 countries/regions by the number of publications were the United States of America (USA; n=1,790), England (n=601), and China (n=403). The top 3 countries/regions by centrality were Saudi Arabia (centrality =0.82), the Czech Republic (centrality =0.72), and Israel (centrality =0.55). The country collaboration network map shows little collaboration among the top 10 countries/regions in terms of the number of articles (see Figure 3). Pfizer was the institution with the highest number of publications (n=63). In terms of centrality, the top 3 institutions were Sanofi (centrality =0.29), Eli Lilly and Co (centrality =0.28), and Amgen Inc (centrality =0.25). The map of the institutional collaboration network is shown in Figure 4.
Table 1
No. | Country/Region | Publication | Country/Region | Centrality |
---|---|---|---|---|
1 | USA | 1,790 | Saudi Arabia | 0.82 |
2 | England | 601 | Czech Republic | 0.72 |
3 | China | 403 | Israel | 0.55 |
4 | Canada | 271 | Iraq | 0.37 |
5 | Netherlands | 246 | Jordan | 0.35 |
6 | Germany | 228 | Argentina | 0.3 |
7 | Italy | 220 | Ghana | 0.27 |
8 | Australia | 218 | Bangladesh | 0.24 |
9 | Spain | 199 | Malaysia | 0.21 |
10 | France | 185 | Croatia | 0.2 |
PE, pharmacoeconomics.
Table 2
No. | Institution | Publication | Institution | Centrality |
---|---|---|---|---|
1 | Pfizer (USA) | 63 | Sanofi (UK) | 0.29 |
2 | Anal Grp Inc (USA) | 62 | Eli Lilly & Co (USA) | 0.28 |
3 | Novartis Pharmaceut (Switzerland) | 57 | Amgen Inc (USA) | 0.25 |
4 | Erasmus Univ (Netherlands) | 52 | Express Scripts (USA) | 0.17 |
5 | Amgen Inc (USA) | 52 | Evidera (USA) | 0.16 |
6 | Univ Washington (USA) | 52 | Univ Utrecht (Netherlands) | 0.13 |
7 | Univ Toronto (Canada) | 51 | China Pharmaceut Univ (China) | 0.13 |
8 | Univ York (USA) | 48 | Bristol Myers Squibb (USA) | 0.12 |
9 | Bristol Myers Squibb (USA) | 48 | Rutgers State Univ (USA) | 0.12 |
10 | Univ Groningen (Netherlands) | 47 | Monash Univ (Australia) | 0.11 |
PE, pharmacoeconomics.
Journals and cited journals
In total, 276 journals and 107 cited journals were included in the study, and the top 10 journals and cited journals are set out in Table 3. Pharmacoeconomics was the leading journal of PE with 578 published articles from 2012–2021, followed by Expert Review of Pharmacoeconomics Outcomes Research (n=468), and Journal of Managed Care Specialty Pharmacy (n=310). The most-cited journal was New England Journal of Medicine (citation times =1,620), followed by Value in Health (citation times =1,306), and Lancet (citation times =1,255). The top 3 cited journals by centrality were PLoS One (centrality =0.46), New England Journal of Medicine (centrality =0.22), and Pharmacoeconomics (centrality =0.2). The cited journal network map is shown in Figure 5.
Table 3
No. | Journal | Publication | Cited journal | Citation times |
---|---|---|---|---|
1 | Pharmacoeconomics | 578 | New England Journal of Medicine | 1,620 |
2 | Expert Review of Pharmacoeconomics Outcomes Research | 468 | Value in Health | 1,306 |
3 | Journal of Managed Care Specialty Pharmacy | 310 | Lancet | 1,255 |
4 | Clinical Therapeutics | 183 | Pharmacoeconomics | 1,188 |
5 | Advances in Therapy | 170 | PLoS One | 1,153 |
6 | Frontiers in Pharmacology | 108 | Jama-Journal of the American Medical Association | 1,101 |
7 | Clinical Drug Investigation | 107 | Annals of Internal Medicine | 690 |
8 | Journal of Antimicrobial Chemotherapy | 63 | BMJ-British Medical Journal | 655 |
9 | Antimicrobial Agents and Chemotherapy | 55 | Journal of Medical Economics | 644 |
10 | American Journal of Health System Pharmacy | 53 | Current Medical Research and Opinion | 582 |
PE, pharmacoeconomics.
Authors and cited authors
A total of 526 authors published articles associated with PE from 2012 to 2021, among whom Bin Wu published the most (n=16), followed by Postma, Liew, and Tan (n=13) (see Table 4). The top 3 cited authors were World Health Organization (WHO; citation times =387), Briggs (citation times =195), and Husereau (citation times =179). The network of the cited authors is shown in Figure 6.
Table 4
No. | Author | Publication | Cited Author | Citation times |
---|---|---|---|---|
1 | Bin Wu | 16 | World Health Organization | 387 |
2 | Maarten J Postma | 13 | Briggs A | 195 |
3 | Danny Liew | 13 | Husereau D | 179 |
4 | Chongqing Tan | 13 | National Institute for Health and Care Excellence | 155 |
5 | Lieven Annemans | 12 | Moher D | 152 |
6 | Eric Q Wu | 12 | Neumann PJ | 144 |
7 | Barnaby Hunt | 11 | Drummond MF | 141 |
8 | Samuel Coenen | 10 | Briggs AH | 133 |
9 | Xiaohui Zeng | 10 | Stoddart G | 126 |
10 | Robin Bruyndonckx | 10 | Drummond M | 122 |
PE, pharmacoeconomics.
Keywords
A total of 524 keywords were found. The top 10 keywords in terms of frequency and centrality are shown in Table 5, and the keyword co-occurrence network map is shown in Figure 7. The top 3 keywords by frequency were therapy (frequency =318), impact (frequency =305), and cost-effectiveness (frequency =296). A cost-effectiveness analysis (CEA) is a commonly used analysis method in PE. The keyword with the highest centrality was health care cost (centrality =0.2), which connects various aspects of PE research.
Table 5
No. | Keyword | Frequency | Keyword | Centrality |
---|---|---|---|---|
1 | Therapy | 318 | Health care cost | 0.2 |
2 | Impact | 305 | Predictor | 0.19 |
3 | Cost-Effectiveness | 296 | Rheumatoid arthritis | 0.15 |
4 | Management | 277 | Inhibition | 0.15 |
5 | Quality Of Life | 268 | Inhibitor | 0.15 |
6 | Care | 246 | Growth | 0.14 |
7 | Cost | 246 | Mutation | 0.14 |
8 | Risk | 221 | Recipient | 0.13 |
9 | Economic Evaluation | 193 | Cardiovascular disease | 0.12 |
10 | Prevalence | 193 | Prophylaxi | 0.11 |
PE, pharmacoeconomics.
The burst detection revealed 13 keywords with strong frequency bursts (see Table 6). From 2012 to 2015, the burst keywords were stroke, placebo, coronary heart disease, overweight, antiretroviral therapy, pharmacology, and controlled trial. From 2014 to 2019, the burst keywords were oral anticoagulant, expenditure, uncertainty, state, and length of stay. The burst keyword that continued until 2021 was “modifying antirheumatic drug”, which suggests that this has been a popular topic in PE research recently.
Table 6
Keywords | Year | Strength | Begin | End | 2012–2021 |
---|---|---|---|---|---|
Stroke | 2012 | 5.1 | 2012 | 2015 | |
Placebo | 2012 | 3.5 | 2012 | 2015 | |
Coronary heart disease | 2012 | 3.38 | 2012 | 2015 | |
Overweight | 2012 | 3.28 | 2012 | 2015 | |
Antiretroviral therapy | 2012 | 2.95 | 2012 | 2015 | |
Pharmacology | 2012 | 2.62 | 2012 | 2015 | |
Controlled trial | 2012 | 2.43 | 2012 | 2015 | |
Oral anticoagulant | 2012 | 2.96 | 2014 | 2017 | |
Expenditure | 2012 | 2.76 | 2014 | 2018 | |
Uncertainty | 2012 | 3.82 | 2015 | 2018 | |
State | 2012 | 3.37 | 2015 | 2018 | |
Length of stay | 2012 | 5.75 | 2016 | 2019 | |
Modifying antirheumatic drug | 2012 | 3.17 | 2016 | 2021 |
References
A co-cited reference analysis is an analysis of the ensemble of publications that are co-cited by a portion of articles (11). The top 10 most-cited articles in the co-cited analysis are shown in Table 7, with Guide to the methods of technology appraisal 2013 published by the National Institute for Health and Care Excellence (NICE) having the highest citation frequency (n=65). A cluster analysis was conducted, and 8 clusters were revealed, as seen in Figure 8. Cluster 0 was the largest (size =32) and the latest cluster (mean year =2018) and was labeled “cost-effectiveness”——a word abstracted from literature titles.
Table 7
No. | Author | Year | Title | Frequency | Burst | Centrality | Source |
---|---|---|---|---|---|---|---|
1 | NICE | 2013 | Guide to the methods of technology appraisal 2013 | 65 | 17.76 | 0.12 | Guide to the Methods of Technology Appraisal |
2 | Sanders GD | 2016 | Recommendations for conduct, methodological practices, and reporting of cost-effectiveness Analyses: Second panel on cost-effectiveness in health and medicine | 63 | 14.15 | 0.05 | Jama-Journal of the American Medical Association |
3 | Neumann PJ | 2014 | Updating cost-effectiveness—the curious resilience of the $50000-per-QALY threshold | 39 | 9.59 | 0.4 | New England Journal of Medicine |
4 | Vemer P | 2016 | AdViSHE: A Validation-Assessment Tool of Health-Economic Models for Decision Makers and Model Users | 35 | 6.87 | 0.11 | Pharmacoeconomics |
5 | Patel MR | 2011 | Rivaroxaban versus warfarin in non-valvular atrial fibrillation | 29 | 10.85 | 0.09 | New England Journal of Medicine |
6 | Husereau D | 2013 | Consolidated Health-Economic Evaluation Reporting Standards (CHEERS)—Explanation and elaboration: A report of the ISPOR Health-Economic Evaluation Publication Guidelines Good Reporting Practices Task Force | 29 | 8.91 | 0 | Value in Health |
7 | Bray F | 2018 | Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries | 27 | – | 0.01 | CA-A Cancer Journal for Clinicians |
8 | Drummond M | 2015 | Methods for the economic evaluation of health-care programs | 26 | 10.51 | 0.11 | Methods for the Economic Evaluation of Health Care Programmes |
9 | Yang WY | 2018 | Economic costs of diabetes in the US in 2017 | 23 | 8.29 | 0.02 | Diabetes Care |
10 | Briggs AH | 2012 | Model parameter estimation and uncertainty: A report of the ISPOR-SMDM Modeling Good Research Practices Task Force—6 | 23 | 7.63 | 0.23 | Value in Health |
PE, pharmacoeconomics; NICE, the National Institute for Health and Care Excellence.
Discussion
General information
This study used CiteSpace to conduct a scientometric analysis of research on PE in the last decade. A total of 4,715 publications were included in this analysis, and the number of annual citations of PE articles increased year by year. Indeed, in 2020, the number of annual citations of PE articles was approximately 51 times that of 2012. However, the number of publications fluctuated every year, reaching a maximum of 597 in 2019, a figure 1.6 times that of 2013. The country/region with the most publications in PE was the USA, and 6 of the top 10 institutions for PE by the number of publications were also located in the USA. China ranked 3rd in terms of the number of published articles on PE, and was the only developing country among the top 10 countries/regions. Pharmacoeconomics was the main journal publishing PE articles. Bin Wu was the most productive author on PE, while WHO received the most attention and citations.
The keyword analysis revealed that the burst keyword phrase, “modifying antirheumatic drug,” was popular from 2016 to 2021, appeared to be the research focus of the last 6 years, and was possible to last its burst in the short term. The clustering of references revealed that cluster 0, which was labeled “cost-effectiveness”, represented the largest and latest cluster, and the citing articles from this cluster indicated CEAs of first-line non-small cell lung cancer (NSCLC) regimens, including atezolizumab and nivolumab, should be at the frontier of PE research. We would discuss the recent research hotspot and frontier by reviewing the top 5 citing articles for “modifying antirheumatic drug” by reference to the citations and the top 5 citing publications of cluster 0 by reference to the coverage nodes in more detail below.
RA and DMARDs
With 460 people per 100,000 worldwide suffering from rheumatoid arthritis (RA), the costs of RA and disease-modifying antirheumatic drugs (DMARDs) are a concern (12). In 2017, Schmier et al. modeled the cost of providing infusion therapy for RA in a hospital infusion center with case drugs, including abatacept, tocilizumab, infliximab, or rituximab, and found that biologics accounted for the largest share of costs (i.e., 87% to 91% of the total annual costs) and were the highest single cost associated with infusion care in RA (13). A study funded by Sanofi and Regeneron Pharmaceutical in 2017 compared treatment persistence, cost, and cost per persistent patient among the mechanism of action (MOA) switchers versus tumor necrosis factor inhibitor (TNFi) cyclers after RA patients failed in primary TNFi treatment (14) and found that MOA switching was associated with higher treatment persistence and lower health-care costs than TNFi cycling, which suggested that the reimbursement policy of cycling TNFi before switching MOA might be suboptimal for patients and payers.
In 2018, Fazal et al. reviewed several prescribed DMARDs that targeted RA pathophysiology and made significant contributions to improving the disease outcomes, including synthetic and biological DMARDs, and discussed the global economic burden of RA (15). In 2018, a study that comparatively analyzed the prices of biologics for RA treatment in 17 European countries suggested that the introduction of biosimilars in national markets would result in a significant reduction in the reimbursement prices paid by public funds and facilitate public access to biological therapy, but the price reductions upon market entry of biosimilars would be less pronounced than those of commodity generics (16). Shafrin et al. investigated the economic burden of anti-citrullinated protein antibody (ACPA)-positive patients with RA and showed that, compared with ACPA-negative patients, positive patients were more likely to use conventional (71.2% vs. 49.6%; P<0.001) or biologic (20.3% vs. 11.8%; P<0.001) DMARDs, with higher total annual RA-related expenditures in ACPA-positive patients (Δ=$2,698; P=0.002), and higher DMARD overall expenditures (Δ=$1743; P=0.001) (17).
CEA in NSCLC
Lung cancer ranked 2nd in the total number of cancer cases worldwide in 2020, with approximately 2.21 million cases (18). NSCLC is a common type of lung cancer and accounts for about 85% of all types of lung cancer (19). CEAs of NSCLC therapeutics have been the focus of recent PE studies, dominated by CEAs of first-line regimens, including atezolizumab and nivolumab.
In 2021, Peng et al. evaluated the cost-effectiveness of treatment with atezolizumab, a first-line treatment for metastatic NSCLC with high programmed death-ligand 1 expression, based on a USA payer perspective, and found that compared to platinum-based chemotherapy, atezolizumab yielded an additional 1.32 quality-adjusted life years (QALYs) [2.08 life years (LYs)] with an incremental cost of US$224,590, and the probability of atezolizumab being cost-effective at the willingness-to-pay (WTP) thresholds of $100,000/QALY and $150,000/QALY was 10.28% and 37.71%, respectively, indicating that atezolizumab was not cost-effective (20). They also analyzed the cost-effectiveness of nivolumab plus ipilimumab with 2 cycles of chemotherapy (NIC) as the first-line treatment for advanced NSCLC from a USA payer perspective and found that NIC cost of $264,278 compared to chemotherapy alone, produced an additional 0.80 QALYs and resulted in an incremental cost-effectiveness ratio (ICER) of $202,275/QALY, an incremental net health benefit (INHB) of –0.28 QALYs, and an incremental monetary benefit (INMB) of –$41,865 at a threshold of $150,000/QALY, for which the regimen was not cost-effective (21). In the same year, Wan et al. assessed a similar regimen above and found that compared with chemotherapy, nivolumab plus ipilimumab produced 0.62 QALYs, with a cost of $104,238 per QALY, and had probabilities of cost-effectiveness of 50.7% and 66.2% when the WTP values were $100,000/QALY and $150,000/QALY, respectively (22).
In addition to the CEA of nivolumab-included regimens, 2 studies evaluated the cost-effectiveness of atezolizumab combined with carboplatin plus nab-paclitaxel chemotherapy from different perspectives. In 2020, Lin et al. estimated the cost-effectiveness of atezolizumab plus carboplatin/nab-paclitaxel for untreated advanced non-squamous NSCLC from a USA payer perspective and found that at a WTP of $180,000/QALY, carboplatin/nab-paclitaxel had a 98.6% probability of being cost-effective, but reducing the acquisition cost of atezolizumab by 43.4% would make atezolizumab/carboplatin/nab-paclitaxel more cost-effective than the former (i.e., adding atezolizumab to carboplatin/nab-paclitaxel in the common case would not be cost-effective in advanced non-squamous NSCLC, but reducing the acquisition cost of atezolizumab might improve cost-effectiveness) (23). In 2021, Yang et al. evaluated the above regimen from the perspective of the Chinese health-care system (24) and showed that atezolizumab plus chemotherapy increased 0.34 LY and 0.19 QALY compared with chemotherapy alone, with ICERs of $180,560.15/LY and $325,328.71/QALY, respectively, and atezolizumab plus chemotherapy was 0% cost-effective at a WTP of $30,828/QALY, and 50% cost-effective at $325,000/QALY. Thus, atezolizumab in combination with first-line therapy for advanced non-squamous NSCLC was not cost-effective from the perspective of the Chinese health-care system (24).
Limitations and strengths
This study had some limitations. First, due to the lack of articles from other databases, such as Medline and Scopus, some information may have been missed. However, it should be noted that the stringent conditions by which WoSCC-SCIE collects publications ensure the quality of the documents, and WoSCC-SCIE has been widely applied in scientometrics or bibliometrics (25-28). Second, the document type was limited to articles or review articles. It was difficult to design search strategies due to the wide scope of PE and other document types, such as letters and book chapters, only accounted for a small proportion of total search results. Refinement by document type ensured the accuracy of the search results to some extent. Third, given the original searching strategy which was not refined to a country, such as China, we were unable to give a sub-analysis of PE in a specific country in this study. To explore scientometric results in a country, further research can be carried out.
This study summaries information on countries/regions, authors, institutions, journals, hotspot, frontier, etc. in the field of PE in the last decade and provides a good way to promote cooperation and development in PE. For example, researchers interested in PE can quickly undertake cutting-edge research, collaborate with well-known institutions and scholars, and publish findings in authoritative journals in this field to expand influence. Further, clinicians are able to make better decisions based on existing PE information and give feedback for PE development from clinical perspectives. What’s more, government personnel can analyze the facts behind the data and formulate policies to inspire PE development.
Conclusions
This study presented a scientometric analysis of PE studies from 2012 to 2021. The economic analysis of RA and its modifying antirheumatic drugs has been a popular area of research for the last 6 years, and CEAs of first-line NSCLC regimens, including atezolizumab and nivolumab, are at the frontier of research. Relevant researchers, clinicians, and government personnel could greatly benefit from the results of this study.
Acknowledgments
Funding: This study was supported by the Science and Technology Plan Project of Sichuan Province (No.2020YFS0035) and the National Natural Science Foundation for Young Scholars of China (No.72004151).
Footnote
Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://atm.amegroups.com/article/view/10.21037/atm-22-1050/coif). The authors have no conflicts of interest to declare.
Ethical Statement: The authors are accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.
Open Access Statement: This is an Open Access article distributed in accordance with the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International License (CC BY-NC-ND 4.0), which permits the non-commercial replication and distribution of the article with the strict proviso that no changes or edits are made and the original work is properly cited (including links to both the formal publication through the relevant DOI and the license). See: https://creativecommons.org/licenses/by-nc-nd/4.0/.
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