Welkom bij THIM Hogeschool voor Fysiotherapie & Bohn Stafleu van Loghum
THIM Hogeschool voor Fysiotherapie heeft ervoor gezorgd dat je Mijn BSL eenvoudig en snel kunt raadplegen. Je kunt je links eenvoudig registreren. Met deze gegevens kun je thuis, of waar ook ter wereld toegang krijgen tot Mijn BSL. Heb je een vraag, neem dan contact op met helpdesk@thim.nl.
Om ook buiten de locaties van THIM, thuis bijvoorbeeld, van Mijn BSL gebruik te kunnen maken, moet je jezelf eenmalig registreren. Dit kan alleen vanaf een computer op een van de locaties van THIM.
Eenmaal geregistreerd kun je thuis of waar ook ter wereld onbeperkt toegang krijgen tot Mijn BSL.
Login
Als u al geregistreerd bent, hoeft u alleen maar in te loggen om onbeperkt toegang te krijgen tot Mijn BSL.
Budget impact of endovascular treatment for acute ischaemic stroke patients in the Netherlands for 2015–2021
Auteurs:
Lucie A. van den Berg, Olvert A. Berkhemer, Puck S. S. Fransen, Debbie Beumer, Charles B. L. Majoie, Diederik W. J. Dippel, Aad van der Lugt, Robert J. van Oostenbrugge, Wim H. van Zwam, Yvo B. Roos, Marcel G. W. Dijkgraaf, the MR CLEAN investigators
Endovascular treatment (EVT) has been proven to be both effective and cost-effective for patients with acute ischaemic stroke. We investigated the budget impact of large-scale implementation of EVT for acute ischaemic stroke patients in the Netherlands for 2015–2021.
Methods
An analysis was performed from a healthcare perspective as a preplanned substudy of the Multicenter Randomized Clinical trial of Endovascular Treatment for Acute Ischemic Stroke in the Netherlands (MR CLEAN). Estimated yearly costs during follow-up after stroke for patients who had or had not been treated with EVT as add-on to usual care were linked to numbers of new patients retrieved from 2 Dutch registries of EVT that started after the last inclusion in MR CLEAN (2014). Aggregated costs and costs per care sector were calculated based on prevalence using a population dynamic tool.
Results
From 2015, the yearly number of new acute ischaemic stroke patients receiving EVT increased almost threefold, from 812 in 2015 to 2,370 in 2021. The introduction of EVT plus usual care resulted in estimated net annual savings that increased from € 2.9 million in 2015 to € 58 million in 2021.
Conclusion
Offering EVT as add-on to usual care for acute ischaemic stroke patients was increasingly cost saving from a national healthcare perspective but affected distinct healthcare sectors differently.
The names of the MR CLEAN investigators and their affiliations can be found in Table S1 in the Electronic Supplementary Material.
What’s new?
Since 2015, endovascular treatment (EVT) is standard care in the Netherlands for patients with acute ischaemic stroke (AIS) caused by large-vessel occlusion.
The yearly number of AIS patients receiving EVT increased from 812 in 2015 to 2,370 in 2021.
The estimated mean per patient costs for EVT ranged from € 70.107 in the first year to € 16.514 in years 3–6 and for usual care alone from € 73.760 to € 20.862.
The introduction of EVT as add-on to usual care resulted in net health care budget savings of € 2.9 million in 2015 to € 58 million in 2021.
Introduction
To date, 2 acute treatment strategies for acute ischaemic stroke (AIS) patients are available: intravenous thrombolysis (IVT) and endovascular treatment (EVT) [1, 2]. Both therapies are aimed at improving clinical outcome by early opening of the occluded vessel to restore blood flow to the salvageable ischaemic brain tissue that is not already infarcted. There are well-recognised contraindications for IVT, and this treatment is less effective in opening large-vessel occlusions compared with EVT [3, 4].
In 2015, the Multicenter Randomized CLinical trial of Endovascular treatment for Acute ischemic stroke in the Netherlands (MR CLEAN) was the first trial to show clinical effectiveness of EVT, followed by 5 other positive trials, which further supported clinical evidence [5]. The clinical benefit of EVT has been proven to be substantial, with a number needed to treat < 3 for improved functional outcome [2]. As such, EVT has been adopted in international guidelines as standard acute stroke care [6]. Subsequently, the next challenge was to implement EVT for AIS safely on a large scale. To do so, evidence of cost-effectiveness is crucial to guide reimbursement decisions. Recently, we performed an economic evaluation from a societal perspective with a 2-year time horizon alongside the MR CLEAN trial, which showed that EVT improved health and saved costs, thus dominating standard treatment [7].
To further inform healthcare policy makers, we aimed to investigate the impact of large-scale implementation on the healthcare budget. In the current study, we conducted a budget impact analysis (BIA) of EVT in the Netherlands from a healthcare perspective for the years 2015–2021. The results may guide reimbursement decisions and may influence price and volume negotiations between insurance companies and healthcare providers.
Methods
Setting and time horizon
The BIA was performed as part of the economic evaluation of MR CLEAN and its extended follow-up study. The study design, methods and results of MR CLEAN, the long-term extension study and the cost-effectiveness and cost-utility analysis have been published elsewhere ([8, 9]; see Table S2 in Electronic Supplementary Material). The current analysis addressed the impact of introducing EVT for AIS patients in the Netherlands as add-on treatment to usual care on the healthcare budget. The budget impact was assessed for the first 7 calendar years (2015–2021) following completion of the MR CLEAN patient inclusion and publication of the positive clinical results, which stimulated nationwide dissemination and implementation [5].
Perspective, comparison and numbers of patients
The BIA was performed from a Dutch healthcare perspective. We distinguished 2 major healthcare settings: institutional care by hospitals, rehabilitation centres or nursing homes and noninstitutional care by general practitioners (GPs), paramedics or home-care organisations. Budget impact was assessed by comparing the estimated yearly costs of institutional and noninstitutional care for Dutch patients who received EVT on top of usual care in the 2015–2021 period versus healthcare costs they would have generated if patients received usual care alone (Fig. 1).
Fig. 1
Overall budget impact structure. Budget impact model estimated nationwide impact of endovascular treatment as add-on to usual care on costs of healthcare for eligible acute ischaemic stroke patients (2015–2021). ^ Unknown mean costs for 7th follow-up year of new patients in 2015 have not been included in calendar year 2021
×
The MR CLEAN Registry study was set up to register all patients in the Netherlands who underwent EVT after the last MR CLEAN inclusion in 2014 [10]. Inclusion in the registry was terminated in December 2018. From 2019 until 2021, we retrieved data from the Dutch Acute Stroke Audit. This is a clinical audit regarding stroke care for patients with AIS in the Netherlands in which all consecutive stroke patients are registered, including data on EVT [11]. From both registries, yearly patient counts for the 2015–2021 period were available. In 2015, EVT was provided to 812 patients; the number of patients increased to 1,138 (2016), 1,478 (2017), 1,712 (2018), 2,233 (2019), 2,322 (2020) and 2,370 (2021).
Budget impact was assessed per calendar year and the analysis was prevalence-based without a half-year correction, meaning that estimated healthcare costs during the first and subsequent years of follow-up for distinct patients were assigned to the calendar year in which each patient’s follow-up year started.
Cost components, costs and costs per follow-up year of patients
The costs of institutional care included the costs of care in the hospital, rehabilitation centre and/or nursing home. Hospital costs included costs of acute interventions (EVT and IVT), other interventional and diagnostic procedures, inpatient stay (regular admission days and intensive care unit days) and consultations with the medical specialist. EVT as evaluated in the MR CLEAN trial was a new treatment modality in the Netherlands, and its unit costs were determined by detailed precalculation of mean use of personnel, materials and overhead (nearly € 10,000) (reported as part of our economic evaluation) [7]. The costs of rehabilitation included inpatient stay as well as day care. Nursing home costs reflected the costs of inpatient stay.
The costs of noninstitutional care included the costs of GP care, paramedical care and formal home care. GP care costs reflected the costs of GP visits. Paramedical care costs included the costs of consultations provided by physiotherapists, occupational therapists and speech therapists. Formal home-care costs included hourly costs of regular help, personal care and nursing care.
A full account of the measurements and valuation of healthcare resource utilisation, respectively costs can be found in the methods section of the MR CLEAN cost-effectiveness and cost-utility analysis [7]. From that economic evaluation, the estimated mean healthcare costs during the first 2 years of patient follow-up were derived. Undiscounted costs during follow-up in euros were used for the BIA with calendar year 2018, midway the 2015–2021 period, as the base year for costing after general consumer price indexing (cumulative multiplier for 2014–2018: 1.04054) [12]. Incident patients during 2015–2021 were assumed to have generated the mean healthcare costs during the first and second years of follow-up of the patients in the intervention group of the MR CLEAN extension study (Fig. 1). If they would not have received EVT, we assumed that they would have generated the mean healthcare costs during the first and second years of follow-up for patients in the control group (Fig. 1).
For nonobserved mean healthcare costs per patient in follow-up years 3–6 (Fig. 1), we assumed that a patient’s health status would gradually stabilise during the first or the second year following stroke, and that rehabilitation efforts and paramedical care by occupational therapists or speech therapists would be terminated before the end of the second year because of goal achievement or expected lack of further improvement (after consultation of experts in the field). Contrarily, physiotherapy might still be continued as a maintenance therapy for muscle strength and mobility. It was therefore assumed that healthcare costs minus costs of rehabilitation, occupational therapy and speech therapy in the second year of follow-up would reasonably reflect the yearly costs in subsequent follow-up years 3–6.
All mean costs per follow-up year derived from the economic evaluation were calculated by dividing the total healthcare costs per follow-up year by the original number of patients in the study arms, thus including deceased patients [7]. Most patients in the study died within the first year of follow-up, which was followed by a gradually diminishing mortality risk [13]. Furthermore, the extrapolation of mean costs during the second year of follow-up to subsequent years is limited to the sixth follow-up year. We therefore choose to ignore explicit modelling of mortality rates over time.
Assessment tool
A simple population dynamic model was developed in Microsoft Excel, linking the derived mean healthcare costs by observed numbers of new patients during their years of individual follow-up under the standard-care scenario or under the alternative EVT scenario to the calendar years of the budget impact period. We report the budget impact at the aggregated levels of institutional and noninstitutional care based on yearly patient numbers and mean cost estimates. The budget model is available upon request to allow assessments of budget impact at more local levels relevant to a specific market share or to explore the influence of uncertainty in the cost estimates. To the latter end, 95% confidence intervals for mean costs were generated after bias correction by accelerated nonparametric bootstrapping, drawing 1,000 samples of the same sizes as the original samples of the MR CLEAN study groups, with replacement.
Results
Costs during years of follow-up
The estimated mean yearly costs of institutional care for patients who received EVT in the MR CLEAN intervention group were € 60,146 in the first and € 12,856 in the second year of follow-up (Tab. 1). For the third to sixth year of follow-up, the mean yearly costs were assumed to level at € 8,226 (costs of the second year minus rehabilitation costs). The estimated mean yearly costs of noninstitutional care in the intervention group equalled € 9,962 in the first year, € 8,740 year in the second and € 8,288 in subsequent years.
Table 1
Mean per patient costs of healthcare by treatment scenario, sector and follow-up year after acute ischaemic strokea
Alternative scenario: EVT plus usual care
Care sector
Follow-up year at patient level
1
2
3–6
Institutional care
60,146 (55,317–64,863)
12,856 (10,487–15,473)
8,226 (6,268–10,640)
Hospital
19,922 (18,983–20,780)
1,297 (10,17–1,572)
1,297 (1,017–1,572)
Rehabilitation centre
29,363 (25,985–32,635)
4,630 (3,466–5,873)
–
Nursing home
10,860 (8,890–13,177)
6,929 (5,042–9,238)
6,929 (5,042–9,238)
Non–institutional care
9,962 (82,230–11,871)
8,740 (7,238–10,345)
8,288 (6,873–9,803)
GP
185 (154–221)
152 (126–180)
152 (126–180)
Paramedics
1,599 (1,338–1,886)
1,219 (1,027–1,452)
767 (629–928)
– Physiotherapy
908 (757–1,083)
767 (629–928)
767 (629–928)
– Occupational therapy
368 (284–458)
176 (135–223)
–
– Speech therapy
322 (249–409)
276 (206–364)
–
Home care
8,178 (6,578–9,910)
7,370 (6,099–8,835)
7,370 (6,099–8,835)
Total
70,107 (64,436–76,076)
21,597 (18,428–25,206)
16,514 (13,896–19,625)
Standard care scenario: usual care alone
Care sector
Follow-up year at patient level
1
2
3–6
Institutional care
62,214 (57,010–67,209)
19,276 (15,825–22,999)
10,040 (8,223–12,170)
Hospital
11,004 (10,110–11,979)
1,873 (1,450–2,354)
1,873 (1,450–2,354)
Rehabilitation centre
37,520 (33,849–41,432)
9,236 (6,885–12,055)
–
Nursing home
13,690 (11,827–15,635)
8,167 (6,391–10,205)
8,167 (6,391–10,205)
Non–institutional care
11,546 (9,891–13,186)
11,520 (9,726–13,211)
10,822 (9,146–12,411)
GP
138 (114–162)
147 (124–173)
147 (124–173)
Paramedics
20,62 (1,748–2,388)
1,798 (1,514–2,076)
1,100 (938–1,251)
– Physiotherapy
1,193 (1,026–1,382)
1,100 (938–1,251)
1,100 (938–1,251)
– Occupational therapy
415 (314–534)
280 (207–376)
–
– Speech therapy
454 (356–568)
418 (320–520)
–
Home care
93,46 (7,811–10,881)
9,575 (7,949–11,140)
95,75 (7,949–11,140)
Total
73,760 (67,796–79,391)
30,796 (26,573–35,398)
20,862 (18,140–23,688)
Data are mean (lower–upper 95% confidence limits)
EVT endovascular treatment, GP general practitioner
aCosts (in euros) are undiscounted. Costing base year was 2018
The mean yearly costs of institutional care for patients receiving usual care in the MR CLEAN control group were € 62,214 in the first, € 19,276 in the second year of follow-up, and an assumed yearly € 10,040 in subsequent years (Tab. 1). For noninstitutional care, the mean yearly costs were € 11,546 in the first year and € 11,510 in the second year and assumed to level at € 10,822 in subsequent years. Tab. 1 reports further details by treatment scenario, care sector and follow-up year.
Budget impacts
The almost tripling increase—from 812 in 2015 to over 2,300 in 2020–2021—of new yearly patients who received add-on EVT instead of usual care (including IVT) increased pressure on hospital care budgets up to € 16 million yearly or almost € 92 million during 2015–2021. GPs experienced a more limited pressure with an increase of demand for care up to an extra € 156,000 in 2021. Budget savings were noted in all other relevant care sectors. In descending order, the budgets for rehabilitation were mostly affected (−€ 143 million in total), followed by formal home care (−€ 75 million), nursing home care (−€ 68 million) and paramedical care (−€ 17 million).
Figure 2 shows the budget impact per care sector for the successive calendar years 2015–2021. The yearly net reduction in budget across all care sectors first exceeded the € 50 million mark in 2020 and further continued to increase (Fig. 2).
Fig. 2
Budget impact of endovascular treatment as add-on to usual care (2015–2021)
×
Discussion
We estimated the budget impact of EVT for AIS patients in the Netherlands from 2015 through 2021, following the initially and later confirmed positive results of the MR CLEAN study. In 2022, we published the results of our economic evaluation, including a cost-effectiveness analysis [7]. It showed that EVT dominated standard treatment with $ 18,233 saved per extra patient with a good outcome and $ 105,869 saved per additional quality-adjusted life year. In other words, EVT is cost-effective: it improves quality of life and saves costs compared with usual care [7].
In this additional budget impact analysis, we showed that the introduction of EVT as an add-on to usual care already started to pay off by net budget savings of well over € 50 million yearly. These results leave room for facing financial challenges or for additional expenditures in other areas of medicine where these are needed most. Furthermore, it may guide reimbursement decisions and influence future price and volume negotiations between for example insurance companies and healthcare providers.
We did not identify any other BIA of EVT for AIS patients in the literature to compare our results with. One previous Dutch study estimated future healthcare costs by considering the expected increase of stroke patients and a nationwide implementation of acute stroke services [14]. The investigators estimated that the total costs of stroke based on current practice at that time increased from 1.62 billion euros in 2000 to 2.08 billion euros in 2020, taking into account the effect of demographic changes and trends in major risk factors for stroke. Implementing stroke services in 2020 would result in reduction of stroke costs by 13%, to a total of 1.81 billion euros [14]. Although these results are not directly comparable to our study, they also showed stroke is a disease with a heavy burden on total healthcare costs and that implementation of effective treatment strategies significantly results in cost reduction in the healthcare budget. Our findings further expand on these results, as EVT will be part of optimisation and implementation of acute stroke services.
Strengths and limitations
Our BIA has several strengths and limitations. The current BIA input data were retrieved from our economic evaluation that gathered empirical data on the use of resources following either EVT or usual care during 2 years of follow-up, alongside a pragmatic randomised clinical trial. Hence, results were based on real-life scenarios derived from a single source instead of data based on extrapolation of assumptions from multiple sources, which are often used in economic studies.
We did, however, make assumptions on the patient’s health status and related costs after the 2 years of follow-up to estimate the costs in subsequent years, without performing a sensitivity analysis for different scenarios. The latter may have resulted in considerable changes in the estimated outcomes. Still, given the large amount of net savings, together with a low rate of recurrent strokes or major complications observed during clinical follow-up, it is to be expected such additional analysis would not have changed the results substantially [13]. In addition, our model was based on observed rather than expected stroke patients, who proved eligible for EVT by having received treatment and being included in nationwide Dutch registries. Hence, epidemiological uncertainty was absent.
The current BIA did not address the implementation costs of EVT to attain a geographically optimal spread across the nation beyond the co-operation of study centres already in place. Currently, the optimalisation and organisation of centralisation of EVT is ongoing. As the positive results of the trials were only relatively recently known and Dutch hospitals are still in the process of improving their logistics for EVT, it seems certain that patient numbers may continue to rise in the years to come.
Conclusion
In view of the yearly numbers of AIS patients who received EVT in the Netherlands from 2015 through 2021, introduction of EVT as add-on to usual care will continue to lead to substantial net annual budget savings.
Funding
This work was supported by the Netherlands Organisation for Health Research and Development (ZonMw) and is registered in the Dutch Trial Register (number 5073). The MR CLEAN study was funded by the Dutch Heart Foundation (Hartstichting) and through unrestricted grants from AngioCare BV, Covidien/EV3, MEDAC GmbH/LAMEPRO, Stryker and Penumbra Inc. The MR CLEAN trial is registered in the Dutch Trial Register (number 1804) and in the ISRCTN registry (number ISRCTN10888758). The MR CLEAN Registry is funded by unrestricted grants from Toegepast Wetenschappelijk Instituut voor Neuromodulatie, Twente University (TWIN), Erasmus Medical Centre, Amsterdam University Medical Centres and Maastricht University Medical Centre. The study sponsors were not involved in the study design, study conduct, protocol review or manuscript preparation or review.
Conflict of interest
Erasmus Medical Centre received consulting fees from Stryker for A. van der Lugt. Maastricht University Medical Centre received consulting fees from Stryker and Cerenovus for W.H. van Zwam. C.B.L. Majoie received research grants from CVON/Dutch Heart Foundation, European Commission, Healthcare Evaluation Netherlands, TWIN Foundation and Stryker. C.B.L. Majoie and Y.B. Roos are shareholders of Nicolab, a company that focuses on the use of artificial intelligence for medical image analysis. D.W.J. Dippel and A. van der Lugt received grants from Stryker, Penumbra Inc., Medtronic, Cerenovus, Dutch Heart Foundation, Brain Foundation Netherlands, Netherlands Organisation for Health Research and Development and Thrombolytic Science, all unrestricted and paid to Erasmus Medical Centre. L.A. van den Berg, O.A. Berkhemer, P.S.S. Fransen, D. Beumer, R.J. van Oostenbrugge and M.G.W. Dijkgraaf declare that they have no competing interests.
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
Het Netherlands Heart Journal wordt uitgegeven in samenwerking met de Nederlandse Vereniging voor Cardiologie. Het tijdschrift is Engelstalig en wordt gratis beschikbaa ...
Budget impact of endovascular treatment for acute ischaemic stroke patients in the Netherlands for 2015–2021
Auteurs
Lucie A. van den Berg Olvert A. Berkhemer Puck S. S. Fransen Debbie Beumer Charles B. L. Majoie Diederik W. J. Dippel Aad van der Lugt Robert J. van Oostenbrugge Wim H. van Zwam Yvo B. Roos Marcel G. W. Dijkgraaf the MR CLEAN investigators
