In investing, what is comfortable is rarely profitable.
— Robert ArnottStroke is one of the leading causes of mortality and morbidity worldwide, leaving approximately one in four stroke survivors with significant disability. Reference Donnan, Fisher, Macleod and Davis1,Reference Patel, Tilling, Lawrence, Rudd, Wolfe and McKevitt2 In addition, stroke care is costly, with Canada alone spending approximately 3.6 billion dollars per year in stroke care. Reference Boulanger, Lindsay and Gubitz3 These costs include both direct costs (i.e., hospital beds, hospital personnel and time, diagnostic imaging, surgical interventions, prescription medications, and physician costs) and indirect costs (i.e., out-of-pocket expenses for rehabilitation, loss of productivity, and informal caregiving). Reference Mittmann, Seung and Hill4 Use of catheter-based endovascular thrombectomy (EVT) in eligible patients has been associated with a significant reduction in the disability and mortality associated with ischemic stroke. Reference Boulanger, Lindsay and Gubitz3 However, EVT is only available for patients with an ischemic stroke due to a large-vessel arterial occlusion, approximately 25–46% of all acute ischemic stroke patients, Reference Rennert, Wali and Steinberg5 and of these, only few meet the inclusion criteria for EVT based on severity of symptoms and brain imaging. Further, it has additional costs associated with inter-hospital transfers; procedural and post-procedural care; and personnel costs, and so, it is only available at select few centers. Reference Kunz, Almekhlafi and Menon6 Therefore, at a population level, investing in EVT programs that benefit only a selected few has been an area of considerable debate for policy makers and health economists.
In this issue of the Journal, Thanh etal. evaluate if investments in provincial EVT programs can help save money from a provincial perspective. Reference Thanh, Jeerakathil and Stang7 They examined the cost benefit of a provincial strategy, Endovascular Reperfusion Alberta (ERA) project, that aimed to improve access to EVT in Alberta. This provincially funded strategy included investments of $2.04 million and $3.73 million in the years 2018 and 2019, respectively, in the following areas: revision of emergency medical services triage and transport pathways, inter-hospital referrals, establishment of imaging in remote stroke centers, and improvement in processes to reduce treatment times. Subsequently, 172 and 218 more people received EVT in 2018 and 2019, respectively. To evaluate the savings that may have occurred from increasing access to EVT, the authors used health service utilization data and the associated direct costs, obtained from standardized provincial health care cost data, of 99 patients (52 of whom received EVT) with acute ischemic stroke who were enrolled in the ESCAPE Reference Goyal, Demchuk and Menon8 randomized controlled trial in 2013–2014. The savings were calculated as a function of costs avoided by the reduced health care utilization among those who received EVT compared to those who did not. These were inflated to 2019 Canadian dollars. The net benefit was calculated as the sum of savings (from cost-avoidance) for all additional patients receiving EVT minus the provincial investment in the year. Overall, the greatest net cost saving was found at 1-year ($54,592 per patient) and 5-year ($47,070 per patient) time-points, but not at 90 days (-$7,313 per patient). At a population level, this translates to an estimated net savings of $9.4-$8.11 million in the long term, and a return on investment (ROI), calculated as the ratio of benefit and cost, of 5–5.6. The provincial strategy was cost beneficial across various sensitivity analyses. These findings mirror those of others that suggest EVT is cost-effective. Reference Kunz, Almekhlafi and Menon6,Reference Xie, Lambrinos and Chan9
It is impossible to directly attribute the increase in the number of people who received EVT to the provincial strategy, but such ecological fallacy Reference Pearce10 plagues all public health interventions unless they are studied in natural experiment studies Reference Vyas, Fang and Kapral11 or cluster randomized trials. Reference Hemming, Eldridge, Forbes, Weijer and Taljaard12 Unfortunately, cluster randomized trials are not possible for all new life-saving interventions due to the costs associated with such trials or the lack of clinical equipoise. Another important limitation acknowledged by the authors is the lack of data on indirect costs in their analysis. While some of these may not fall under the mandate of the provincial health ministry, a cross ministerial committee (including finance and health) could help make an economic argument for investment in EVT programs, especially because it could help reduce lost productivity in young stroke survivors. Reference Vyas, Hackam, Silver, Laporte and Kapral13 A review of ROIs from 23 public health interventions in the UK found the median ROI of any public health intervention to be 14.3, Reference Masters, Anwar, Collins, Cookson and Capewell14 placing the ROI from the ERA project below the median. However, the ROI of local public health interventions is considerably lower (median ROI 4.1) compared to national public health interventions (median ROI 27.2), Reference Masters, Anwar, Collins, Cookson and Capewell14 supporting the need to develop a national coordinated stroke strategy to improve EVT access and delivery.
The study by Thanh etal. Reference Thanh, Jeerakathil and Stang7 highlights the importance of long-term follow-up when evaluating public health interventions. For episodic conditions such as stroke, where the costs of stroke care are significant in the first few days following stroke, it is easy to conclude that an intervention has no benefit (or is harmful) if it is evaluated only in the short term. Further, public health interventions often have high start-up costs (e.g., setting up an EVT center), but low operating costs, reaping long-term returns on upfront investments. Lastly, this study underscores the value of linking clinical trial data to robust administrative databases for long-term evaluation. Reference Henry and Fitzpatrick15
Some unanswered questions remain: What components of the ERA project are most important in reducing the costs? Could similar provincial strategies be effective in other jurisdictions where more than just two EVT centers may be present, or with a different geographical landscape? Lastly, can the economic argument of a high ROI help mobilize scarce healthcare resources to deliver guideline-recommended life-saving therapies to larger populations?
In summary, despite the considerable upfront investments required to improve EVT access and care, it saves lives at a population level and this study shows that it can help save money too, especially in the long term. These savings can (or should) be potentially used to improve access to EVT in remote areas, making it equitable at a population level, and to improve stroke prevention and acute stroke care for non-EVT-eligible patients.
Acknowledgements
We thank Dr Amy Y.X. Yu and Dr Moira K. Kapral for their helpful comments on a previous version of this manuscript.
Disclosures
The authors have no conflicts of interest.
Statement of Authorship
AMK and MVV were in conception of the study and co-wrote the manuscript. MVV supervised AMK and is the guarantor.