Abstract
Background
The proper imaging modality for use in the selection of patients for endovascular thrombectomy (EVT) presenting in the late window remains controversial, despite current guidelines advocating the use of advanced imaging in this population. We sought to understand if clinicians with different specialty training differ in their approach to patient selection for EVT in the late time window.
Methods
We conducted an international survey of stroke and neurointerventional clinicians between January and May 2022 with questions focusing on imaging and treatment decisions of large vessel occlusion (LVO) patients presenting in the late window. Interventional neurologists, interventional neuroradiologists, and endovascular neurosurgeons were defined as interventionists whereas all other specialties were defined as non-interventionists. The non-interventionist group was defined by all other specialties of the respondents: stroke neurologist, neuroradiologist, emergency medicine physician, trainee (fellows and residents) and others.
Results
Of 3000 invited to participate, 1506 (1027 non-interventionists, 478 interventionists, 1 declined to specify) physicians completed the study. Interventionist respondents were more likely to proceed directly to EVT (39.5% vs. 19.5%; p < 0.0001) compared to non-interventionist respondents in patients with favorable ASPECTS (Alberta Stroke Program Early CT Score). Despite no difference in access to advanced imaging, interventionists were more likely to prefer CT/CTA alone (34.8% vs. 21.0%) and less likely to prefer CT/CTA/CTP (39.1% vs. 52.4%) for patient selection (p < 0.0001). When faced with uncertainty, non-interventionists were more likely to follow clinical guidelines (45.1% vs. 30.2%) while interventionists were more likely to follow their assessment of evidence (38.7% vs. 27.0%) (p < 0.0001).
Conclusion
Interventionists were less likely to use advanced imaging techniques in selecting LVO patients presenting in the late window and more likely to base their decisions on their assessment of evidence rather than published guidelines. These results reflect gaps between interventionists and non-interventionists reliance on clinical guidelines, the limits of available evidence, and clinician belief in the utility of advanced imaging.
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Introduction
Endovascular thrombectomy (EVT) benefits certain patients with large vessel occlusion (LVO) acute ischemic stroke presenting in the late window, as first demonstrated by the DEFUSE 3 and DAWN randomized trials [1, 2] and later with the large core thrombectomy trials [3,4,5]. Patient selection in DEFUSE 3 and DAWN trials was highly restrictive and based on advanced imaging techniques, CT perfusion (CTP) and MRI, to assess for potentially salvageable brain tissue within penumbra regions. In spite of methodological flaws that limit trial generalizability, the selection criteria of these trials have been incorporated into current major stroke guidelines and recommend the use of advanced imaging in the selection of patients for EVT presenting in the late window [6,7,8]. Moreover, ongoing thrombectomy device trials mandate advanced neuroimaging for patients presenting in the 6–24h window (e.g. ENVI trial, NCT05107206), in accordance with the FDA’s adherence to clinical guidelines. Recent guidelines have not been as restrictive, reflecting the medical uncertainty on this issue [9].
Advanced imaging requires substantially increased cost and resources compared to standard imaging (CT and CT angiography [CTA]) which may present a barrier to the use of these techniques and, in turn, the use of EVT in the late window [10,11,12]. The potential delay in care from the use of advanced imaging may diminish the benefits of EVT, and might exclude beneficiaries from thrombectomy on the basis of rigid parameters. Additionally, quantitative perfusion thresholds that were used as selection criteria had not been properly justified before the conduct of the trials, and there are reasons to suspect they were too restrictive, as shown by the exceptionally good results of thrombectomy in late comers [1, 2]. Recent research such as the CT for Late Endovascular Reperfusion (CLEAR) study has cast doubt on the requirement of advanced imaging for patient selection [13,14,15]. In CLEAR, there was no difference in outcomes between patients selected for EVT using CT/CTA alone versus patients selected using MRI or CTP, and the median door-to-puncture time was 20 min shorter for patients selected by CT/CTA compared to advanced imaging [13]. Moreover, the rate of reperfusion without functional independence (or previously termed futile reperfusion) was not worse in those who were selected by non-contrast CT (NCCT) vs. advanced imaging [10]. In the early window, large strides have been made to decrease the door-to-puncture time [16,17,18,19,20] including standardized stroke protocols and direct-to-thrombectomy workflow pathways [21, 22]. Interventionists, as practitioners of EVT in the angiography suite, are often at the forefront of patient workflow with vascular neurologists, neuroradiologists, and emergency room physicians, and have first-hand experience with the delays encountered in arterial puncture affecting optimal delivery of care. Additionally, a previous survey of specialist perceptions of EVT in basilar artery occlusion revealed differences in opinion as to the benefit of EVT [23] and patient selection between interventionists and non-interventionists [24].
In the context of new evidence about patient selection in the late window, we sought to understand if clinicians with different specialty training differ in their approach to patient selection for EVT in the late time window.
Methods
Approval was obtained via Boston Medical Center Institutional Review Board (IRB H‑37519). Data are available upon request to the corresponding author.
Design
The online survey consisted of demographic questions followed by 11 questions examining views on the imaging selection of patients for EVT in the late window [25]. Senior authors developed the questions, and the survey had an estimated completion time of less than 5 min. Participants were exposed to simulated case scenarios including direct questions about opinions toward the availability of imaging and management decisions. Responses to the online survey were collected using the Research Electronic Database Capture (REDCap) system, a web-based application hosted by the Boston University Clinical and Translational Science Institute 1UL1TR001430.1. A complete copy of the survey is available in the Supplement.
Distribution
The survey link was distributed through national and international groups including: Argentina Neurology Society, Brazil Stroke Society, German Stroke Trial Network, Italian Stroke Society, Colombia Association of Neurology, Norway Stroke Organization, the Japanese Society for Neuroendovascular Therapy, Dutch Neurovascular Society, British and Irish Association of Stroke Physicians, Welsh Association of Stroke Physicians, Stroke Clinical Trials Network in Ireland, Madrid Association of Neurology, Indonesian Neurointerventionalists, the Lithuanian Stroke Association, Society of Vascular and Interventional Neurology (SVIN), Global SVIN COVID-19 stroke registry, Whatsapp or Telegram group for three Neurointerventional groups, WeChat Stroke Network in China, MT2020, and Women in Neurointervention.
Statistical Analysis
Statistical analysis was conducted using JMP 15 software (SAS Institute, Cary, NC, USA). Responses without an email address provided, responses only to demographic questions, and duplicate or blank responses were excluded from the analysis. Country income was stratified according to the World Bank classification. The interventionist group was defined by the following specialties: interventional neurologist, interventional neuroradiologist, and endovascular neurosurgeon. The non-interventionist group was defined by all other specialties of the respondents: stroke neurologist, neuroradiologist, emergency medicine physician, trainee (fellows and residents) and others (Table 1).
Where appropriate, intergroup differences were assessed with the χ2-test or Fisher’s exact test. Missing values were not imputed. Statistical significance was set at α = 0.05.
Results
Approximately 3000 participants were invited to participate, yielding 1696 total responses. Responses without email identification, those responding only to demographic questions, duplicate responses, and blank responses were excluded. This yielded 1506 responses for analysis, of which 1027 (68.2%) were from non-interventionists, 478 (31.8%) from interventionists, and 1 was without a specialty provided.
Demographics
Overall, 83.5% were younger than 50 years old, 75.0% were practicing in a high-income country, 89.6% were practicing at a comprehensive stroke center, and 68.2% were non-interventionists. Characteristics of the cohort are provided in Table 1.
Interventionist respondents were more likely to be ≤ 50 years old (87.7% vs. 81.5%; p = 0.0027), more likely to practice at a comprehensive stroke center (96.4% vs. 86.4%; p < 0.0001), and more likely to practice in a low-income or middle-income country (34.1% vs. 20.8%; p < 0.0001) compared to their non-interventionist counterparts. Interventionists were more likely to be from Asian countries (37.0% vs. 18.1%) while non-interventionists were more likely to be from European countries (45.1% vs. 22.6%) (p < 0.0001). Characteristics of both groups are reported in Table 1.
Patient Selection for Reperfusion Therapy
Participants exposed to a case scenario of a wake-up stroke, 9 hours from last seen well with CT ASPECTS of 9 and a left middle cerebral artery M1 occlusion, were asked about their preferred next step in management. When provided options to proceed with additional imaging or endovascular intervention, the most common recommendation among interventionists and non-interventionists was to request a CTP or MRI prior to EVT (45.6% and 39.7%, respectively). Interventionists were more likely to select a direct-to-EVT approach (39.5% vs. 19.5%) and less likely to recommend CTP or MRI prior to combined intravenous thrombolysis (IVT) and EVT (11.0% vs. 32.2%), as compared to non-interventionists (p < 0.0001, Table 2, Q0).
Another case scenario included a patient with a stroke, 7 hours from symptom onset with National Institutes of Health Stroke Scale (NIHSS) of 17, CT ASPECTS of 4 and a left M1 occlusion. The most common recommendation among interventionists and non-interventionists was to perform CTP and then triage the patient for further treatment (31.3% and 37.7%, respectively). Interventionists were more likely to proceed directly to thrombectomy than non-interventionists, but this difference was not significant (14.8% vs. 10.1%; p = 0.0692) (Table 2, Q8).
We also investigated another paradigm of care of uncertainty based on the availability of practice guidelines and standards of care. Non-interventionists were more likely to follow clinical guidelines (45.1% vs. 30.2%) while interventionists were more likely to follow standard clinical practice based on their assessment of evidence (38.7% vs. 27.0%) (p < 0.0001). No consistent strategy for selection was employed by 24.8% of interventionists and 17.4% of non-interventionists (Table 2, Q2).
Respondents who indicated that they would base treatment on their assessment of evidence were more likely to recommend a direct to EVT approach for Q0 compared to those who indicated they would base treatment on clinical guidelines (36.56% vs. 16.16%; p < 0.0001); however, the method of decision making reported by the respondent did not directly map to the response to a real-world clinical scenario. At least one respondent in each decision-making group of Q2 selected each management option of Q0 (Fig. 1). Among the respondents who indicated they would follow practice guidelines, only 57.58% of interventionists and 44.58% of non-interventionists followed the AHA guidelines by recommending to proceed with CTP or MRI followed by EVT for Q0 (p < 0.0001).
Advanced Imaging Availability and Timing
Advanced imaging was available and used routinely by 73.5% of interventionists and 69.3% of non-interventionists. There were 14.3% of interventionists and 13.9% of non-interventionists who responded that advanced imaging was possible irrespective of date and time but was not always immediately available (p = 0.23) (Table 2, Q3).
When advanced imaging is not available, interventionists were more likely to use CT alone for patient selection (83.6% vs. 63.6%) and less likely to select medical management only (2.7% vs. 10.0%) compared to non-interventionists (p < 0.0001). There was no difference between interventionists and non-interventionists in the length of delay they believed acceptable to obtain advanced imaging or in the delay it currently takes their center to obtain advanced imaging. The majority of both groups believed a delay of 20 min or less was acceptable to obtain advanced imaging. The majority of both groups reported it currently takes their center 20 min or less to obtain advanced imaging.
When asked their preferred imaging method for selection of reperfusion therapy in patients presenting in the late window, interventionists were more likely than non-interventionists to prefer CT/CTA alone (34.8% vs. 21.0%) and less likely to prefer CT/CTA/CTP (39.1% vs. 52.4%) (p < 0.0001) (Table 2, Q1); however, when asked about their practice for these patients, most interventionists and non-interventionists responded that they used advanced imaging in every case (63.5% vs. 63.6%; p = 0.35). Furthermore, only 7.3% of interventionists and 6.9% of non-interventionists would select patients for reperfusion therapy in the late window using CT/CTA alone (Table 2, Q4).
Discussion
Endovascular reperfusion has been proven as an effective therapy in the late window, but decisions around patient selection are still under debate [13]. We investigated how interventionist and non-interventionist colleagues make such decisions. We found that interventionists are less likely to prefer advanced imaging techniques in selecting patients for LVO presenting in the late window, but a similar majority of each group reported using advanced imaging in every case in their own practice. Advanced imaging is routinely available to most respondents, irrespective of specialty, and a delay of 20 min was deemed acceptable by the respondents. Interventionists were more likely to base their decisions on their expertise and assessment of evidence (e.g. observational studies or RCTs) rather than published guidelines.
Advanced imaging is recommended for patient selection for EVT in the late window by major society guidelines including the European Stroke Organization and the American Heart Association (AHA) [6, 7]. The CLEAR and other studies challenge these stringent parameters and indicate good outcomes can be achieved using CT without advanced imaging [13, 26, 27]. Compared to CT/CTA, advanced imaging represents increased costs, staffing, radiation dose, and image acquisition time. Nonetheless, advanced imaging was available 24/7 to more than 80% of respondents and used for every patient by 63%. Approximately half (52.7%) of interventionists preferred advanced imaging while one third (34.8%) preferred the use of CT/CTA, and the remaining interventionists made individualized decisions. Only one third of interventionists based their treatment decisions on clinical guidelines. This result indicates a strong adherence to stroke guidelines, despite many respondents indicating that their preferred patient selection method did not include advanced imaging and the minority of respondents stating that their treatment decisions are based upon published guidelines alone.
In the case of M1 occlusion wake-up stroke presenting 9 hours after last known well (LKW) with ASPECTS 9, interventionists were more likely to proceed directly to EVT than their non-interventionist colleagues. In a third of non-interventionist respondents, this divergence in management may be related to further selection of their patient for IVT prior to EVT in the wake of the extended window intravenous thrombolysis trial data [28]. While the bridging IVT/EVT trials for patients with LVO failed to demonstrate non-inferiority of EVT alone to IVT/EVT bridge in the early window (IVT < 4.5 h), it is unknown whether bridging thrombolysis should be performed or skipped for patients with LVO in the extended window [29, 30].
With regards to patients presenting with large core infarct, in the case of a M1 occlusion stroke presenting 7 hours after LKW with ASPECTS 4, there was no difference in responses between the specialty categories. There was a pattern toward interventionists choosing to proceed directly to EVT compared to non-interventionists. These results suggest hesitance among respondents to proceed to EVT in patients with low ASPECTS scores. The recent RESCUE-Japan LIMIT trial found a benefit over medical management for EVT in patients with a MRI-ASPECTS or CT-ASPECTS of 3–5 presenting up to 24h [3]. These results were summarized for survey respondents prior to the question involving a patient with an ASPECTS of 4. Approximately one quarter of both interventionists and non-interventionists stated they would randomize such a patient to an ongoing large infarct clinical trial [31,32,33], perhaps reflecting uncertainty whether these results were generalizable to their practice.
The results of the RESCUE-Japan LIMIT trial and the CLEAR study have not been incorporated into most guidelines. The responses seen in this survey may reflect strong adherence to current guidelines, despite respondents’ beliefs that their decisions are based upon clinical evidence or individualized decisions. Nonetheless, the results of this survey reflect gaps, especially among interventionists, between clinical guidelines, clinician beliefs and perceptions, and clinicians’ current practice. Given a rapidly evolving field, closing these gaps may necessitate more frequent guideline updates and a focus on conducting broadly inclusive trials [34].
As with any survey, the results of this study reflect opinions of providers and cannot be used to infer best practices in the treatment of patients. First, the behavior of clinicians willing to respond to a survey about practice patterns may be more aligned to guidelines than clinicians unwilling to respond, creating a response bias. Second, while this survey captured many responses from across the globe, clinicians from Africa, South America, Central America, and Oceania were underrepresented. Given that these regions are home to many low-income and middle-income nations where advanced imaging may present an increased burden [35] due to its high cost, the perceptions of these clinicians can inform the divergent preferences between non-interventionists and interventionists in the acute management of patients with large vessel occlusion stroke presenting in the extended time window. Third, there was no external validation. As a result, participants may have overestimated or underestimated the use of advanced imaging at their center and the time of the delay associated with advanced imaging. Finally, the results of the survey were presented prior to the presentation of the MR CLEAN LATE results in October 2022, demonstrating in patients with LVO presenting in the 6–24 h window, better outcomes were achieved in those selected by CT and CTA collaterals compared to medical management [36, 37]. The survey was also conducted prior to publication of the ANGEL-ASPECT and SELECT2 randomized trials demonstrating benefit of EVT in patients with large ischemic core infarct [4, 5].
Conclusion
In the evolving field of reperfusion therapies for acute ischemic stroke, interventionists were less likely to use advanced imaging techniques in the selection of patients for LVO presenting in the late window and more likely to base their decisions on their own expertise and assessment of evidence rather than published guidelines. These results reflect gaps between clinical guidelines, clinician beliefs and perceptions, and the current practice of interventionists. Closing these gaps may require a shift in age-old paradigms, and the acceptance of a growing body of evidence [38] supporting pragmatic criteria with lower cost and accessible technology (i.e., NCCT) in the selection of patients for EVT in the late window.
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S. Nagel: consultancy for Brainomix, speaker with Boehringer Ingelheim, Pfizer. T.S. Field: research grants from Bayer, consultancy for HLS Therapeutics, Roche. V. Puetz: lecturer Daiichi Sankyo. U. Fischer: research grants from Medtronic, Stryker, Rapid Medical, Penumbra, Phenox, Swiss Science Foundation, Swiss Heart Foundation; consultant Medtronic, Stryker, CSL Behring; advisory board for Alexion/Portola, Boehringer Ingelheim. H. Yamagami: research grants Bristol Myers Squibb, lecturer Bayer, Daiichi-Sankyo, Stryker, Bristol-Myers Squib; advisory Daiichi-Sankyo. S. Sacco: research grants Novartis and Uriach; advisor/speaker Abbott, Allergan-Abbvie, AstraZeneca, Lilly, Lundbeck, Novartis, Novo Nordisk, Pfizer, Teva. R. Mikulik: project IRENE COST Action-Implementation Research Network in Stroke Care Quality, INTER-EXCELLENCE INTER-COST program of Ministry of Education, Youth and Sports of Czech Republic. J.E. Siegler: speaker with AstraZeneca. R. Masiliūnas: IRENE COST Action-Implementation Research Network in Stroke Care Quality. J.P. Marto: consulting Amicus Therapeutics, Boehringer Ingelheim; Speaker Boehringer Ingelheim. J.D. Diestro: Honoraria from Medtronic, travel grant from Microvention. G. Thomalla: consultant Acandis, Alexion, Amarin, Bayer, Bristol Myers Squibb/Pfizer, Boehringer Ingelheim, Portola, Stryker. M. Parsons: research Siemens, Canon, Apollo Medical Imaging. R.G. Nogueira: consulting Anaconda, Biogen, Cerenovus, Genentech, Hybernia, Imperative Care, Medtronic, Phenox, Philips, Prolong Pharmaceuticals, Stryker Neurovascular, Shanghai Wallaby, Synchron; advisory Astrocyte, Brainomix, Cerebrotech, Ceretrieve, Corindus Vascular Robotics, Vesalio, Viz-AI, RapidPulse, Perfuze; investments in Viz-AI, Perfuze, Cerebrotech, Reist/Q’Apel Medical, Truvic, Viseon. G. Saposnik: research grants, consulting from Roche; Editor-in-chief, World Stroke Academy. T.N. Nguyen: research support Medtronic, SVIN. P. Klein, X. Huo, Y. Chen, M. Abdalkader, Z. Qiu, J. Raymond, L. Liu, J.E. Siegler, D. Strbian, S. Yaghi, M.M. Qureshi, J. Demeestere, A. Berberich, P. Michel, J. Kaesmacher, F. Alemseged, G. Tsivgoulis, W.J. Schonewille, W. Hu, X. Liu, C. Li, X. Ji, B. Drumm, S. Banerjee, E.C. Sandset, E.S. Kristoffersen, P. Slade, M. Romoli, F. Diana, K. Krishnan, P. Dhillon, E. Kasper, H. Dasenbrock, M.D. Ton, A.A. Arsovska, A.A. Dmytriw, R.W. Regenhardt, G.S. Silva, T. Siepmann, D. Sun, H. Sang, P. Yang, M.H. Mohammaden, F. Li, H.E. Masoud, A. Ma, Raynald, A. Ganesh, J. Liu, L. Meyer, D.W.J. Dippel, A.I. Qureshi, M. Goyal, A.J. Yoo, B. Lapergue, O.O. Zaidat, H.-S. Chen, B.C.V. Campbell, T.G. Jovin, and Z. Miao declare that they have no competing interests.
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The authors Thanh N. Nguyen and Gustavo Saposnik contributed equally to the manuscript.
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Klein, P., Huo, X., Chen, Y. et al. Specialist Perspectives on the Imaging Selection of Large Vessel Occlusion in the Late Window. Clin Neuroradiol 33, 801–811 (2023). https://doi.org/10.1007/s00062-023-01284-0
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DOI: https://doi.org/10.1007/s00062-023-01284-0