“The evidence does not support a net patient-oriented benefit of thrombolysis for acute ischemic stroke.”
Summary of the evidence
The National Institute of Neurologic Disease Study (NINDS) is the study that could be credited with starting the tPA debate 24 years ago.6 This is the first and only randomized controlled trial (RCT) that reports a benefit of tPA for acute ischemic stroke under 3 hours. There were two parts to NINDS. Each part enrolled around 300 patients.
• NINDS, Part 1: The primary outcome was to see whether there was an improvement of 4 or more points on the National Institutes of Health Stroke Scale (NIHSS) score at 24 hours. They failed to demonstrate a statistical difference between tPA and placebo (i.e., it was a “negative trial”).
• NINDS, Part 2: The primary outcome was a good neurologic outcome at 90 days. The results were 26% in the placebo group and 39% in the tPA group (an absolute difference of 13%). There was also a 6% absolute increase in symptomatic intracranial hemorrhage (ICH).
The NINDS trials were limited by a relatively small sample size compared to the literature on thrombolysis in myocardial infarction, whose study populations were larger by one to two orders of magnitude. Furthermore, the groups were unbalanced on baseline stroke severity, which is a strong predictor of final stroke outcome.Reference Adams, Davis and Leira7
Hoffman and Schriger did a re-analysis of NINDS, Part 2, trying to control for some of the prognostic factors for outcome like stroke severity. The effect of tPA disappeared and the “time is brain” claim was not supported.Reference Hoffman and Schriger8
The third European Cooperative Acute Stroke Study (ECASS-III) is the only other RCT of tPA for stroke that has reported benefit.Reference Hacke, Kaste and Bluhmki9 They enrolled 821 patients who presented between 3 and 4.5 hours after symptom onset. ECASS-III showed a 7% absolute benefit for a favorable outcome for efficacy. There was a 10% increase in any ICH with tPA and a 2% increase in symptomatic ICHs. Shy reported on the updated ECASS-III online results that report stroke history as a significant difference between the groups (14.1% placebo v. 7.7% tPA), resulting in no benefit in the adjusted analysis.Reference Shy10 Also, if the endpoint is altered from the modified Rankin Scale (mRS) 0-1 versus 2-6, to a more realistic mRS 0-2 versus 3-6, the purported benefits of tPA disappear.Reference Ferguson11
The third international stroke trial (IST-3) is the largest RCT in the tPA literature (n = 3035).12 It was ethically approved for tPA in patients within 6 hours after symptom onset and included higher risk patients (over 80 years old). This was despite two other trials, ECASS-I and II, showing no benefit and increased harm (ICH and death).Reference Hacke, Kaste and Fieschi13, Reference Hacke, Kaste and Fieschi14
IST-3 was a seriously flawed study for a number of reasons.Reference Hoffman and Cooper15 The first 276 patients were double-blinded placebo controlled, and they found no statistical benefit. The study was then unblinded, which introduces bias. Patients were included if the clinician and patient agreed that the treatment was promising (selection bias).
The authors used a stroke severity score that is similar to the mRS. The reliabilityReference Wilson, Hareendran and Hendry16 of the mRS is only moderate in trained clinicians, and its validityReference Zhao, Collier, Quah, Purvis and Bernhardt17 has been questioned. However, the outcomes for IST-3 were not done by trained clinicians but rather based on a mailed questionnaire or phone call to the unblinded patient. This lack of blinding introduces a placebo effect biasing the study towards efficacy. It is also unreasonable to expect the outcome assessment to be reliable and valid when unblinded stroke patients are self-reporting a subjective outcome.
The study was originally powered to have a sample size of 6,000 patients. Part way through the study, the authors realized 6,000 was no longer feasible. A second statistician persuaded the group that an ordinal method was both statistically more efficient and robust, rather than a dichotomous outcome (good v. bad neurologic outcome). Others argue that this is a flawed approach.Reference Radecki, Chathampally and Press18
The a priori primary dichotomous outcome of good neurologic function was under-powered and negative (no demonstrated statistical benefit). Adverse events and harms were increased with tPA. The number needed to harm (NNH) for bleeding was 17 and for an early death was 25. Remarkably, the authors concluded that “despite the early hazards, thrombolysis within 6 h improved functional outcome. Benefit did not seem to be diminished in elderly patients.” A more accurate conclusion is that “tPA within 6 hours failed to demonstrate improved functional outcome, and there was an increase in ICH and early mortality.”
More recently, the fragility indexReference Walter19 has been flagged in this debate. The fragility index of a study is the number of patients who would need to have a different outcome to cause the p-value to increase above 0.05. The fragility index of the NINDS trial is 3 and ECASS-III is 1. A logical conclusion is that the bulk of published studies are correct – there is no clear benefit to tPA.
A summary of the thrombolysis literature is provided in Appendix A, recognizing that the evidence is more nuanced than a simple face emoji. However, there have been 12 studies with 1 positive 0-3 hours, 1 positive 3-4.5 hours, 6 not demonstrating a clinically important benefit, and 4 stopped early due to harm or unlikely to prove beneficial.
In the hierarchy of evidence-based medicine, systematic reviews and meta-analyses are put above RCTs.Reference Murad, Asi, Alsawas and Alahdab20 I do not agree completely with this hierarchy because systematic reviews and meta-analyses depend on a number of things, such as the quality of included and excluded studies. Many of the evidence syntheses of the thrombolysis literature do not seem to get us any closer to the “truth” about tPA for stroke.Reference Fatovich21
However, one systematic review and meta-analysis by Wardlaw et al. found no statistical difference between thrombolytic agents for stroke.Reference Wardlaw, Koumellis and Liu22 This finding is important because the systematic review and meta-analysis by Emberson et al. excluded any studies not using tPA as the thrombolytic agent.Reference Emberson, Lees and Lyden23 Furthermore, Emberson et al. included the seriously flawed IST-3.Reference Emberson, Lees and Lyden23 It is hard to understand how the negative IST-3 study does not move the totality of the evidence in an even more negative direction.
Emberson et al. also reported multiple conflicts of interest. This does not negate their interpretation, but industry-supported studies are associated with more favorable results and conclusions than sponsorship by other sources.Reference Lundh, Sismondo, Lexchin, Busuioc and Bero24,Reference Hansen, Lundh, Rasmussen and Hrobjartsson25 The Institute of Medicine published guidelines on systematic reviews and meta-analyses and recommends the exclusion of “individuals with a clear financial conflict of interest.”Reference Graham, Mancher, Wolman, Greenfield and Steinberg26
Donaldson et al. completed a systematic review and meta-analysis looking at the thrombolytic literature, reported no conflicts of interest, came to a skeptical conclusion, and encouraged more RCTs.Reference Donaldson, Fitzgerald, Flower and Delaney27 My interpretation of the literature is closer to Donaldson et al.’s than Emberson et al.’s.
Guidelines
Guidelines should guide not dictate our care. The American College of Emergency Physicians (ACEP) recently revised their guidelines due to concerns from their members.Reference Radecki28 They improved the management of conflicts of interest, added methodologists, and improved adherence to rating methodology. The older ACEP guidelines gave a Level A recommendation for the use of tPA under 3 hours and a Level B if given between 3 and 4.5 hours. The new ACEP guidelines downgraded the recommendations to Level B for patients presenting under 3 hours.29
The CSBP guidelines were published in International Journal of Stroke in 2018.Reference Boulanger, Lindsay and Gubitz4 However, International Journal of Stroke did not seem to adhere to the Institute of Medicine guidelines on managing conflicts of interest in the creation of the guideline.Reference Graham, Mancher, Wolman, Greenfield and Steinberg26 Specifically, it appears that the co-chairs of the guideline working group disclosed multiple conflicts of interest with the pharmaceutical industry. This included Boehringer Ingelheim that markets and sells tPA.Reference Boulanger, Lindsay and Gubitz4,Reference Casaubon, Boulanger and Blacquiere30
CJEM published a synopsis of the CSBP guidelines in 2018.Reference Lin, Lindsay and Shams5 The authors endorse a Level A recommendation for tPA in eligible patients with symptom onset under 4.5 hours. No competing interests were reported in this publication. However, three of the authors were on both the CSBP guideline paper and the CJEM synopsis paper. These individuals reported conflicts of interest with the pharmaceutical industry and specifically with Boehringer Ingelheim on the CSBP guidelines publications.Reference Boulanger, Lindsay and Gubitz4,Reference Casaubon, Boulanger and Blacquiere30 It is unclear as to why these conflicts of interest were not reported in the CJEM synopsis publication.
INTRODUCTION
Daniel Ting (@tingdan) and Paul Atkinson (@eccucourse)
This series of editorials provides CJEM readers with the opportunity to hear differing perspectives on topics pertinent to the practice of emergency medicine. The debaters have been allocated opposing arguments on topics where there is some controversy or perhaps scientific equipoise.
We continue with the topic of intravenous alteplase (tPA – tissue plasminogen activator) in the treatment of acute ischemic stroke. Ischemic stroke is a leading cause of disability for Canadians, and the role of tPA in treatment has been one of the most hotly contested issues in our field over the past two decades.Reference Harris, Lang, Perry and Morrison1, Reference Johnstone2 Although the rise of endovascular therapy (EVT) has shifted the conversation somewhat, tPA has broader indications and continues as a core component of treatment in stroke centres.
The Canadian Association of Emergency Physicians (CAEP) has recently changed its position on eligibility criteria for tPA in treating ischemic stroke. In 2015, CAEP gave a strong recommendation for the use of tPA within 3 hours of symptom onset and a weak/conditional recommendation against tPA in the 3- to 4.5-hour time window.Reference Harris, Hall and Lobay3 In 2018, the CAEP Board and Stroke Practice Committee endorsed the Level A Evidence recommendation for the use of tPA in patients presenting within 4.5 hours of symptom onset, provided by the Canadian Stroke Best Practices (CSBP) guideline group.Reference Boulanger, Lindsay and Gubitz4 The rationale for this change was that “the benefits of collaboration, including partnership in improved regional EVT pathways, outweigh the harms of [tPA] within the 3- to 4.5-hour treatment time window.”Reference Lin, Lindsay and Shams5 This change re-invigorated the debate of tPA in ischemic stroke on social media and across the country. This #CJEMdebate article provides a longer-form medium, facilitating a more nuanced discussion.
Dr. Ken Milne is Chief of Staff of the South Huron Hospital Association, the creator of the Skeptics’ Guide to Emergency Medicine website, and adjunct Professor at Western University. Dr. Milne argues that the evidence for the benefit of tPA has thus far been inadequate to reject the null hypothesis of no benefit, and, considering its high certainty of potential harm (bleeding), that emergency physicians ought to remain skeptical.
Dr. Eddy Lang is Professor and Department Head of the Calgary Zone and has chaired the last two CAEP position statements on stroke. He argues that not only is tPA the accepted, evidence-based treatment for ischemic stroke, but also that emergency physicians should be actively involved in the treatment and work collaboratively with stroke teams in developing stroke pathways.
Readers can follow the debate on Twitter and vote for either perspective, by going to @CJEMOnline or by searching #CJEMdebate.
INTRODUCTION
“The evidence does not support a net patient-oriented benefit of thrombolysis for acute ischemic stroke.”
Ken Milne (@TheSGEM)
To be clear, I am not “con” or against tPA for ischemic stroke but rather, skeptical. I do not make the claim that tPA does not work for stroke. Instead, I have not been convinced by the available evidence to reject the null hypothesis that thrombolysis has a net patient-oriented benefit in patients with stroke. The burden of proof is on those making the claim, and that burden has not been met. Therefore, I remain skeptical but willing to change my position if presented with more convincing evidence.
Summary of the evidence
The National Institute of Neurologic Disease Study (NINDS) is the study that could be credited with starting the tPA debate 24 years ago.6 This is the first and only randomized controlled trial (RCT) that reports a benefit of tPA for acute ischemic stroke under 3 hours. There were two parts to NINDS. Each part enrolled around 300 patients.
• NINDS, Part 1: The primary outcome was to see whether there was an improvement of 4 or more points on the National Institutes of Health Stroke Scale (NIHSS) score at 24 hours. They failed to demonstrate a statistical difference between tPA and placebo (i.e., it was a “negative trial”).
• NINDS, Part 2: The primary outcome was a good neurologic outcome at 90 days. The results were 26% in the placebo group and 39% in the tPA group (an absolute difference of 13%). There was also a 6% absolute increase in symptomatic intracranial hemorrhage (ICH).
The NINDS trials were limited by a relatively small sample size compared to the literature on thrombolysis in myocardial infarction, whose study populations were larger by one to two orders of magnitude. Furthermore, the groups were unbalanced on baseline stroke severity, which is a strong predictor of final stroke outcome.Reference Adams, Davis and Leira7
Hoffman and Schriger did a re-analysis of NINDS, Part 2, trying to control for some of the prognostic factors for outcome like stroke severity. The effect of tPA disappeared and the “time is brain” claim was not supported.Reference Hoffman and Schriger8
The third European Cooperative Acute Stroke Study (ECASS-III) is the only other RCT of tPA for stroke that has reported benefit.Reference Hacke, Kaste and Bluhmki9 They enrolled 821 patients who presented between 3 and 4.5 hours after symptom onset. ECASS-III showed a 7% absolute benefit for a favorable outcome for efficacy. There was a 10% increase in any ICH with tPA and a 2% increase in symptomatic ICHs. Shy reported on the updated ECASS-III online results that report stroke history as a significant difference between the groups (14.1% placebo v. 7.7% tPA), resulting in no benefit in the adjusted analysis.Reference Shy10 Also, if the endpoint is altered from the modified Rankin Scale (mRS) 0-1 versus 2-6, to a more realistic mRS 0-2 versus 3-6, the purported benefits of tPA disappear.Reference Ferguson11
The third international stroke trial (IST-3) is the largest RCT in the tPA literature (n = 3035).12 It was ethically approved for tPA in patients within 6 hours after symptom onset and included higher risk patients (over 80 years old). This was despite two other trials, ECASS-I and II, showing no benefit and increased harm (ICH and death).Reference Hacke, Kaste and Fieschi13, Reference Hacke, Kaste and Fieschi14
IST-3 was a seriously flawed study for a number of reasons.Reference Hoffman and Cooper15 The first 276 patients were double-blinded placebo controlled, and they found no statistical benefit. The study was then unblinded, which introduces bias. Patients were included if the clinician and patient agreed that the treatment was promising (selection bias).
The authors used a stroke severity score that is similar to the mRS. The reliabilityReference Wilson, Hareendran and Hendry16 of the mRS is only moderate in trained clinicians, and its validityReference Zhao, Collier, Quah, Purvis and Bernhardt17 has been questioned. However, the outcomes for IST-3 were not done by trained clinicians but rather based on a mailed questionnaire or phone call to the unblinded patient. This lack of blinding introduces a placebo effect biasing the study towards efficacy. It is also unreasonable to expect the outcome assessment to be reliable and valid when unblinded stroke patients are self-reporting a subjective outcome.
The study was originally powered to have a sample size of 6,000 patients. Part way through the study, the authors realized 6,000 was no longer feasible. A second statistician persuaded the group that an ordinal method was both statistically more efficient and robust, rather than a dichotomous outcome (good v. bad neurologic outcome). Others argue that this is a flawed approach.Reference Radecki, Chathampally and Press18
The a priori primary dichotomous outcome of good neurologic function was under-powered and negative (no demonstrated statistical benefit). Adverse events and harms were increased with tPA. The number needed to harm (NNH) for bleeding was 17 and for an early death was 25. Remarkably, the authors concluded that “despite the early hazards, thrombolysis within 6 h improved functional outcome. Benefit did not seem to be diminished in elderly patients.” A more accurate conclusion is that “tPA within 6 hours failed to demonstrate improved functional outcome, and there was an increase in ICH and early mortality.”
More recently, the fragility indexReference Walter19 has been flagged in this debate. The fragility index of a study is the number of patients who would need to have a different outcome to cause the p-value to increase above 0.05. The fragility index of the NINDS trial is 3 and ECASS-III is 1. A logical conclusion is that the bulk of published studies are correct – there is no clear benefit to tPA.
A summary of the thrombolysis literature is provided in Appendix A, recognizing that the evidence is more nuanced than a simple face emoji. However, there have been 12 studies with 1 positive 0-3 hours, 1 positive 3-4.5 hours, 6 not demonstrating a clinically important benefit, and 4 stopped early due to harm or unlikely to prove beneficial.
In the hierarchy of evidence-based medicine, systematic reviews and meta-analyses are put above RCTs.Reference Murad, Asi, Alsawas and Alahdab20 I do not agree completely with this hierarchy because systematic reviews and meta-analyses depend on a number of things, such as the quality of included and excluded studies. Many of the evidence syntheses of the thrombolysis literature do not seem to get us any closer to the “truth” about tPA for stroke.Reference Fatovich21
However, one systematic review and meta-analysis by Wardlaw et al. found no statistical difference between thrombolytic agents for stroke.Reference Wardlaw, Koumellis and Liu22 This finding is important because the systematic review and meta-analysis by Emberson et al. excluded any studies not using tPA as the thrombolytic agent.Reference Emberson, Lees and Lyden23 Furthermore, Emberson et al. included the seriously flawed IST-3.Reference Emberson, Lees and Lyden23 It is hard to understand how the negative IST-3 study does not move the totality of the evidence in an even more negative direction.
Emberson et al. also reported multiple conflicts of interest. This does not negate their interpretation, but industry-supported studies are associated with more favorable results and conclusions than sponsorship by other sources.Reference Lundh, Sismondo, Lexchin, Busuioc and Bero24,Reference Hansen, Lundh, Rasmussen and Hrobjartsson25 The Institute of Medicine published guidelines on systematic reviews and meta-analyses and recommends the exclusion of “individuals with a clear financial conflict of interest.”Reference Graham, Mancher, Wolman, Greenfield and Steinberg26
Donaldson et al. completed a systematic review and meta-analysis looking at the thrombolytic literature, reported no conflicts of interest, came to a skeptical conclusion, and encouraged more RCTs.Reference Donaldson, Fitzgerald, Flower and Delaney27 My interpretation of the literature is closer to Donaldson et al.’s than Emberson et al.’s.
Time is brain
There is an association between time and the brain, but a causal relationship has not been established. Perhaps those treated earlier are more likely to have a transient ischemic attack and therefore do better. Even the seriously flawed IST-3 subgroup analysis did not support the claim of time is brain (Appendix B). A salvageable brain on advanced neuroimaging is brain. It does not matter how much time has passed since the symptom onset if there is no viable brain to re-perfuse.
Guidelines
Guidelines should guide not dictate our care. The American College of Emergency Physicians (ACEP) recently revised their guidelines due to concerns from their members.Reference Radecki28 They improved the management of conflicts of interest, added methodologists, and improved adherence to rating methodology. The older ACEP guidelines gave a Level A recommendation for the use of tPA under 3 hours and a Level B if given between 3 and 4.5 hours. The new ACEP guidelines downgraded the recommendations to Level B for patients presenting under 3 hours.29
The CSBP guidelines were published in International Journal of Stroke in 2018.Reference Boulanger, Lindsay and Gubitz4 However, International Journal of Stroke did not seem to adhere to the Institute of Medicine guidelines on managing conflicts of interest in the creation of the guideline.Reference Graham, Mancher, Wolman, Greenfield and Steinberg26 Specifically, it appears that the co-chairs of the guideline working group disclosed multiple conflicts of interest with the pharmaceutical industry. This included Boehringer Ingelheim that markets and sells tPA.Reference Boulanger, Lindsay and Gubitz4,Reference Casaubon, Boulanger and Blacquiere30
CJEM published a synopsis of the CSBP guidelines in 2018.Reference Lin, Lindsay and Shams5 The authors endorse a Level A recommendation for tPA in eligible patients with symptom onset under 4.5 hours. No competing interests were reported in this publication. However, three of the authors were on both the CSBP guideline paper and the CJEM synopsis paper. These individuals reported conflicts of interest with the pharmaceutical industry and specifically with Boehringer Ingelheim on the CSBP guidelines publications.Reference Boulanger, Lindsay and Gubitz4,Reference Casaubon, Boulanger and Blacquiere30 It is unclear as to why these conflicts of interest were not reported in the CJEM synopsis publication.
CONCLUSION
To restate my position, I do not make the claim that tPA does not work for patients with stroke. That would be a logical fallacy by shifting the burden of proof. Science starts with the null hypothesis (no effect). Advocates for tPA have the burden and have not reached it.
It is hard to get an established medical practice changed. Unfortunately, tPA advocates have significantly changed emergent stroke care based on weak evidence. Objectively looking at the available literature suggests equipoise, at best. We urgently need replication of NINDS/ECASS-III to either confirm or refute the findings. Until such time, I would suggest that CAEP review their current guidelines, remove those individuals with conflicts of interest, include methodologists, improve the adherence to rating methodology, and update the CAEP recommendations to reflect the strength of the available evidence.Reference Lenzer, Hoffman, Furberg and Ioannidis31
INTRODUCTION
“Thrombolysis has a role in stroke but outcomes hinge on emergency physician involvement.”
Eddy Lang (@EddyLang1)
Arguably the most divisive debate in our speciality, the argument about thrombolysis for acute ischemic stroke has raged at times but has persisted for over two decades. Before considering a synopsis of the evidence, it is worth asking: What has the debate achieved? Has the debate contributed to improvements in patient care? Has it enhanced the place of emergency medicine in the house of medicine? The answers will be a matter of perspective, of course, but I would argue that the downsides of the debate have exceeded the benefits, and it may be time to put the divisiveness that the debate has yielded behind us.
Summary of the evidence
The tPA benefits are highly time-dependant, hence the importance of considering the evidence as a function of the door to needle time. For tPA within 3 hours of last seen normal, we have individual patient-level RCT data on 1,549 patients enrolled from seven RCTs demonstrating a clear time-dependent effect. The same is suggested from real-life observational data from registries for many thousands more showing better outcomes with high rates of tPA use.Reference Emberson, Lees and Lyden23,Reference Qin, Zhao and Chen32 For tPA given from 3- to 4.5-hours, there are 2,768 patients enrolled in 11 trials that contribute to our understanding of efficacy, as well as extensive real-world data.33 Counting the contributing studies with varying inclusion criteria as scoring positive or negative, like wins and losses for a hockey team, is inconsistent with systematic review methodology.
The evidence has been deemed of moderate to high certainty for treatment within 3 hours by guideline panels, as well as by critics of tPA in stroke. In other words, a consistent effect size around benefits and harms with reasonable precision is well established; it is not bulletproof but a robust dataset in comparison to many of the things that we treat in the emergency department (ED).Reference Donaldson, Fitzgerald, Flower and Delaney27
The likelihood of achieving an excellent outcome (mRS 0-1) after acute stroke is increased by 9.8%, or a number needed to treat (NNT) for benefit of 10 if treated within 3 hours. The benefit comes with a risk of harm ranging from 2% to 2.5% or an NNH of 40 to 50.
The certainty in evidence is considerably less for treatment between 3 and 4.5 hours. The benefit is unquestionably diminished in the delayed time range, whereas bleeding risk is essentially unchanged. The NNT for benefit is 20 and the NNH is 40 to 50.33 This narrow balance between benefit and harm at 3- to 4.5-hours is why the CAEP Stroke Practice Committee recommended against lysis beyond that time window in our 2015 guideline.3
Thrombolysis is a risky treatment that is sensitive to patient preferences
Administering a treatment that carries significant risks to achieve a longer-range gain is not in the emergency medicine physician wheelhouse. Cardiac surgeons and oncologists using cytotoxic regimens expose patients to significant short-term risks on a regular basis to achieve a long-term benefit, but we do not. It is understandably difficult for us to accept that there may be patients who would accept the risk of harm to achieve a more likely chance of benefit.
Given the risks of tPA, it is imperative that patients and family (often the witnesses to last seen normal) are consulted and undergo an informed consent prior to thrombolysis administration. Patients who suffer ischemic stroke or who are consulted based on a theoretical scenario will generally accept the risks of fatal or symptomatic ICH, to obtain the potential benefits of functional independence and an excellent outcome.Reference Flatharta, Khan and Walsh34 Ask your older loved ones what they would want.
However, consent cannot be assumed, and tPA should never be administered without understanding the likelihood of benefit and the chances of being harmed. Admittedly, we lack precise tools to convey this information to patients, or more likely their families, in the event that they are incapacitated and unable to weigh in on the decision, and families need to know that the likelihood of benefit is significantly less if treated beyond the 3-hour window, and that the treatment can make them worse. Patients who value functional independence above other outcomes will accept this treatment.
IST-3 and its problematic contribution
Critics of tPA in stroke have highlighted a number of issues. A common issue relates to the IST-3 trial, which poses both an increased risk of bias through its outcome reporting and demonstrated a paradoxical worsening in functional outcome in placebo-treated patients in the 3- to 4.5-hour time window. IST-3 and its inconsistent results at 3 to 4.5 hours are the primary contributor to the uncertainty in evidence for treatment in this time window. Yet it meets eligibility criteria for all systematic review and guideline projects on the topic and, if excluded from the evidence base, would only strengthen the effect for treatment at 3 to 4.5 hours.12
Where does the burden of proof lie?
A common argument of tPA detractors is that the burden of proof lies with those claiming benefit. In 2019, tPA is used to treat acute ischemic stroke in nearly every jurisdiction with the capability of doing so, and all government-sponsored clinical practice guidelines endorse its use. If there is to be a change in practice, it should be up to those opposed to the treatment to raise sufficient doubts to have the current state reconsidered. It would be a truly impressive and remarkable achievement if those who carry the skepticism mantra towards tPA were to trigger a Health Canada review of the product or convince a funding body to support further research into the benefits of tPA in comparison to no treatment. Unfortunately, this has not come about.
What should the role of the emergency medicine physician be in acute stroke?
Emergency medicine physicians play an indispensable role in this exquisitely time-sensitive condition. For one, they can contribute to the efficient ascertainment of eligibility and informed consent working in tandem with their stroke neurologist colleagues. Two minds, informed of the nuances of stroke treatment with thrombolytics, including benefits and risks, will always supersede a single perspective, and a collaborative approach is always preferred. As leaders of the ED, we are in a unique position to ensure that door to needle times are safely optimized in eligible patients.
As we now enter the EVT era, it is particularly important that patients know about all options available to them. It is up to the entire treating team to determine the specific risk profile of a given patient so that the decision to proceed with tPA and/or EVT is optimized to meet patient preferences when large vessel occlusion is present.1,Reference Kamal, Holodinsky and Stephenson35
What does the future of acute stroke care look like?
The treatment that we offer patients is invariably based on the best available evidence that we have at the time. In 2019, there was equipoise around the question of whether tPA adds benefit as a bridging therapy in EVT, and the trials examining this are ongoing.
Until this is clarified, the core argument that we are presenting is that patient care is optimized when ED and Stroke teams collaborate and share a common strategy and interpretation of the evidence. If you remain skeptical and thus uncertain about being pro or con and, despite engagement, remain unable to convince your colleagues in stroke care that the burden of proof has not been met, it may be in the best interests of the patient and the whole team to leave any misgivings at the door of the ED.
A jointly developed Code Stroke protocol is the cornerstone of good patient care in 2019. Achieving this requires an acceptance that tPA can be considered a standard of care in consenting and eligible patients and families. Standing on the sidelines while our Stroke colleagues unilaterally make all of the critical decisions for these patients is not acceptable. Failure to accept tPA as a standard of care will only further marginalize our role in the emergency care of patients with stroke.
Healthy skepticism as opposed to its unhealthy counterpart is an integral part of critical thinking. The state of evidence as it exists in 2019 is that tPA delivered in a timely manner improves outcomes from acute ischemic stroke, but only in patients or surrogates who understand and agree to the risks involved.
Acknowledgements
The authors acknowledge Devin Harris for his critical reading of the manuscript.
Competing interests
Dr. Milne serves as a senior editor of Academic Emergency Medicine. He has no funding from the pharmaceutical or biomedical device industry. He is on the faculty for the Center for Medical Education and EM:RAP. Dr. Milne does partake in medical malpractice reviews and does hold a patent on a pediatric resuscitation device. Dr. Lang reports a potential intellectual conflict of interest in regard to his role as Chair of the CAEP Stroke Practice Committee since 2014. Dr. Lang also reports educational activities sponsored by the industry and that, since 2012, all funding associated with this has been directed to both the CAEP Research Fund and the Emergency Medicine Research Fund within the Calgary Health Trust. This includes funds received from CAEP accredited symposia sponsored by Boehringer Ingelheim (makers of alteplase) but related to a bleeding reversal agent and not ischemic stroke.
Appendix A Summary of the literature of thrombolytics for treatment of acute ischemic stroke
Appendix B Adjusted effect of treatment on the primary outcome (alive and independent, Oxford Handicap Score 0, 1, or 2) in subgroups12