Category: Stroke

A couple months ago the stroke community was presented with the results of DAWN – an acute stroke trial leaving us longing wistfully of the simple days where we just bickered over tPA in the 3-hour window. With DAWN, the authors evaluated patients with symptoms of 6 to 24 hour duration and found, with specific perfusion mismatch criteria, revascularization was likely beneficial. DEFUSE-3 is the second member of this club.

This is an open-label, blinded-assessor, randomized trial of patients presenting 6 to 16 hours following “last known well”. Dynamic randomization stratified based on age, core infarct, time from symptom onset, and NIHSS. Proximal middle cerebral artery and internal carotid occlusions were required, as was perfusion imaging demonstrating an ischemic core of less than 70 mL and a clinically important penumbra of at least 15 mL. The primary outcome was the clinically and statistically flawed ordinal shift in the modified Rankin scale.

As is become virtually routine in these endovascular trials, this one was stopped early – after 182 of 476 originally planned. These authors halted enrollment after the DAWN publication, and applied their protocol for interim analysis for early stoppage – which was met. Ignoring their ordinal shift measure and going straight for the typical mRS 0-2, we find 45% meeting that outcome with endovascular intervention, and 17% with medical therapy. Adverse events, including intracranial hemorrhage, were modestly increased in the endovascular arm, although mortality in the endovascular cohort are halved. Revascularization rates at 24 hours, interestingly, were only 79% in the endovascular cohort, and they still had a fair bit of infarct growth – but, sample size limitations notwithstanding, clinical outcomes obviously vastly favor the endovascular cohort. The American Stroke Association has wasted no time updating their guidelines to incorporate new time windows, up to 24 hours, using the DAWN and DEFUSE criteria.

Obviously, in an open-label trial, the scales can be tilted by the intensity of follow-up care – for instance, in IST-3, more stroke patients receiving tPA ended up in intensive care units. ICUs, with their more favorable nursing ratios, are virtually guaranteed to be more likely to be on top of all the other components of high-quality post-stroke care. In open-label trials, as well, it is reasonable to suggest different conversations may be had about comfort care measures, depending on whether an intervention were performed with the hopes of potential downstream improvement. These are just a couple examples of the many ways these sorts of trials may exaggerate the magnitude of potential benefit.

All that said, the Bayesian position – colored by sponsored trials as it is – still suggests these data are on the right track. The key to stroke care is tissue viability, not arbitrary time metrics. Either the collateral flow is there, or it isn’t – with the caveat that, yes, eventually those collaterals can collapse and complete the infarction. How these new tissue-based considerations fit into systems of stroke care – and who needs to be transferred for specialized imaging – is an open question/headache we’ll all be struggling to figure out over the next months/years.

“Thrombectomy for Stroke at 6 to 16 Hours with Selection by Perfusion Imaging”
http://www.nejm.org/doi/full/10.1056/NEJMoa1713973

The mobile stroke unit is the new, malignant, extravagant reaction to the “Time is Brain” mantra. However, not all locations are endowed with such an embarrassment of resources.

This very brief report details a systems approach in Mashhad, in Northeast Iran. In 2015, these authors reported only 1.2% of all strokes received treatment with IV tPA, and their analysis indicated prehospital delays were their primary issue. Rather than take the CT to the patient, their far more entertaining solution was simply to clear a path. To relieve delays from chronic traffic congestion and gridlock, they designed an online control system for all traffic lights to be activated based on the severity of the emergency medical condition. Green lights in a continuous path from the incident location to the medical facility help activate traffic flow to allow ambulances room to maneuver. These authors report their successful implementation reduced prehospital transfer time by 50%, although absolute measures are not reported.

Now, they do mention their next step is to report on improvements in patient-oriented outcomes. However, unless the traffic is truly catastrophic, I expect improvements in anything but process surrogates will be difficult to detect.

“Time is brain: An online controlling of traffic lights can save lives”
http://emj.bmj.com/content/early/2017/11/24/emermed-2017-206888

It wasn’t truly so long ago the treatment for an acute stroke was virtually nonexistent. Then, it progressed, with patients eligible for treatment within 3 hours … then 4.5 hours … then 6 … and, now, 24 hours. Whatever happened to “time is brain”? How can we possibly be treating patients out to a day after onset of symptoms?

This is the DAWN trial, randomizing patients with acute ischemic stroke to endovascular intervention or medical management within 6 or 24 hours of symptom onset. Eligibility criteria included occlusion of the internal carotid or proximal middle cerebral artery paired with one of three different clinical syndrome/infarct core mismatches based on CT or MRI perfusion imaging: three cohorts with NIHSS of 10 or 20, with differing sizes of infarct cores. The underlying theory here stems from observations of the viability of cerebral tissue as dependent upon collateral circulation, rather than simply the linear passage of time.

This is, as you might already have gathered from the press releases, a positive study. Unfortunately, it was so positive it was stopped early for benefit based on a primary outcome these authors almost certainly created uniquely to support early termination of these sorts of trials: the “utility-weighted modified Rankin scale”. Rather than use the traditional mRS as in all other stroke trials, or, even, the statistically flawed “ordinal shift analysis”, these authors assigned point values to the various mRS categories, those with the least disability receiving the most points. This resulted in the potential enrollment of 500 patients being stopped at the earliest possible pre-specified interim analysis with a mere 200 patients enrolled.

Tossing out their nonsensical fake outcome measure for the more easily approachable mRS categories, 52 of 107 (49%) of thrombectomy patients were functionally independent (mRS 0-2) at 90 days versus 13 of 99 (13%) of those in the control group. These results were roughly consistent across their various subgroup analyses, although, with such a small trial, the confidence intervals get awfully wide, awfully quickly. That said, despite all the other associated trial shenanigans, it is fairly obvious this sort of treatment is helpful to patients. I’ve been preaching tissue-based approaches to therapy for a couple years now, and despite this trial’s individual issues, in a Bayesian sense these results are consistent with prior evidence.

Of course, this does not actually indicate the window for screening ought to be 24 hours as will likely be justified from these data – the bounds of eligibility for the study do not simply translate subsequently to clinical policy recommendations. The study design does explicitly stratify patients to 6 to 12 hour and 12 to 24 hour cohorts, but the IQR range for “time from symptom onset” for the entire cohort is 10.2 to 16.3 hours, implying approximately half the 12 to 24 hour cohort was actually randomized between 12 and 16 hours. This leaves a paucity – approximately 25 patients in each arm – of data to inform treatment in the 16 to 24 hour window. Contrariwise, these data also do not explicitly exclude patients beyond 24 hours as potential candidates for intervention, as this is a tissue-based, not time-based, paradigm. Further prospective study will be needed to determine the precise time window at which perfusion screening for large vessel occlusions ultimately becomes so low-yield there is no value in the pursuit.

These authors also do not provide useful information regarding the number of patients screened for possible inclusion. Much will be made of these results, with a likely profound impact on our approach to stroke. To properly design stroke systems of care and project resource utilization, physicians and policy makers need data regarding the clinical characteristics of all patients evaluated and those features best identifying those who ought be triaged or transferred to specialized centers.

Finally, of course, there is the perpetual elephant in the room – heavy involvement from the sponsor in the conduct of the study, along with multiple authors on the payroll. These financial conflicts of interest always threaten internal and external validity by limiting generalizability and amplifying apparent effect sizes. All this said, however, this is probably an important step forward in the evolution in our approach to stroke.

“Thrombectomy 6 to 24 Hours after Stroke with a Mismatch between Deficit and Infarct”
http://www.nejm.org/doi/full/10.1056/NEJMoa1706442