Could The “Modified 8 D’s of Stroke Care” Improve Sex Disparities in Door-to-Needle Time in Acute Ischemic Stroke?

Background and objectiveDoor-to-needle (DTN) time is an important factor in stroke settings for which studies have reported delays in women, resulting in worse stroke outcomes. We aimed to evaluate whether our modified algorithm could reduce sex disparities, especially in DTN.MethodsThis longitudinal cohort study was conducted between September 1, 2019, and August 31, 2021, at a comprehensive stroke center. Previously we utilized the conventional “D’s of stoke care” for timely management. The “modified 8 D’s of stroke care” was designed by our team in September 2020. Patients were analyzed in two groups: group 1, before, and group 2, after employing the modified algorithm. Sex as the main variable of interest along with other selected covariates were regressed towards the DTN, using univariable and multivariable logistic regressions.ResultsWe enrolled 47 and 56 patients who received intravenous thrombolysis (IVT) in groups 1 and 2, respectively. Although there was a significant difference in DTN≤ 1 hour in group 1 (36% of females vs. 52% of males, p= 0.019), it was not significantly different in group 2 anymore (48% of females vs. 48.4% of males, p= 0.97). Furthermore, regression analysis showed being female was a significant predictor of DTN> 1 hour in group 1 (aOR= 6.65, p= 0.02), while after the modified algorithm gender was not a predictor of delayed DTN anymore.ConclusionAlthough we have a long way to achieve performance measures in developed countries, we seem to have succeeded in reducing gender disparities in DTN using the modified algorithm.

Team Prenotification Reduces Procedure Times for Patients With Acute Ischemic Stroke Due to Large Vessel Occlusion Who Are Transferred for Endovascular Therapy

Background: The clinical benefit from endovascular therapy (EVT) for patients with acute ischemic stroke is time-dependent. We tested the hypothesis that team prenotification results in faster procedure times prior to initiation of EVT.Methods: We analyzed data from our prospective database (01/2016–02/2018) including all patients with acute ischemic stroke who were evaluated for EVT at our comprehensive stroke center. We established a standardized algorithm (EVT-Call) in 06/2017 to prenotify team members (interventional neuroradiologist, neurologist, anesthesiologist, CT and angiography technicians) about patient transfer from remote hospitals for evaluation of EVT, and team members were present in the emergency department at the expected patient arrival time. We calculated door-to-image, image-to-groin and door-to-groin times for patients who were transferred to our center for evaluation of EVT, and analyzed changes before (–EVT-Call) and after (+EVT-Call) implementation of the EVT-Call.Results: Among 494 patients in our database, 328 patients were transferred from remote hospitals for evaluation of EVT (208 -EVT-Call and 120 +EVT-Call, median [IQR] age 75 years [65–81], NIHSS score 17 [12–22], 49.1% female). Of these, 177 patients (54%) underwent EVT after repeated imaging at our center (111/208 [53%) -EVT-Call, 66/120 [55%] +EVT-Call). Median (IQR) door-to-image time (18 min [14–22] vs. 10 min [7–13]; p < 0.001), image-to-groin time (54 min [43.5–69.25] vs. 47 min [38.3–58.75]; p = 0.042) and door-to-groin time (74 min [58–86.5] vs. 60 min [49.3–71]; p < 0.001) were reduced after implementation of the EVT-Call.Conclusions: Team prenotification results in faster patient assessment and initiation of EVT in patients with acute ischemic stroke. Its impact on functional outcome needs to be determined.

Impact of COVID-19 on Emergency Medical Services for Patients with Acute Stroke Presentation in Busan, South Korea

The purpose of this retrospective observational study was to identify the impact of COVID-19 on emergency medical services (EMS) processing times and transfers to the emergency department (ED) among patients with acute stroke symptoms before and during the COVID-19 pandemic in Busan, South Korea. The total number of patients using EMS for acute stroke symptoms decreased by 8.2% from 1570 in the pre-COVID-19 period to 1441 during the COVID-19 period. The median (interquartile range) EMS processing time was 29.0 (23–37) min in the pre-COVID-19 period and 33.0 (25–41) minutes in the COVID-19 period (p < 0.001). There was a significant decrease in the number of patients transferred to an ED with a comprehensive stroke center (CSC) (6.37%, p < 0.001) and an increase in the number of patients transferred to two EDs nearby (2.77%, p = 0.018; 3.22%, p < 0.001). During the COVID-19 pandemic, EMS processing time increased. The number of patients transferred to ED with CSC was significantly reduced and dispersed. COVID-19 appears to have affected the stroke chain of survival by hindering entry into EDs with stroke centers, the gateway for acute stroke patients.

Staff and Facility Utilization in Direct Patient Transfer to the Comprehensive Stroke Center: Testing a Real-Time Location System for Automatic Patient Pathway Characterization

Introduction: Starting reperfusion therapies as early as possible in acute ischemic strokes are of utmost importance to improve outcomes. The Comprehensive Stroke Centers (CSCs) can use surveys, shadowing personnel or perform journal analysis to improve logistics, which can be labor intensive, lack accuracy, and disturb the staff by requiring manual intervention. The aim of this study was to measure transport times, facility usage, and patient–staff colocalization with an automated real-time location system (RTLS).Patients and Methods: We tested IR detection of patient wristbands and staff badges in parallel with a period when the triage of stroke patients was changed from admission to the emergency room (ER) to direct admission to neuroradiology.Results: In total, 281 patients were enrolled. In 242/281 (86%) of cases, stroke patient logistics could be detected. Consistent patient–staff colocalizations were detected in 177/281 (63%) of cases. Bypassing the ER led to a significant decrease in median time neurologists spent with patients (from 15 to 9 min), but to an increase of the time nurses spent with patients (from 13 to 22 min; p = 0.036). Ischemic stroke patients used the most staff time (median 25 min) compared to hemorrhagic stroke patients (median 13 min) and stroke mimics (median 15 min).Discussion: Time spent with patients increased for nurses, but decreased for neurologists after direct triage to the CSC. While lower in-hospital transport times were detected, time spent in neuroradiology (CT room and waiting) remained unchanged.Conclusion: The RTLS could be used to measure the timestamps in stroke pathways and assist in staff allocation.

Tenecteplase Improves Door‐to‐Needle Time in Real‐World Acute Stroke Treatment

BACKGROUND We report the interim results of a process improvement initiative at a comprehensive stroke center in which all tPA (tissue‐type plasminogen activator)–eligible patients were given tenecteplase for acute ischemic stroke. METHODS We retrospectively analyzed a prospectively maintained single‐center registry of consecutive patients with acute ischemic stroke treated at our comprehensive stroke center emergency department or transferred for further care. Patients treated with alteplase (tPA) before the process improvement initiative (October 2019–April 2020) were compared with those treated with tenecteplase (May 2020–July 2021). The primary efficacy outcome was the Target: Stroke Phase II recommendation of door‐to‐needle (DTN) time ≤45 minutes. Backward stepwise logistic regression was used to estimate an independent effect of tenecteplase against DTN time ≤45 minutes. Two contemporaneous, negative controls (time to first emergency department antibiotic for patients who presented with infectious symptoms and door‐to‐groin puncture for thrombectomy) were evaluated to confirm DTN time was unrelated to emergency department and other stroke treatment throughput. RESULTS Of the 113 included patients, 53 (47%) received tenecteplase. DTN time was significantly faster in patients treated with tenecteplase (median, 41 [interquartile range, 34–62] minutes versus 58 [interquartile range, 45–70] minutes; P <0.01), with no significant difference in symptomatic intracranial hemorrhage (2% versus 7%; P =0.37). Despite the higher proportion of tPA patients being transferred for care (with slower DTN time), tenecteplase remained independently predictive of DTN time ≤45 minutes (adjusted odds ratio, 3.96; 95% CI, 1.58–9.91). There was no difference in time to first emergency department antibiotic ( P >0.05) or door‐to‐puncture ( P >0.05) when similar periods were compared. CONCLUSIONS Tenecteplase was associated with faster DTN time when compared with tPA in those with acute ischemic stroke. This can likely be attributed to the ease of single bolus administration of tenecteplase.

Prehospital Stroke Triage

Purpose of the ReviewThis article reviews prehospital organization in the treatment of acute stroke. Rapid access to an endovascular therapy (EVT) capable center and prehospital assessment of large vessel occlusion (LVO) are 2 important challenges in acute stroke therapy. This article emphasizes the use of transfer protocols to assure the prompt access of patients with an LVO to a comprehensive stroke center where EVT can be offered. Available prehospital clinical tools and novel technologies to identify LVO are also discussed. Moreover, different routing paradigms like first attention at a local stroke center (“drip and ship”), direct transfer of the patient to an endovascular center (“mothership”), transfer of the neurointerventional team to a local primary center (“drip and drive”), mobile stroke units, and prehospital management communication tools all aimed to improve connection and coordination between care levels are reviewed.Recent FindingsLocal observational data and mathematical models suggest that implementing triage tools and bypass protocols may be an efficient solution. Ongoing randomized clinical trials comparing drip and ship vs mothership will elucidate which is the more effective routing protocol.SummaryPrehospital organization is critical in realizing maximum benefit from available therapies in acute stroke. The optimal transfer protocols directed to accelerate EVT are under study, and more accurate prehospital triage tools are needed. To improve care in the prehospital setting, efficient tools based on patient factors, local geography, and hospital capability are needed. These tools would optimally lead to individualized real-time decision-making.

Abstract 1122‐000099: Establishing “Code NI” in Addition to “Code Stroke” is Warranted When Mechanical Thrombectomy is Needed

Introduction : Hospital medical emergencies are prone to inefficiencies related to delayed dissemination of information, communication error, role confusion, and delayed decision making. The use of medical codes is intended to convey emergent and essential information quickly while preventing stress and mismanagement. The more complex, critical, and time sensitive an event is, the greater the need to establish a Code. Major mechanical thrombectomy (MT) trials published in 2015 and 2016 proved emergent MT to be more effective compared to IV tPA in stroke patients with large vessel occlusion (LVO). It has been proven that time to reperfusion with MT is directly proportional to severity of patient outcomes, coining the phrase, “save a minute, save a week”. When compared to the use of percutaneous intervention (PCI) in the treatment of STEMI, the number needed to treat for MT is estimated at 5 compared to 16 for PCI. Despite this fact, most hospitals have yet to adopt a code specific to MT. Our Purpose is to emphasize the importance of establishing a dedicated Code NI (Neuro‐Intervention) for stroke patients who require MT by sharing our Methods : After defining the problems, measuring the need, and analyzing the process, we identified the urgency for improvements in our facility. The administration was persuaded to support us in implementation of improvements after realizing the success of MT trials in patient outcomes, length of stay, hospital rankings, Comprehensive Stroke Center Certification, and insurance company compensation. Results : In early 2018, after many presentations and meetings, it was decided to implement “Code NI” for acute stroke patients who met MT criteria. Many teams and individuals including Neurointervention, Neuroradiology, Angio Suite, Anesthesia, ICU, Bed management, and transport were alerted. Following these implementations, from 2018 to 2021, our Door to Puncture Time and Puncture to Recanalization Time has been trending down from 219 to 120; and 261 to 147 minutes respectively. Conclusions : Approximately 70% of stroke patients with LVO have the potential of a meaningful recovery if treated efficiently and effectively. Establishing a “Code NI” for this time sensitive medical emergency helps the patients, their families, hospitals, and society.

Abstract 1122‐000083: Endovascular Therapy Delay for Acute LVO is Associated with Worse Functional Outcome and Increased Mortality

Introduction : The importance of early mechanical thrombectomy (MT) has shown to improve functional outcomes for patients with acute large vessel occlusion (LVO). As well, prior studies have shown that earlier MT resulted in reduced hospital stay, more home‐time, and more desirable living situation in the 90 days after stroke. We hypothesized that delay in MT in patients with LVO would result in worse clinical outcome and increased mortality. Methods : We performed a retrospective analysis of consecutive patients who underwent MT for LVO in a large academic comprehensive stroke center between 01/2018 and 05/2021. We compared outcomes including in‐hospital mortality and 90‐day modified Rankin Scale (mRS) based on time from door‐to‐puncture and door‐to‐reperfusion, adjusting for relevant covariates using logistic regression. Results : Patients that had shorter door‐to‐puncture time were found to have higher probability of a lower modified Rankin Scale (mRS 0–2) at discharge (p = 0.03). Patients with door‐to‐puncture less than 60 minutes had a probability of 50% of achieving a good outcome. Longer door‐to‐puncture times were associated with lower probability of achieving mRS 0–2 at discharge. A similar finding was seen in patients that had shorter times to reperfusion (p = 0.05). Adjusting for age, baseline NIHSS score, and final TICI score, delayed door‐to‐reperfusion time in minutes was an independent predictor of increased mortality at 90 days of 9% for every 10 minutes delay (OR 1.009, 95% CI 1.003‐1.016, p = 0.006). Every 10 minutes delay in door‐to‐reperfusion time had 7% higher chance of poor functional outcome at 90 days (OR 1.007, 95% CI 1.004‐1.019, p = 0.015). Conclusions : Shorter times to MT and reperfusion impact functional outcome and mortality in LVO stroke patients. This indicates that an adequate hospital protocol and continuous education may lead to faster and more efficient stroke activations leading to a shorter time to MT and eventual reperfusion. Goals of door‐to‐puncture must be established in order to achieve better outcomes.

Abstract 1122‐000091: Predictors of Symptomatic Hemorrhagic Transformation After Mechanical Thrombectomy in Acute Ischemic Stroke

Introduction : Mechanical thrombectomy (MT) has become the current standard of care for large vessel occlusion stroke but is associated with an increased risk of intracranial hemorrhage (ICH). Although several studies have investigated the risk factors, there is still limited, not well‐established data. This study aims to evaluate the risk factors of HT after MT. Methods : We retrospectively reviewed all MT patients who were treated at a single comprehensive stroke center from 12/2016 to 7/2019. Variables included initial NIHSS, blood glucose, initial systolic blood pressure, age, gender, IV tPA, time from door to recanalization, and TICI score. Outcome measures were HT on post‐procedure or 24‐hour post‐tPA head CT/MRI as well as modified Rankin scale (mRS) upon discharge. Results : Among 74 patients (68.8 ± 14 years, men 47.3%), 9 (12.2%) experienced hemorrhagic transformation after thrombectomy. Average admitting NIHSS was significantly higher in the HT group (22 vs 16.8, p = 0.041). TICI 3 after MT was protective for HT (OR 0.078, 95% CI 0.009‐0.663). IV tPA (OR 3.86, 95% CI 1.448‐10.326) was associated with good neurological outcome at discharge (mRS < = 2), but HT was not (OR 0.114, 95% CI 0.013‐0.964). Patients with mRS < = 2 upon discharge were younger (65.2±12 vs 71.9±15, p = 0.04) and had lower initial BG (124±45.8 vs 157±69.6, P = 0.02). Conclusions : TICI 3 score, decreased NIHSS, and lower BG were associated with less HT and better outcomes in our MT cohort. Admitting NIHSS > = 20 may be a reasonable threshold to predict HT after MT. Our findings are consistent with the TICI‐ASPECTS‐glucose (TAG) score to predict sICH; however, we used initial NIHSS as a surrogate for ASPECTS. Further studies may utilize additional quantitative measures such as CTP data to predict HT.

Abstract 1122‐000128: Imaging Follow‐Up in Carotid Webs: Is There Vascular Remodeling?

Introduction : Carotid web (CaW) is a shelf‐like fibrotic projection at the carotid bulb and constitutes an underrecognized cause of ischemic stroke. Atherosclerotic lesions are known to have dynamic remodeling with time however, little is known regarding the evolution of CaW over time. We aimed to better understand if CaW is a static or dynamic entity on delayed vascular imaging. Methods : This was a retrospective analysis of the CaW database at our comprehensive stroke center, including patients diagnosed with CaW between September 2014 through June 2021. Patients who had at least two good quality CT angiograms (CTAs) that were at least 6 months apart were included (CTAs with CaW and superimposed thrombus were excluded). CaW were quantified with 3‐D measurements using Horos software. This was done via volumetric analysis of free‐hand delineated CaW borders on thin cuts of axial CTA (Figure 1 Panel A). NASCET criteria was used to evaluate the degree of stenosis. Results : Sixteen CaW in 13 patients were identified and included. The median imaging follow‐up window was 16 months (IQR 12–22, range 6–29). Median patient age was 45.5 years‐old, 69% were women, 25% had hypertension, 38% hyperlipidemia, 25% diabetes mellitus, 0% atrial fibrillation, and 13% active smokers. 75% of the included CaW were symptomatic while 25% were asymptomatic. Median volume of CaW on initial CTA (8.52 mm3 [IQR 3.7‐13], range 2.2‐30.4) was comparable to median volume of CaW on most recent CTA (8.47 mm3 [IQR 4.0‐12.8], range 2.3‐29.4; p = <0.001 (Figure 1 Panel B). The CaW volumetric measurement correlation between the initial and most recent CTA was near perfect (rs = ‐0.99, p = <0.001). The median change in measured volume of CaW between first and last CTA was ‐0.19 mm3 [IQR ‐0.6‐0.4], range ‐1‐0.8. Median degree of stenosis was 8.1% [IQR 4.5‐17.1], range 0.4‐31.2. The duration of follow‐up imaging was not correlated with the change in CaW volume (Kendall tau‐b[τb] = ‐0.17, p = 0.93). The initial CaW volume was not found to be correlated to the degree of stenosis (τb = ‐0.08, p = 0.65). Conclusions : The volume of the CaW was not found to change over time, reinforcing the idea that this is a relatively static lesion. The CaW volume was not found to correlate with the degree of stenosis caused by it. Further longitudinal studies with longer follow‐up intervals are warranted.