Influence of Distance to Scene on Time to Thrombolysis in a Specialized Stroke Ambulance.

Peter M Koch Alexander Kunz Martin Ebinger Frederik Geisler Michal Rozanski Carolin Waldschmidt Joachim E Weber Matthias Wendt Benjamin Winter Katja Zieschang Kerstin Bollweg Sabina Kaczmarek Matthias Endres Heinrich J Audebert

Stroke

From the Klinik und Hochschulambulanz für Neurologie (P.M.K., A.K., M.E., F.G., M.R., C.W., J.E.W., M.W., B.W., K.Z., M.E., H.J.A.), Center for Stroke Research Berlin (A.K., M.E., M.R., K.B., M.E., H.J.A.), German Center for Neurodegenerative Diseases (DZNE), Partner Site Berlin (M.E.), and German Center for Cardiovascular Research (DZHK), Partner Site Berlin (M.E.), Charité-Universitätsmedizin Berlin, Berlin, Germany; Berlin Fire Brigade, Berlin, Germany (S.K.); and Berlin Institute of Health (BIH), Berlin, Germany (K.B., M.E.).

Published: August 2016

Specialized stroke ambulances equipped with computed tomography can administer thrombolysis faster than conventional emergency services by starting treatment before arriving at the hospital.
The PHANTOM-S trial showed that while the arrival time of these specialized ambulances increases with distance, they still provide significantly quicker times for starting treatment compared to regular services.
In urban settings like Berlin, the benefits of faster treatment justify deploying specialized ambulance services for distances up to 18 minutes.

Background And Purpose: Specialized computed tomography-equipped stroke ambulances shorten time to intravenous thrombolysis in acute ischemic stroke by starting treatment before hospital arrival. Because of longer travel-time-to-scene, time benefits of this concept are expected to diminish with longer distances from base station to scene.

Methods: We used data from the Prehospital Acute Neurological Treatment and Optimization of Medical Cares in Stroke (PHANTOM-S) trial comparing time intervals between patients for whom a specialized stroke ambulance (stroke emergency mobile) was deployed and patients with conventional emergency medical service. Expected times from base station to scene had been calculated beforehand using computer algorithms informed by emergency medical service routine data. Four different deployment zones with-75% probability-expected arrival within 4, 8, 12, and 16 minutes and total population coverage of ≈1.3 million inhabitants were categorized for stroke emergency mobile deployment. We analyzed times from alarm-to-arrival at scene, to start of intravenous thrombolysis and from onset-to-intravenous thrombolysis.

Results: Corresponding to the size of the respective catchment zone, the number of patients cared increased with distance (zone 1: n=30, zone 2: n=127, zone 3: n=156, and zone 4: n=217). Although time to stroke emergency mobile arrival increased with distance (mean: 8.0, 12.5, 15.4, and 18.4 minutes in zones 1-4), time from alarm-to-intravenous thrombolysis (mean: 41.8 versus 76.5; 50.2 versus 79.1; 54.5 versus 76.6; and 59.3 versus 78.0 minutes, respectively; all P<0.01) remained shorter in the stroke emergency mobile group across all zones.

Conclusions: In a metropolitan area such as Berlin, time benefits justify a specialized stroke ambulance service up to a mean travel time of 18 minutes from base station.

Clinical Trial Registration: URL: https://www.clinicaltrials.gov. Unique identifier: NCT01382862.

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http://dx.doi.org/10.1161/STROKEAHA.116.013057	DOI Listing

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