Retrospective analysis of a prospective cohort of patients with ischaemic stroke treated with IVT in our hospital between 2009 and 2012. We analysed the relationship between DTN time and the following variables: age, sex, personal medical history, onset-to-door time, pre-hospital stroke code activation, blood pressure and blood glucose level, National Institutes of Health Stroke Scale (NIHSS), computed tomography angiography (CTA) and/or doppler/duplex ultrasound (DUS) performed before IVT, time to hospital arrival, and day of the week and year of stroke.
Our hospital treated 239 patients. Median time to treatment in minutes (IQR): onset-to-door, 84 (60–120); door-to-CT, 17 (13–24.75); CT-to needle, 34 (26–47); door-to-needle, 52 (43–70); onset-to-needle, 145 (120–180). Door-to-needle time was significantly shorter when code stroke was activated, at 51 vs. 72 min (P = 0.008), and longer when CTA was performed, at 59 vs. 48.5 min (P = 0.004); it was also longer with an onset-to-door time <90 min, at 58 vs. 48 min (P = 0.003). The multivariate linear regression analysis detected 2 factors affecting DTN: code stroke activation (26.3% reduction; P < 0.001) and onset-to-door time (every 30 min of onset-to-door delay corresponded to a 4.7 min increase in DTN time [P = 0.02]). On the other hand, CTA resulted in a 13.4% increase in DTN (P = 0.03). No other factors had a significant influence on door-to-needle time.
This study enabled us to identify CTA and the “3-hour effect” as the 2 factors that delay IVT in our hospital. In contrast, activating code stroke clearly reduces DTN. This information will be useful in our future attempts to reduce door-to-needle times.