Jaya Chandrasekhar1, Paul Marley1, Christopher Allada1, Darryl McGill1, Simon O'Connor1, Moyazur Rahman1, Ren Tan1, Ata Doost Hosseiny1, Bruce Shadbolt2, Ahmad Farshid3. 1. Department of Cardiology, The Canberra Hospital, Canberra, ACT, Australia. 2. Centre for Biostatistics and Epidemiology, The Canberra Hospital, Canberra, ACT, Australia; College of Medicine, Biology and Ecology, Australian National University, Canberra, ACT, Australia. 3. Department of Cardiology, The Canberra Hospital, Canberra, ACT, Australia; College of Medicine, Biology and Ecology, Australian National University, Canberra, ACT, Australia. Electronic address: afarshid@tpg.com.au.
Abstract
BACKGROUND: Notwithstanding improvements in door-to-balloon time, adverse event rates after primary PCI have remained steady. We analysed the effect of symptom-to-balloon (STB) time, a reflection of total ischaemic time, on major adverse cardiovascular events (MACE) and explored predictors of prolonged STB time. METHODS: The study population included 1002 consecutive patients (22.4% women) with a mean age of 62.3±13.2 years, who underwent primary PCI during 2008-2014. Groups were compared for STB ≤ and >240min. Primary endpoint was one-year MACE, a composite of death, reinfarction, stent thrombosis or target vessel revascularisation. RESULTS: Symptom-to-balloon time was available in 893 patients of which 588 (65.8%) had STB ≤240min and 305 (34.2%) had STB >240min. The incidence of one-year MACE increased significantly in a stepwise manner with increasing STB time (p for trend=0.003). Symptom-to-balloon time was an independent predictor of one-year MACE along with age >70 years, final TIMI flow <3, three vessel disease, cardiogenic shock and out-of-hospital cardiac arrest. We also performed a multivariate analysis to determine predictors of delayed treatment. Predictors of STB time >240min were age >70 years, female gender, diabetes, absence of prehospital catheter laboratory activation and presentation to a non-PCI centre. CONCLUSION: Incidence of MACE was strongly correlated with STB time and STB time was an independent predictor of MACE. We have identified specific subgroups with prolonged STB times (age >70, female gender, diabetes, absence of prehospital activation and presentation to a non-PCI centre). This information should inform future studies and strategies to minimise delays in these subgroups for improved outcomes.
BACKGROUND: Notwithstanding improvements in door-to-balloon time, adverse event rates after primary PCI have remained steady. We analysed the effect of symptom-to-balloon (STB) time, a reflection of total ischaemic time, on major adverse cardiovascular events (MACE) and explored predictors of prolonged STB time. METHODS: The study population included 1002 consecutive patients (22.4% women) with a mean age of 62.3±13.2 years, who underwent primary PCI during 2008-2014. Groups were compared for STB ≤ and >240min. Primary endpoint was one-year MACE, a composite of death, reinfarction, stent thrombosis or target vessel revascularisation. RESULTS: Symptom-to-balloon time was available in 893 patients of which 588 (65.8%) had STB ≤240min and 305 (34.2%) had STB >240min. The incidence of one-year MACE increased significantly in a stepwise manner with increasing STB time (p for trend=0.003). Symptom-to-balloon time was an independent predictor of one-year MACE along with age >70 years, final TIMI flow <3, three vessel disease, cardiogenic shock and out-of-hospital cardiac arrest. We also performed a multivariate analysis to determine predictors of delayed treatment. Predictors of STB time >240min were age >70 years, female gender, diabetes, absence of prehospital catheter laboratory activation and presentation to a non-PCI centre. CONCLUSION: Incidence of MACE was strongly correlated with STB time and STB time was an independent predictor of MACE. We have identified specific subgroups with prolonged STB times (age >70, female gender, diabetes, absence of prehospital activation and presentation to a non-PCI centre). This information should inform future studies and strategies to minimise delays in these subgroups for improved outcomes.
Keywords:
Door-to-balloon time; Major adverse cardiovascular events; Primary PCI; ST elevation myocardial infarction; Symptom-to-balloon time; Time to treatment
Authors: David Weininger; Juan Pablo Cordova; Eelin Wilson; Dayana J Eslava; Carlos L Alviar; Aleksandr Korniyenko; Chirag Pankajkumar Bavishi; Mun K Hong; Amy Chorzempa; John Fox; Jacqueline E Tamis-Holland Journal: Ther Clin Risk Manag Date: 2022-01-04 Impact factor: 2.423