Andrew Kerr1, Mildred Lee2, Corina Grey3, Tammy Pegg4, Nick Fisher4, Harvey White5, Chris Nunn6, Michael Williams7, David Smyth8, Tony Scott9, Rachel Chen10, Jinfeng Zhao3, Thu Rein Tun11, Matire Harwood12, Gerry Devlin13. 1. Cardiologist, Middlemore Hospital, Auckland; Department of Medicine, Auckland School of Medicine, Auckland. 2. Health Analyst, Department of Cardiology, Middlemore Hospital, Auckland. 3. Research Fellow, Section of Epidemiology and Biostatistics, University of Auckland, Auckland. 4. Cardiologist, Nelson Hospital, Nelson. 5. Cardiologist, Auckland City Hospital, Auckland. 6. Cardiologist, Waikato Hospital, Hamilton. 7. Cardiologist, Dunedin Hospital, Dunedin; Department of Medicine, Dunedin School of Medicine, University of Otago, Dunedin. 8. Cardiologist, Christchurch Hospital, Christchurch. 9. Cardiologist, North Shore Hospital, Auckland. 10. Data Analyst, National Institute for Health Innovation, University of Auckland, Auckland. 11. Cardiology Registrar, Waikato Hospital, Hamilton. 12. Te Kupenga Hauora Māori, University of Auckland. 13. Cardiologist, Gisborne Hospital, Gisborne.
Abstract
AIM: Prompt access to cardiac defibrillation and reperfusion therapy improves outcomes in patients with ST-segment elevation myocardial infarction (STEMI). The study aim was to describe the 'patient' and 'system' delay in patients who receive acute reperfusion therapy for ST-elevation myocardial infarction (STEMI) in New Zealand. METHODS: In 2015-17, 3,857 patients who received acute reperfusion therapy were captured in the All New Zealand Acute Coronary Syndrome Quality Improvement (ANZACS-QI) registry. 'Patient delay' is the time from symptom onset to first medical contact (FMC), and 'system delay' the time from FMC until reperfusion therapy (primary percutaneous coronary intervention (PCI) or fibrinolysis). RESULTS: Seventy percent of patients received primary PCI and 30% fibrinolysis. Of those receiving fibrinolysis, 122 (10.5%) received pre-hospital fibrinolysis. Seventy-seven percent were transported to hospital by ambulance. After adjustment, people who were older, male and presented to a hospital without a routine primary PCI service were less likely to travel by ambulance. Patient delay: The median delay was 45 minutes for ambulance-transported patients and 97 minutes for those self-transported to hospital, with a quarter delayed by >2 hours and >3 hours, respectively. Delay >1 hour was more common in older patients, Māori and Indian patients and those self-transported to hospital. System delay: For ambulance-transported patients who received primary PCI, the median time was 119 minutes. For ambulance-transported patients who received fibrinolysis, the median system delay was 86 minutes, with Māori patients more often delayed than European/Other patients. For patients who received pre-hospital fibrinolysis the median delay was 46 minutes shorter. For the quarter of patients treated with rescue PCI after fibrinolysis, the median needle-to-rescue time was prolonged-four hours. CONCLUSIONS: Nationwide implementation of the NZ STEMI pathway is needed to reduce system delays in delivery of primary PCI, fibrinolysis and rescue PCI. Ongoing initiatives are required to reduce barriers to calling the ambulance early after symptom onset.
AIM: Prompt access to cardiac defibrillation and reperfusion therapy improves outcomes in patients with ST-segment elevation myocardial infarction (STEMI). The study aim was to describe the 'patient' and 'system' delay in patients who receive acute reperfusion therapy for ST-elevation myocardial infarction (STEMI) in New Zealand. METHODS: In 2015-17, 3,857 patients who received acute reperfusion therapy were captured in the All New Zealand Acute Coronary Syndrome Quality Improvement (ANZACS-QI) registry. 'Patient delay' is the time from symptom onset to first medical contact (FMC), and 'system delay' the time from FMC until reperfusion therapy (primary percutaneous coronary intervention (PCI) or fibrinolysis). RESULTS: Seventy percent of patients received primary PCI and 30% fibrinolysis. Of those receiving fibrinolysis, 122 (10.5%) received pre-hospital fibrinolysis. Seventy-seven percent were transported to hospital by ambulance. After adjustment, people who were older, male and presented to a hospital without a routine primary PCI service were less likely to travel by ambulance. Patient delay: The median delay was 45 minutes for ambulance-transported patients and 97 minutes for those self-transported to hospital, with a quarter delayed by >2 hours and >3 hours, respectively. Delay >1 hour was more common in older patients, Māori and Indian patients and those self-transported to hospital. System delay: For ambulance-transported patients who received primary PCI, the median time was 119 minutes. For ambulance-transported patients who received fibrinolysis, the median system delay was 86 minutes, with Māori patients more often delayed than European/Other patients. For patients who received pre-hospital fibrinolysis the median delay was 46 minutes shorter. For the quarter of patients treated with rescue PCI after fibrinolysis, the median needle-to-rescue time was prolonged-four hours. CONCLUSIONS: Nationwide implementation of the NZ STEMI pathway is needed to reduce system delays in delivery of primary PCI, fibrinolysis and rescue PCI. Ongoing initiatives are required to reduce barriers to calling the ambulance early after symptom onset.
Authors: Becky Yi-Wen Liao; Mildred Ai Wei Lee; Bridget Dicker; Verity F Todd; Ralph Stewart; Katrina Poppe; Andrew Kerr Journal: Open Heart Date: 2022-01