CBS 2019
CBSMD教育中心
中 文

Acute Coronary Syndrom

Abstract

Recommended Article

Long-term survival and causes of death in patients with ST-elevation acute coronary syndrome without obstructive coronary artery disease The (R)Evolution of the CICU - Better for the Patient, Better for Education 4-Step Protocol for Disparities in STEMI Care and Outcomes in Women Pharmacoinvasive and Primary Percutaneous Coronary Intervention Strategies in ST-Elevation Myocardial Infarction (from the Mayo Clinic STEMI Network) Prevalence of anginal symptoms and myocardial ischemia and their effect on clinical outcomes in outpatients with stable coronary artery disease: data from the International Observational CLARIFY Registry Sex differences in discharge destination following acute myocardial infarction Impact of the US Food and Drug Administration–Approved Sex-Specific Cutoff Values for High-Sensitivity Cardiac Troponin T to Diagnose Myocardial Infarction Association Between Collateral Circulation and Myocardial Viability Evaluated by Cardiac Magnetic Resonance Imaging in Patients With Coronary Artery Chronic Total Occlusion

Original Research2015 Dec;90(12):1614-22.

JOURNAL:Mayo Clin Proc. Article Link

Aggressive Measures to Decrease "Door to Balloon" Time and Incidence of Unnecessary Cardiac Catheterization: Potential Risks and Role of Quality Improvement

Fanari Z, Abraham N, Kolm P et al. Keywords: Door to Balloon Time; Incidence of Unnecessary Cardiac Catheterization; Quality Improvement

ABSTRACT


OBJECTIVE - To assess the impact of an aggressive protocol to decrease the time from hospital arrival to onset of reperfusion therapy ("door to balloon [DTB] time") on the incidence of false-positive (FP) diagnosis of ST-segment elevation myocardial infarction (STEMI) and in-hospital mortality.


PATIENTS AND METHODS - The study population included 1031 consecutive patients with presumed STEMI and confirmed ST-segment elevation who underwent emergent catheterization between July 1, 2008, and December 1, 2012, On July 1, 2009, we instituted an aggressive protocol to reduce DTB time. A quality improvement (QI) initiative was introduced on January 1, 2011, to maintain short DTB while improving outcomes. Outcomes were compared before and after the initiation of the DTB time protocol and similarly before and after the QI initiative. Outcomes were DTB time, the incidence of FP-STEMI, and in-hospital mortality. A review of the emergency catheterization database for the 10-year period from January 1, 2001, through December 31, 2010, was performed for historical comparison.


RESULTS - Of the 1031 consecutive patients with presumed STEMI who were assessed, 170 were considered to have FP-STEMI. The median DTB time decreased significantly from 76 to 61 minutes with the aggressive DTB time protocol (P=.001), accompanied by an increase of FP-STEMI (7.7% vs 16.5%; P=.02). Although a nonsignificant reduction of in-hospital mortality occurred in patients with true-positive STEMI (P=.60), a significant increase in in-hospital mortality was seen in patients with FP-STEMI (P=.03). After the QI initiative, a shorter DTB time (59 minutes) was maintained while decreasing FP-STEMI in-hospital mortality.


CONCLUSION - Aggressive measures to reduce DTB time were associated with an increased incidence of FP-STEMI and FP-STEMI in-hospital mortality. Efforts to reduce DTB time should be monitored systematically to avoid unnecessary procedures that may delay other appropriate therapies in critically ill patients.


Copyright © 2015 Mayo Foundation for Medical Education and Research. Published by Elsevier Inc. All rights reserved.