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DTB Time (dtb + time)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

Effectiveness of a Multidisciplinary Quality Improvement Initiative in Reducing Door-to-Balloon Times in Primary Angioplasty

JOURNAL OF INTERVENTIONAL CARDIOLOGY, Issue 4 2004
F.A.C.C., STUART W. ZARICH M.D.
Primary angioplasty (PA) for acute myocardial infarction (AMI) has emerged as the standard of care in hospitals with cardiac interventional facilities. The benefits from the PA are time dependent, but recent data raise concerns regarding the timeliness of delivery of care in AMI and the level of benefit achieved by current standards. We assessed the effectiveness of an extensive multidisciplinary quality improvement initiative in reducing door-to-balloon (DTB) times in PA. The PA process was divided into six separate time periods, which were assessed individually. Subsequent quality initiatives resulted in a dramatic reduction in the mean DTB time (141.3 minutes preintervention compared to 95.1 minutes postintervention; P < 0.001). [source]

A Method for Improving Arrival-to-electrocardiogram Time in Emergency Department Chest Pain Patients and the Effect on Door-to-balloon Time for ST-segment Elevation Myocardial Infarction

ACADEMIC EMERGENCY MEDICINE, Issue 10 2009
Kevin M. Takakuwa MD
Abstract Objectives:, The objectives were to determine if an emergency department (ED) could improve the adherence to a door-to-electrocardiogram (ECG) time goal of 10 minutes or less for patients who presented to an ED with chest pain and the effect of this adherence on door-to-balloon (DTB) time for ST-segment elevation myocardial infarction (STEMI) cardiac catheterization (cath) alert patients. Methods:, This was a planned 1-month before-and-after interventional study design for implementing a new process for obtaining ECGs in patients presenting to the study ED with chest pain. Prior to the change, patients were registered and triaged before an ECG was obtained. The new procedure required registration clerks to identify those with chest pain and directly overhead page or call a designated ECG technician. This technician had other ED duties, but prioritized performing ECGs and delivering them to attending physicians. A full registration process occurred after the clinical staff performed their initial assessment. The primary outcome was the total percentage of patients with chest pain who received an ECG within 10 minutes of ED arrival. The secondary outcome was DTB time for patients with STEMI who were emergently cath alerted. Data were analyzed using mean differences, 95% confidence intervals (CIs), and relative risk (RR) regression to adjust for possible confounders. Results:, A total of 719 patients were studied: 313 before and 405 after the intervention. The mean (±standard deviation [SD]) age was 50 (±16) years, 54% were women, 57% were African American, and 36% were white. Patients walked in 89% of the time; 11% arrived by ambulance. Thirty-nine percent were triaged as emergent and 61% as nonemergent. Patients presented during daytime 68% of the time, and 32% presented during the night. Before the intervention, 16% received an ECG at 10 minutes or less. After the intervention, 64% met the time requirement, for a mean difference of 47.3% (95% CI = 40.8% to 53.3%, p < 0.0001). Results were not affected by age, sex, race, mode of arrival, triage classification, or time of arrival. For patients with STEMI cath alerts, four were seen before and seven after the intervention. No patients before the intervention had ECG time within 10 minutes, and one of four had DTB time of <90 minutes. After the intervention, all seven patients had ECG time within 10 minutes; the three arriving during weekday hours when the cath team was on site had DTB times of <90 minutes, but the four arriving at night and on weekends when the cath team was off site had DTB times of >90 minutes. Conclusions:, The overall percentage of patients with a door-to-ECG time within 10 minutes improved without increasing staffing. An ECG was performed within 10 minutes of arrival for all patients who were STEMI cath alerted, but DTB time under 90 minutes was achieved only when the cath team was on site. [source]

A Comparison of Door-to-balloon Times and False-positive Activations between Emergency Department and Out-of-hospital Activation of the Coronary Catheterization Team

ACADEMIC EMERGENCY MEDICINE, Issue 8 2008
Scott T. Youngquist MD
Abstract Objectives:, The objectives were to compare the proportion of false-positive activations and intervention times between emergency department (ED) and field-based activation of the coronary catheterization laboratory (cath) team for emergency medical services (EMS) patients identified by out-of-hospital (OOH) 12-lead electrocardiogram (ECG) with ST-segment elevation myocardial infarction (STEMI). Methods:, This was a retrospective review of prospectively collected continuous quality improvement data at a single, urban, academic medical center. By protocol, weekday activation of the cath team occurred based on OOH notification of a computer-interpreted OOH ECG indicating potential STEMI. Night and weekend activation occurred at the discretion of the attending emergency physician (EP) after advanced ED notification and after patient arrival and assessment. Basic demographic information and cardiac risk factors were recorded, as well as door-to-balloon (DTB) and ultimate diagnosis. Results:, From May 2007 through March 2008, there were 23 field activations and 33 ED activations. There was no difference in demographic or clinical characteristics between the two groups. In the field activation group, 9/23 (39%) were false-positives, while 3/33 (9%) were false-positives in the ED activation group (30% higher absolute difference in the field activation group, 95% confidence interval [CI] = 8% to 52%, p = 0.02). OOH times and time spent in the ED were similar between the two groups. DTB times were 77 minutes for field activation and 68 minutes for ED activation, respectively (difference 9 minutes, 95% CI = ,9 to 27). Conclusions:, Emergency physician activation of the cath team results in a lower proportion of false-positive activations without clearly sacrificing DTB time when compared to field activation based solely on the results of the OOH ECG. [source]

A Method for Improving Arrival-to-electrocardiogram Time in Emergency Department Chest Pain Patients and the Effect on Door-to-balloon Time for ST-segment Elevation Myocardial Infarction

ACADEMIC EMERGENCY MEDICINE, Issue 10 2009
Kevin M. Takakuwa MD
Abstract Objectives:, The objectives were to determine if an emergency department (ED) could improve the adherence to a door-to-electrocardiogram (ECG) time goal of 10 minutes or less for patients who presented to an ED with chest pain and the effect of this adherence on door-to-balloon (DTB) time for ST-segment elevation myocardial infarction (STEMI) cardiac catheterization (cath) alert patients. Methods:, This was a planned 1-month before-and-after interventional study design for implementing a new process for obtaining ECGs in patients presenting to the study ED with chest pain. Prior to the change, patients were registered and triaged before an ECG was obtained. The new procedure required registration clerks to identify those with chest pain and directly overhead page or call a designated ECG technician. This technician had other ED duties, but prioritized performing ECGs and delivering them to attending physicians. A full registration process occurred after the clinical staff performed their initial assessment. The primary outcome was the total percentage of patients with chest pain who received an ECG within 10 minutes of ED arrival. The secondary outcome was DTB time for patients with STEMI who were emergently cath alerted. Data were analyzed using mean differences, 95% confidence intervals (CIs), and relative risk (RR) regression to adjust for possible confounders. Results:, A total of 719 patients were studied: 313 before and 405 after the intervention. The mean (±standard deviation [SD]) age was 50 (±16) years, 54% were women, 57% were African American, and 36% were white. Patients walked in 89% of the time; 11% arrived by ambulance. Thirty-nine percent were triaged as emergent and 61% as nonemergent. Patients presented during daytime 68% of the time, and 32% presented during the night. Before the intervention, 16% received an ECG at 10 minutes or less. After the intervention, 64% met the time requirement, for a mean difference of 47.3% (95% CI = 40.8% to 53.3%, p < 0.0001). Results were not affected by age, sex, race, mode of arrival, triage classification, or time of arrival. For patients with STEMI cath alerts, four were seen before and seven after the intervention. No patients before the intervention had ECG time within 10 minutes, and one of four had DTB time of <90 minutes. After the intervention, all seven patients had ECG time within 10 minutes; the three arriving during weekday hours when the cath team was on site had DTB times of <90 minutes, but the four arriving at night and on weekends when the cath team was off site had DTB times of >90 minutes. Conclusions:, The overall percentage of patients with a door-to-ECG time within 10 minutes improved without increasing staffing. An ECG was performed within 10 minutes of arrival for all patients who were STEMI cath alerted, but DTB time under 90 minutes was achieved only when the cath team was on site. [source]

A Comparison of Door-to-balloon Times and False-positive Activations between Emergency Department and Out-of-hospital Activation of the Coronary Catheterization Team

ACADEMIC EMERGENCY MEDICINE, Issue 8 2008
Scott T. Youngquist MD
Abstract Objectives:, The objectives were to compare the proportion of false-positive activations and intervention times between emergency department (ED) and field-based activation of the coronary catheterization laboratory (cath) team for emergency medical services (EMS) patients identified by out-of-hospital (OOH) 12-lead electrocardiogram (ECG) with ST-segment elevation myocardial infarction (STEMI). Methods:, This was a retrospective review of prospectively collected continuous quality improvement data at a single, urban, academic medical center. By protocol, weekday activation of the cath team occurred based on OOH notification of a computer-interpreted OOH ECG indicating potential STEMI. Night and weekend activation occurred at the discretion of the attending emergency physician (EP) after advanced ED notification and after patient arrival and assessment. Basic demographic information and cardiac risk factors were recorded, as well as door-to-balloon (DTB) and ultimate diagnosis. Results:, From May 2007 through March 2008, there were 23 field activations and 33 ED activations. There was no difference in demographic or clinical characteristics between the two groups. In the field activation group, 9/23 (39%) were false-positives, while 3/33 (9%) were false-positives in the ED activation group (30% higher absolute difference in the field activation group, 95% confidence interval [CI] = 8% to 52%, p = 0.02). OOH times and time spent in the ED were similar between the two groups. DTB times were 77 minutes for field activation and 68 minutes for ED activation, respectively (difference 9 minutes, 95% CI = ,9 to 27). Conclusions:, Emergency physician activation of the cath team results in a lower proportion of false-positive activations without clearly sacrificing DTB time when compared to field activation based solely on the results of the OOH ECG. [source]