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For full discussion on ST segment elevation myocardial infarction click here.

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Door-to-balloon is a time measurement in emergency cardiac care (ECC), specifically in the treatment of ST segment elevation myocardial infarction (or STEMI). The interval starts with the patient's arrival in the emergency department, and ends when a catheter guidewire crosses the culprit lesion in the cardiac cath lab. Because of the adage that "time is muscle", meaning that delays in treating a myocardial infarction increase the likelihood and amount of cardiac muscle damage due to localised hypoxia,[1][2][3][4] ACC/AHA guidelines recommend a door-to-balloon interval of no more than 90 minutes.[5] Currently fewer than half of STEMI patients receive reperfusion with primary percutaneous coronary intervention within the guideline-recommended timeframe.[6][7] It has become a core quality measure for the Joint Commission on Accreditation of Healthcare Organizations (JCAHO).[8][9][10]

Improving Door-to-Balloon Times

Door to Balloon (D2B) Initiative

The benefit of prompt, expertly performed primary percutaneous coronary intervention over thrombolytic therapy for acute ST elevation myocardial infarction is now well established.[11] Few hospitals can provide PCI within the 90 minute interval,[12] which prompted the American College of Cardiology (ACC) to launch a national Door to Balloon (D2B) Initiative in November of 2006. The D2B Alliance seeks to "take the extraordinary performance of a few hospitals and make it the ordinary performance of every hospital."[13] Over 800 hospitals have joined the D2B Alliance as of March 16, 2007.[14]

The D2B Alliance advocates six key evidence-based strategies and one optional strategy to help reduce door-to-balloon times:[13][15]

  1. ED physician activates the cath lab
  2. Single-call activation system activates the cath lab
  3. Cath lab team is available within 20-30 minutes
  4. Prompt data feedback
  5. Senior management commitment
  6. Team based approach
  7. (Optional) Prehospital 12 lead ECG activates the cath lab

Practical Strategies at Your Site to Reduce Door-to-Balloon Times

The following strategies can be utilized to reduce door to balloon times:

  1. Have emergency medical service (EMS) personnel activate the cardiac catheterization laboratory directly
  2. Require that nurses, technicians and physicians remain within 30 minutes of the hospital while on call
  3. Require that nurses, technicians and physicians sleep in the hospital while on call
  4. Optimize door to EKG and EKG to decision times
  5. Activate the cardiac catheterization laboratory team with a single phone call using batch paging
  6. Have a "sterile table" prepared in the cardiac catheterization laboratory so that no time is wasted gathering equipment and supplies.
  7. Ask the CCU nurse and or ER nurse to assist the cath lab nurse in transporting and readying the patient for cardiac catheterization.
  8. Do not perform right heart catheterization or left heart catheterization before the intervention
  9. Only obtain venous access if the patient is hemodynamically unstable or if there is likely going to be the need to a temporary pacemaker
  10. Perform angiography of the culprit lesion first. There is a lack of consensus on this point. Some operators prefer to perform angiography of the non-culprit lesion first to assess the extent of disease. The Editor-In-Chief, CM Gibson prefers to assess the non-culprit lesion first. The non-culprit lesion may in fact turn out to be the culprit lesion.

Mission: Lifeline

On May 30, 2007, the American Heart Association launched 'Mission: Lifeline', a "community-based initiative aimed at quickly activating the appropriate chain of events critical to opening a blocked artery to the heart that is causing a heart attack."[16] It is seen as complementary to the ACC's D2B Initiative.[17] The program will concentrate on patient education to make the public more aware of the signs of a heart attack and the importance of calling 9-1-1 for emergency medical services (EMS) for transport to the hospital.[16] In addition, the program will attempt to improve the diagnosis of STEMI patients by EMS personnel.[16] According to Alice Jacobs, MD, who led the work group that addressed STEMI systems,[18] when patients arrive at non-PCI hospitals they will stay on the EMS stretcher with paramedics in attendance while a determination is made as to whether or not the patient will be transferred.[18] For walk-in STEMI patients at non-PCI hospitals, EMS calls to transfer the patient to a PCI hospital should be handled with the same urgency as a 9-1-1 call.[18]

EMS-to-Balloon (E2B)

Although incorporating a prehospital 12 lead ECG into critical pathways for STEMI patients is listed as an optional strategy by the D2B Alliance, the fastest median door-to-balloon times have been achieved by hospitals with paramedics who perform 12 lead ECGs in the field.[19] EMS can play a key role in reducing the first-medical-contact-to-balloon time, sometimes referred to as EMS-to-balloon (E2B) time,[20] by performing a 12 lead ECG in the field and using this information to triage the patient to the most appropriate medical facility.[21][22][23]

Depending on how the prehospital 12 lead ECG program is structured, the 12 lead ECG can be transmitted to the receiving hospital for physician interpretation, interpreted on-site by appropriately trained paramedics, or interpreted on-site by paramedics with the help of computerized interpretive algorithms.[24] Some EMS systems utilize a combination of all three methods.[20] Prior notification of an in-bound STEMI patient enables time saving decisions to be made prior to the patient's arrival. This may include a "cardiac alert" or "STEMI alert" that calls in off duty personnel in areas where the cardiac cath lab is not staffed 24 hours a day.[20] The 30-30-30 rule takes the goal of achieving a 90 minute door-to-balloon time and divides it into three equal time segments. Each STEMI care provider (EMS, the emergency department, and the cardiac cath lab) has 30 minutes to complete its assigned tasks and seamlessly "hand off" the STEMI patient to the next provider.[20] In some locations, the emergency department may be bypassed altogether.[25]

In some locations, a prehospital 12 lead ECG may be transmitted to the emergency department with the use of a Bluetooth capable cardiac monitor and cell phone.

Common Themes in Hospitals Achieving Rapid Door-to-Balloon Times

Bradley et al. (Circulation 2006) performed a qualitative analysis of 11 hospitals in the National Registry of Myocardial Infarction that had median door-to-ballon times = or < 90 minutes. They identified 8 themes that were present in all 11 hospitals:[7]

  1. An explicit goal of reducing door-to-balloon times
  2. Visible support of senior management
  3. Innovative, standardized protocols
  4. Flexibility in implementing standardized protocols
  5. Uncompromising individual clinical leaders
  6. Collaborative interdisciplinary teams
  7. Data feedback to monitor progress and identify problems or successes
  8. Organizational culture that fostered persistence despite challenges and setbacks

Criteria for an Ideal Primary PCI Center

Granger et al. (Circulation 2007) identified the following criteria of an ideal primary PCI center.[24]

Institutional Resources

  1. Primary PCI is the routine treatment for eligible STEMI patients 24 hours a day, 7 days a week
  2. Primary PCI is performed as soon as possible
  3. Institution is capable of providing supportive care to STEMI patients and handling complications
  4. Written commitment by hospital administration to support the program
    1. Identifies physician director for PCI program
    2. Creates multidisciplinary group that includes input from all relevant stakeholders, including cardiology, emergency medicine, nursing, and EMS
  5. Institution designs and implements a continuing education program
  6. For institution without on-site surgical backup, there is a written agreement with tertiary institution and EMS to provide for rapid transfer of STEMI patients when needed

Physician Resources

  1. Interventional cardiologists meet ACC/AHA criteria for competence
  2. Interventional cardiologists participate in, and are responsive to formal on-call schedule

Program Requirements

  1. Minimum of 36 primary PCI procedures and 400 total PCI procedures annually
  2. Program is described in a "manual of operations" that is compliant with ACC/AHA guidelines
  3. Mechanisms for monitoring program performance and ongoing quality improvement activities

Other Features of Ideal System

  1. Robust data collection and feedback including door-to-balloon time, first door-to-balloon time (for transferred patients), and the proportion of eligible patients receiving some form of reperfusion therapy
  2. Earliest possible activation of the cardiac cath lab, based on prehospital ECG whenever possible, and direct referral to PCI-hospital based on field diagnosis of STEMI
  3. Standardized ED protocols for STEMI management
  4. Single phone call activation of cath lab that does not depend on cardiologist interpretation of ECG

Gaps and Barriers to Timely Access to Primary PCI

Granger et al. (Circulation 2007) identified the following barriers to timely access to primary PCI.[24]

  1. Busy PCI hospitals may have to divert patients
  2. Significant delays in ED diagnosis of STEMI may occur, particularly when patient does not arrive by EMS
  3. Manpower and financial considerations may prevent smaller PCI programs from providing primary PCI for STEMI 24 hours a day
  4. Reimbursement for optimal coordination of STEMI patients needs to be realigned to reflect performance
  5. In most PCI centers, cath lab staff is off-site during off hours, requiring a mandate that staff report with 20-30 minutes of cath lab activation

2021 ACC/AHA/SCAI Guideline for Coronary Artery Revascularization. Revascularization in Patients With STEMI

Revascularization of the Infarct Artery in Patients With STEMI

Class I
"1. In patients with STEMI and ischemic symptoms for <12 hours, PCI should be performed to improve survival (Level of Evidence: A) "
"2. In patients with STEMI and cardiogenic shock or hemodynamic instability, PCI or CABG (when PCI is not feasible) is indicated to improve survival, irrespective of the time delay from MI onset (Level of Evidence: B-R) "
"3. In patients with STEMI who have mechanical complications (eg, ventricular septal rupture, mitral valve insufficiency because of papillary muscle infarction or rupture, or free wall rupture), CABG is recommended at the time of surgery, with the goal of improving survival. (Level of Evidence: B-NR "
"4. In patients with STEMI and evidence of failed reperfusion after fibrinolytic therapy, rescue PCI of the infarct artery should be performed to improve clinical outcomes.(Level of Evidence: A) "

[26]

Class IIa
" 5. In patients with STEMI that are treated with fibrinolytic therapy, angiography within 3 to 24 hours with the intent to perform PCI is reasonable to improve clinical outcomes. (Level of Evidence B-R)".
'' 6. In patients with STEMI who are stable and presenting 12 to 24 hours after symptom onset, PCI is reasonable to improve clinical outcomes (Level of Evidence B-NR)''
''7.In patients with STEMI in whom PCI is not feasible or successful, with a large area of myocardium at risk, emergency or urgent CABG can be effective as a reperfusion modality to improve clinical outcomes. (Level of Evidence B-NR)''
''8. In patients with STEMI complicated by ongoing ischemia, acute severe heart failure, or life-threatening arrhythmia, PCI can be beneficial to improve clinical outcomes, irrespective of time delay from MI onset.(Level of Evidence C-LD)''

[26]

Class III (No Benefit)
"9. In asymptomatic stable patients with STEMI who have a totally occluded infarct artery >24 hours after symptom onset and are without evidence of severe ischemia, PCI should not be performed. (Level of Evidence:B-R) "

[26]

Class III (Harm)
"10. In patients with STEMI, emergency CABG should not be performed after failed primary PCI:

•   In the absence of ischemia or a large area of myocardium at risk, or •  If surgical revascularization is not feasible because of a no-reflow state or poor distal targets (Level of Evidence: C-EO) "

[26]

Revascularization of the Non-Infarct Artery in Patients With STEMI

Class I
"1. In selected hemodynamically stable patients with STEMI and multivessel disease, after successful primary PCI, staged PCI of a significant non-infarct artery stenosis is recommended to reduce the risk of death or MI(Level of Evidence: B) "

[26]

Class IIa
" 2. In selected patients with STEMI with complex multivessel non-infarct artery disease, after successful primary PCI, elective CABG is reasonable to reduce the risk of cardiac events (Level of Evidence C-EO)".

[26]

Class IIb
" 3. In selected hemodynamically stable patients with STEMI and low-complexity multivessel disease, PCI of non-infarct artery stenosis may be considered at the time of primary PCI to reduce cardiac event rates (Level of Evidence B-R)".

[26]

Class III (Harm)
"4. In patients with STEMI complicated by cardiogenic shock, routine PCI of a non-infarct artery at the time of primary PCI should not be performed because of the higher risk of death or renal failure (Level of Evidence: B-R) "

[26]

2013 ACCF/AHA Guideline for the Management of ST-Elevation Myocardial Infarction: Executive Summary[27]

Regional Systems of STEMI Care, Reperfusion Therapy, and Time-to-Treatment Goals

Class I
"1. All communities should create and maintain a regional system of STEMI care that includes assessment and continuous quality improvement of emergency medical services and hospital-based activities. Performance can be facilitated by participating in programs such as Mission: Lifeline and the Door-to-Balloon Alliance(Level of Evidence: B) "
"2. Performance of a 12-lead electrocardiogram (ECG) by emergency medical services personnel at the site of first medical contact (FMC) is recommended in patients with symptoms consistent with STEMI(Level of Evidence: B) "
"3. Reperfusion therapy should be administered to all eligible patients with STEMI with symptom onset within the prior 12 hours(Level of Evidence: A) "
"4. Primary PCI is the recommended method of reperfusion when it can be performed in a timely fashion by experienced operators(Level of Evidence: A) "
"5. Emergency medical services transport directly to a PCI-capable hospital for primary PCI is the recommended triage strategy for patients with STEMI, with an ideal FMC-to-device time system goal of 90 minutes or less(Level of Evidence: B) "
"6. Immediate transfer to a PCI-capable hospital for primary PCI is the recommended triage strategy for patients with STEMI who initially arrive at or are transported to a non–PCI-capable hospital, with an FMC-to-device time system goal of 120 minutes or less (Level of Evidence: B)"
"7. In the absence of contraindications, fibrinolytic therapy should be administered to patients with STEMI at non–PCI-capable hospitals when the anticipated FMC-to-device time at a PCI-capable hospital exceeds 120 minutes because of unavoidable delays (Level of Evidence: B)"
"8. When fibrinolytic therapy is indicated or chosen as the primary reperfusion strategy, it should be administered within 30 minutes of hospital arrival(Level of Evidence: B)"
Class IIa
"1. Reperfusion therapy is reasonable for patients with STEMI and symptom onset within the prior 12 to 24 hours who have clinical and/or ECG evidence of ongoing ischemia. Primary PCI is the preferred strategy in this population (Level of Evidence: B)"
Class III (Harm)
"10. In patients with STEMI, emergency CABG should not be performed after failed primary PCI:

•   In the absence of ischemia or a large area of myocardium at risk, or •   If surgical revascularization is not feasible because of a no-reflow state or poor distal targets.(Level of Evidence: C-EO "

2013 Revised and 2009 and 2007 Focused Updates: ACCF/AHA Guidelines for the Management of ST-Elevation Myocardial Infarction (DO NOT EDIT)[28][29][5]

Regional Systems of STEMI Care, Triage, Transfer for PCI, Reperfusion Therapy, and Time-to-Treatment Goals (DO NOT EDIT)[28][29]

Class I
"1. All communities should create and maintain a regional system of STEMI care that includes assessment and continuous quality improvement of emergency medical services and hospital-based activities. Performance can be facilitated by participating in programs such as Mission: Lifeline and the Door-to-Balloon Alliance.[30][31][32][33] (Level of Evidence: B)"
"2. Emergency medical services transport directly to a PCI-capable hospital for primary PCI is the recommended triage strategy for patients with STEMI, with an ideal FMC-to-device time system goal of 90 minutes or less.[33][34][35] (Level of Evidence: B)"
"3. Immediate transfer to a PCI-capable hospital for primary PCI is the recommended triage strategy for patients with STEMI who initially arrive at or are transported to a non–PCI-capable hospital, with an FMC-to-device time system goal of 120 minutes or less. [36][37][38][39] (Level of Evidence: B)"
"4. Immediate transfer to a PCI-capable hospital for coronary angiography is recommended for suitable patients with STEMI who develop cardiogenic shock or acute severe HF, irrespective of the time delay from MI onset. [40](Level of Evidence: B)"
"5. In the absence of contraindications, fibrinolytic therapy should be administered to patients with STEMI at non–PCI-capable hospitals when the anticipated FMC-to-device time at a PCI-capable hospital exceeds 120 minutes because of unavoidable delays.[41][42][43] (Level of Evidence: B)"
"6. When fibrinolytic therapy is indicated or chosen as the primary reperfusion strategy, it should be administered within 30 minutes of hospital arrival.[44][45][46][47][48] (Level of Evidence: B)"
Class IIa
"1. It is reasonable for high-risk patients who receive fibrinolytic therapy as primary reperfusion therapy at a non–PCI-capable facility to be transferred as soon as possible to a PCI-capable facility where PCI can be performed either when needed or as a pharmacoinvasive strategy. Consideration should be given to initiating a preparatory antithrombotic (anticoagulant plus antiplatelet) regimen before and during patient transfer to the catheterization laboratory. [49][50](Level of Evidence: B)"
"2. Urgent transfer to a PCI-capable hospital for coronary angiography is reasonable for patients with STEMI who demonstrate evidence of failed reperfusion or reocclusion after fibrinolytic therapy.[51][52][53][54][55][56][57](Level of Evidence: B)"
"3. Transfer to a PCI-capable hospital for coronary angiography is reasonable for patients with STEMI who have received fibrinolytic therapy even when hemodynamically stable and with clinical evidence of successful reperfusion. Angiography can be performed as soon as logistically feasible at the receiving hospital, and ideally within 24 hours, but should not be performed within the first 2 to 3 hours after administration of fibrinolytic therapy. [58][59][60][61][62][63](Level of Evidence: B)"
Class IIb
"1. Patients who are not at high risk who receive fibrinolytic therapy as primary reperfusion therapy at a non–PCI-capable facility may be considered for transfer as soon as possible to a PCI-capable facility where PCI can be performed either when needed or as a pharmacoinvasive strategy. Consideration should be given to initiating a preparatory antithrombotic (anticoagulant plus antiplatelet) regimen before and during patient transfer to the catheterization laboratory. (Level of Evidence: C)"

Reperfusion (DO NOT EDIT) [28][5]

Class I
"1. Reperfusion therapy should be administered to all eligible patients with STEMI with symptom onset within the prior 12 hours.[41][64] (Level of Evidence: A)"
"2. STEMI patients presenting to a hospital with PCI capability should be treated with primary PCI within 90 minutes of first medical contact as a systems goal. (Level of Evidence: A)"
"3. STEMI patients presenting to a hospital without PCI capability and who cannot be transferred to a PCI center and undergo PCI within 90 minutes of first medical contact should be treated with fibrinolytic therapy within 30 minutes of hospital presentation as a systems goal unless fibrinolytic therapy is contraindicated. (Level of Evidence: B)"
Class IIa
"1. Reperfusion therapy is reasonable for patients with STEMI and symptom onset within the prior 12 to 24 hours who have clinical and/or ECG evidence of ongoing ischemia. Primary PCI is the preferred strategy in this population. [41][65][66](Level of Evidence: B)"

2013 Revised and 2009 and 2007 Focused Updates: ACCF/AHA Guidelines for the Management of ST-Elevation Myocardial Infarction (DO NOT EDIT)[28][29][5]

Regional Systems of STEMI Care, Triage, Transfer for PCI, Reperfusion Therapy, and Time-to-Treatment Goals (DO NOT EDIT)[28][29]

Class I
"1. All communities should create and maintain a regional system of STEMI care that includes assessment and continuous quality improvement of emergency medical services and hospital-based activities. Performance can be facilitated by participating in programs such as Mission: Lifeline and the Door-to-Balloon Alliance.[30][31][32][33] (Level of Evidence: B)"
"2. Emergency medical services transport directly to a PCI-capable hospital for primary PCI is the recommended triage strategy for patients with STEMI, with an ideal FMC-to-device time system goal of 90 minutes or less.[33][34][35] (Level of Evidence: B)"
"3. Immediate transfer to a PCI-capable hospital for primary PCI is the recommended triage strategy for patients with STEMI who initially arrive at or are transported to a non–PCI-capable hospital, with an FMC-to-device time system goal of 120 minutes or less. [36][37][38][39] (Level of Evidence: B)"
"4. Immediate transfer to a PCI-capable hospital for coronary angiography is recommended for suitable patients with STEMI who develop cardiogenic shock or acute severe HF, irrespective of the time delay from MI onset. [40](Level of Evidence: B)"
"5. In the absence of contraindications, fibrinolytic therapy should be administered to patients with STEMI at non–PCI-capable hospitals when the anticipated FMC-to-device time at a PCI-capable hospital exceeds 120 minutes because of unavoidable delays.[41][42][43] (Level of Evidence: B)"
"6. When fibrinolytic therapy is indicated or chosen as the primary reperfusion strategy, it should be administered within 30 minutes of hospital arrival.[44][45][46][47][48] (Level of Evidence: B)"
Class IIa
"1. It is reasonable for high-risk patients who receive fibrinolytic therapy as primary reperfusion therapy at a non–PCI-capable facility to be transferred as soon as possible to a PCI-capable facility where PCI can be performed either when needed or as a pharmacoinvasive strategy. Consideration should be given to initiating a preparatory antithrombotic (anticoagulant plus antiplatelet) regimen before and during patient transfer to the catheterization laboratory. [67][68](Level of Evidence: B)"
"2. Urgent transfer to a PCI-capable hospital for coronary angiography is reasonable for patients with STEMI who demonstrate evidence of failed reperfusion or reocclusion after fibrinolytic therapy.[51][52][53][54][55][56][57](Level of Evidence: B)"
"3. Transfer to a PCI-capable hospital for coronary angiography is reasonable for patients with STEMI who have received fibrinolytic therapy even when hemodynamically stable and with clinical evidence of successful reperfusion. Angiography can be performed as soon as logistically feasible at the receiving hospital, and ideally within 24 hours, but should not be performed within the first 2 to 3 hours after administration of fibrinolytic therapy. [58][59][60][61][62][63](Level of Evidence: B)"
Class IIb
"1. Patients who are not at high risk who receive fibrinolytic therapy as primary reperfusion therapy at a non–PCI-capable facility may be considered for transfer as soon as possible to a PCI-capable facility where PCI can be performed either when needed or as a pharmacoinvasive strategy. Consideration should be given to initiating a preparatory antithrombotic (anticoagulant plus antiplatelet) regimen before and during patient transfer to the catheterization laboratory. (Level of Evidence: C)"

Reperfusion (DO NOT EDIT) [28][5]

Class I
"1. Reperfusion therapy should be administered to all eligible patients with STEMI with symptom onset within the prior 12 hours.[41][64] (Level of Evidence: A)"
"2. STEMI patients presenting to a hospital with PCI capability should be treated with primary PCI within 90 minutes of first medical contact as a systems goal. (Level of Evidence: A)"
"3. STEMI patients presenting to a hospital without PCI capability and who cannot be transferred to a PCI center and undergo PCI within 90 minutes of first medical contact should be treated with fibrinolytic therapy within 30 minutes of hospital presentation as a systems goal unless fibrinolytic therapy is contraindicated. (Level of Evidence: B)"
Class IIa
"1. Reperfusion therapy is reasonable for patients with STEMI and symptom onset within the prior 12 to 24 hours who have clinical and/or ECG evidence of ongoing ischemia. Primary PCI is the preferred strategy in this population. [41][65][66](Level of Evidence: B)"

References

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