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TREATMENT

Prehospital Care

  • All patients being transported for chest pain should be managed as if the pain were ischemic in origin unless clear evidence to the contrary is established.
  • If available, an ALS unit should transport patients with hemodynamic instability or respiratory difficulty.
  • Prehospital notification by Emergency Medical Services (EMS) personnel should alert ED staff to the possibility of a patient with MI. EMS personnel should receive online medical advice for a patient with high-risk presentation.
  • The American Heart Association (AHA) protocol can be adopted for use by prehospital emergency personnel. This protocol recommends empirical treatment of patients with suspected STEMI with morphine, oxygen, nitroglycerin, and aspirin.
  • Specific prehospital care includes the following:
    • Intravenous access, supplemental oxygen, pulse oximetry
    • Immediate administration of aspirin en route
    • Nitroglycerin for active chest pain, given sublingually or by spray
    • Telemetry and prehospital ECG, if available
  • EMS protocol should be formulated to strongly consider taking patients with suspected MI/ACS, and certainly patients with STEMI, to facilities capable of PCI if geographically possible.
  • Prehospital thrombolysis allows eligible patients to receive thrombolysis 30-60 minutes sooner than if treatment were given in the ED; however, prehospital thrombolysis is still under investigation.

Emergency Department Care

For purposes of determining appropriate treatment, viewing MI as part of a spectrum of coronary syndromes is helpful; this spectrum includes (1) STEMI, (2) NSTEMI, and (3) unstable angina. Patients with persistent ST elevation should be considered for reperfusion therapy (thrombolysis or primary PCI.) Those without ST elevation will be diagnosed with either NSTEMI if cardiac marker levels are elevated or with unstable angina if serum cardiac marker levels provide no evidence of myocardial injury. Patients presenting with no ST-segment elevation are not candidates for immediate thrombolytics but should receive anti-ischemic therapy and may be candidates for PCI urgently or during admission. Confirmation of the diagnosis of NSTEMI requires waiting for the results of cardiac markers. In the case of unstable angina, diagnosis may await further diagnostic studies such as coronary angiography or imaging studies to confirm the diagnosis and to distinguish it from noncoronary causes of chest pain.

The initial focus should be on identifying patients with STEMI. An ECG should be performed and shown to an experienced emergency medicine physician within 10 minutes of ED arrival. If STEMI is present, the decision as to whether the patient will be treated with thrombolysis or primary PCI should be made within the next 10 minutes. The goal for patients with STEMI should be to achieve a door-to-drug time of within 30 minutes and a door-to-balloon time of within 90 minutes. If STEMI is not present, then the workup should proceed looking for unstable angina or NSTEMI and for alternative diagnoses.



Treatment is aimed at (1) restoration of the balance between the oxygen supply and demand to prevent further ischemia, (2) pain relief, and (3) prevention and treatment of complications.

  • Delays in administration of thrombolysis often occur because of delay in obtaining an ECG, interpretation, lack of immediate availability of thrombolytic agents, and outdated protocols requiring cardiology consultation before thrombolytic treatment.
  • An ECG should be performed as soon as possible after the patient presents to the ED. The ECG should be hand-delivered to an experienced physician for timely review.
  • All patients should be placed on telemetry.
  • Two large-bore IVs should be inserted if the EMS has not already completed this.
  • Pulse oximetry should be performed, and appropriate supplemental oxygen should be given (maintain oxygen saturation >90%).
  • A chest radiograph should be obtained soon after arrival to screen for alternative causes of chest pain and identify possible contraindications to thrombolysis (eg, aortic dissection).
  • Pharmacologic intervention is likely to include the following:
    • Aspirin should be administered immediately if not already taken by the patient at home or administered by EMS before arrival. Aspirin has been shown to decrease mortality and reinfarction rates after MI. Use clopidogrel (Plavix) in case of aspirin allergy.
    • Beta-blocker therapy for heart rate control and resultant decrease of myocardial oxygen demand if not contraindicated. Metoprolol (Lopressor) is the standard and is a selective beta1-adrenergic receptor blocker that decreases automaticity of contractions. Beta-blockers reduce the rates of reinfarction and recurrent ischemia and may also reduce mortality.
    • Morphine sulphate may be administered for relief of pain and anxiety.
  • Nitrates are useful for preload reduction and symptomatic relief but have no apparent impact on mortality rate in MI. Systolic BP <90, HR <60 or >100, and RV infarction are a contraindications to nitrate use. Intravenous nitroglycerin is indicated for relief of ongoing ischemic discomfort, control of hypertension, or management of pulmonary congestion. Nitrates should not be administered to patients who have taken any phosphodiesterase inhibitor for erectile dysfunction within the last 24 hours (extend timeframe to 48 h for tadalafil).
  • Thrombolytic therapy has been shown to improve survival rates in MI.

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    • Door-to-drug time should be no more than 30 minutes. Thrombolytic therapy administered within the first 2 hours can occasionally abort MI and dramatically reduce the mortality rate.
    • The optimal approach is to administer thrombolytics as soon as possible after onset of symptoms (up to 12 h from symptom onset according to some authors) in patients with ST-segment elevation greater than 1 mm in 2 or more anatomically contiguous ECG leads, new or presumed new left bundle-branch block, or anterior ST depression where posterior infarction is suspected. With ST-segment elevation, the diagnosis is relatively secured; therefore, initiation of reperfusion therapy should not be delayed for the results of cardiac markers.
    • Thrombolysis is generally preferred to PCI in cases where the time from symptom onset is less than 3 hours and if there would be a delay to PCI, greater than 1-2 additional hours to door-to-balloon time. A detailed list of contraindications and cautions for the use of fibrinolytic therapy is shown in Table 12 of the ACC/AHA Guidelines for the Management of Patients With ST-Elevation Myocardial Infarction—Executive Summary, at the American College of Cardiology.
  • Administer a platelet glycoprotein (GP) IIb/IIIa-receptor antagonist (eptifibatide, tirofiban, or abciximab), in addition to aspirin and unfractionated heparin, to patients with continuing ischemia or with other high-risk features and to patients in whom PCI is planned. Studies suggest that the addition of intravenous platelet glycoprotein (GP) IIb/IIIa-receptor antagonists to aspirin and heparin improves both early and late outcomes, including mortality, Q-wave MI, need for revascularization procedures, and length of hospital stay.
  • Despite the traditional use of unfractionated heparin in ST elevation MI for decades, controversy regarding its role continues.
    • patients treated with fibrinolytic therapy, recommendations for heparin therapy depend on the fibrinolytic agent. Heparin has an established role as an adjunctive agent in patients receiving alteplase, reteplase, or tenecteplase but should not be used with nonselective fibrinolytic agents such as streptokinase and anistreplase.
    • Heparin is also indicated in patients undergoing primary PCI. Data are scant with regard to heparin efficacy in patients not receiving thrombolytic therapy in the setting of MI; however, considerable rationale exists for ancillary heparin therapy to inhibit the coagulation cascade.
    • Low-molecular-weight heparins (LMWH) are commonly used because of convenient dosing and reliable therapeutic levels, but there have been no definitive trials of LMWH in patients with STEMI to provide a firm basis for recommendations. Low-molecular-weight heparin should not be used as an alternative to unfractionated heparin as ancillary therapy to fibrinolytics in patients aged older than 75 years or in patients with significant renal dysfunction (serum creatinine level >2.5 mg/dL in men or >2 mg/dL in women).
  • An ACE inhibitor (Captopril) should be given orally within the first 24 hours of STEMI to patients with anterior infarction, pulmonary congestion, or left ventricular ejection fraction (LVEF) less than 40% in the absence of hypotension.
  • An angiotensin receptor blocker (valsartan or candesartan) should be administered to patients with STEMI who are intolerant of ACE inhibitors and who have either clinical or radiological signs of heart failure or LVEF less than 40%.
  • Note that routine use of lidocaine as prophylaxis for ventricular arrhythmias in patients who have experienced an MI has been shown to increase mortality rates and its use is class indeterminate.
  • Use of calcium channel blockers in the acute setting has come into question, with some randomized controlled trials and retrospective studies showing increased adverse effects. Diltiazem and verapamil should be avoided in patients with pulmonary edema or severe left ventricular (LV) dysfunction.

The main goals of ED medical therapy are rapid intravenous thrombolysis and/or rapid referral for PCI, optimizing oxygenation, decreasing cardiac workload, and controlling pain.

Further Inpatient Care

  • All patients with known or suspected MI should be admitted to an ICU.
  • Patients should continue to receive beta-blockers, nitrates, and heparin, as indicated.
  • ACE inhibitors have been shown to improve survival rates in patients who have experienced an MI. In the acute setting, afterload reduction from ACE inhibitors may reduce the risk of CHF and sudden death.
  • Lidocaine may be indicated for patients with ventricular ectopy that is complex or for patients with hemodynamically significant, nonsustained, or sustained ventricular tachycardia. Recall that the routine use of lidocaine as prophylaxis for ventricular arrhythmias is contraindicated.

 

 

Transfer

  • A recent study showed that the transfer of patients to an invasive-treatment center for primary PCI is superior to on-site fibrinolysis provided that the transfer can be accomplished within 2 hours. Transfer should be considered for those patients who are likely to benefit from PCI or cardiac surgery but who are in an institution where access to such interventions is not immediate. The benefits of transferring such a patient must outweigh the risks. Patients for whom transfer might be considered include the following:
    • Patients with new or worsening hemodynamically significant mitral regurgitant murmurs
    • Patients with known or suspected critical aortic stenosis and either ongoing ischemia or hemodynamic instability
    • Patients who have received thrombolysis and fail to reperfuse
    • Patients with significant LV dysfunction or cardiogenic shock

Deterrence/Prevention

  • Patients should avoid risk factors when possible and act upon treatable risk factors.
  • Seeking medical attention or calling 911 with the first symptoms or signs of angina may initiate the cascade of interventions that will ultimately prevent or limit damage to the myocardium. All patients should be educated as to these symptoms and signs and when to call 911.
  • Daily low-dose aspirin may be helpful, but the decision to prescribe aspirin as a preventative measure for MI must be made by the patient's physician(s) considering his or her overall condition and risk-benefit ratio.

Complications

  • Monitoring and treatment of arrhythmias and conduction disturbances are an important part of the treatment of a post-MI patient within the first 48 hours. Conduction disturbances are most commonly observed in inferior MI but are more ominous when they occur with anterior MI.
  • Tachyarrhythmia

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    • Sinus tachycardia is a poor prognostic sign that is indicative of ventricular dysfunction or failure.
    • PVCs - Simple (ie, <10/h), no need to treat
    • PVCs - Complex, NSVT/VT, lidocaine DOC
    • Accelerated idioventricular rhythm (AIVR) is the most common reperfusion arrhythmia, but it usually is well tolerated and does not require treatment.
  • Bradyarrhythmia
    • Type I second-degree heart block (ie, Wenckebach) is associated with inferior wall MI. Treat using temporary pacing or atropine only if it is hemodynamically significant.
    • Type II second-degree heart block is associated with anterior wall MI and may require a permanent pacemaker. Bundle branch blocks (BBB) that are new or preexisting with new second-degree heart block may also mandate consideration for a permanent pacemaker.
  • Cardiogenic shock
    • In the setting of an MI, cardiogenic shock is associated with an 80% in-hospital mortality rate.
    • Patients should undergo thrombolysis or PCI, placement of an intra-aortic balloon pump, or CABG.
  • Valvular insufficiency
    • This may occur acutely when ischemia or an infarct of the papillary muscle occurs resulting in mitral regurgitation. It usually presents as flash pulmonary edema and hypotension. Papillary muscle rupture may require valve repair.
    • Ischemia often responds to medical therapy and thrombolysis.
  • Congestive heart failure can be due to systolic or diastolic dysfunction in MI. The severity of the heart failure and systolic dysfunction depends on the extent of the infarct and the presence of any other complications, such as acute mitral regurgitation. Treatment may include nitrates, morphine, diuretics, and ACE inhibitors. Digoxin has no role in acute CHF due to ischemia.
  • Right ventricular infarct occurs in the setting of an inferior wall infarction. Because patients with an RV infarct are preload-dependent, they often are identified by profound hypotension with normal pulmonary auscultation, particularly after nitroglycerin therapy. They respond to volume loading. This can be diagnosed by ST-segment elevation in right-sided chest leads (ie, V4R, V5R).
  • Ventricular rupture occurs in the interventricular septum or the left ventricle free wall. Rupture represents a catastrophic event with mortality rates greater than 90%. Prompt recognition, stabilization, and surgical repair are crucial to any hope of survival. An echocardiogram usually defines the abnormality, and a right heart catheterization may show an oxygenation increase with septal rupture. It is more common in women, patients with hypertension, and those receiving NSAIDs or steroids.
  • Other complications include pericarditis, ventricular aneurysm, and mural thrombus.

Prognosis

  • MI may be associated with a mortality rate as high as 30%, with more than half of deaths occurring in the prehospital setting. Prognosis is highly variable and depends on a number of factors related to the timing and nature of intervention, success of the intervention (ie, infarct size), and post-MI management.
  • Better prognosis is associated with factors including the following:

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    • Successful early reperfusion
    • Preserved LV function
    • Short-term and long-term treatment with beta-blockers, aspirin, and ACE inhibitors
  • Poorer prognosis is associated with the following:

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    • Delayed or unsuccessful reperfusion
    • LV function is the strongest predictor of outcome in the post-MI patient.
  • Ventricular dysrhythmias

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    • Recent experience with amiodarone suggests that it may improve long-term mortality in survivors of MI with ectopy and ventricular tachycardia.

Date: 2015-01-12; view: 676


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