Myocardial Infarction, Inferior


Article Author:
Matthew Warner


Article Editor:
Vijai Tivakaran


Editors In Chief:
Kranthi Sitammagari
Mayank Singhal


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Trevor Nezwek
Radia Jamil
Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beata Beatty
Beenish Sohail
Nazia Sadiq
Hajira Basit
Phillip Hynes


Updated:
1/11/2019 12:04:58 PM

Introduction

Inferior wall myocardial infarction (MI) occurs from a coronary artery occlusion with resultant decreased perfusion to that region of the myocardium. Unless there is timely treatment, this results in myocardial ischemia followed by infarction. In most patients, the inferior myocardium is supplied by the right coronary artery. In about 6-10% of the population, because of left dominance, the left circumflex will supply the posterior descending coronary artery. Approximately 40% of all MIs involve the inferior wall. Traditionally, inferior MIs have a better prognosis than those in other regions, such as the anterior wall of the heart. The mortality rate of an inferior wall MI is less than 10%. However, several complicating factors that increase mortality, including right ventricular infarction, hypotension, bradycardia heart block, and cardiogenic shock.[1][2][3]

Etiology

Inferior wall myocardial infarctions are due to ischemia and infarction to the inferior region of the heart. In 80% of patients, the inferior wall of the heart is supplied by the right coronary artery via the posterior descending artery (PDA). In the other 20% of patients, the PDA is a branch of the circumflex artery.[4]

Epidemiology

There were 8.6 myocardial infarctions in 2013 worldwide.  Inferior wall MIs are estimated to be 40% to 50% of all MIs. They have a better prognosis than other myocardial infarctions, with a mortality of 2% to 9%. However, up to 40% of inferior wall MIs have associated right ventricular involvement that portends a worse outcome.[5]

Pathophysiology

The pathophysiology of MI involves the rupture of a coronary artery plaque, thrombosis, and blockage of the downstream perfusion leading to myocardial ischemia then necrosis. The culprit vessel in most patients is the right coronary artery that then feeds the posterior descending artery. This anatomy is said to be right dominant. A minority of patients have left dominate anatomy with the posterior coronary artery supplied from the circumflex artery.  The most common ECG finding with inferior wall MI is ST elevation in ECG leads II, III and aVF with reciprocal ST depression in lead aVL.  The right coronary artery perfuses the AV node, so there are associated bradycardias, heart blocks and arrhythmias associated with inferior wall MIs.[6]

History and Physical

The history should focus on the usual investigation for an acute coronary syndrome. Symptoms include chest pain, heaviness or pressure and shortness of breath, and diaphoresis with radiation to the jaw or arms. There are often other symptoms such as fatigue, lightheadedness, or nausea. On physical exam, particular attention should be given to the heart rate since bradycardia and heart block may occur. Likewise, hypotension and evidence of poor perfusion should be assessed, especially if there is concomitant right ventricular infarction.

Evaluation

Early and serial ECGs are an essential part of the evaluation. ECG leads II, III, and aVF correlate with the inferior wall of the heart. ST-segment elevation in those leads indicates an inferior wall STEMI.  Reciprocal ST depression often is seen in lead aVL. Almost half of the inferior wall infarctions are associated with right ventricular MIs.  The addition of right-sided ECG leads should be used to examine the right ventricle. Right-sided ECGs are performed by reversing the precordial leads to the right side of the chest in a mirror image of the traditional precordial leads. Lead V4R is particularly useful for detecting a right-sided infarction. If there is evidence of ST elevation MI, the catheterization laboratory should be activated. If there is no ST elevation, troponin levels should be followed.[7]

Treatment / Management

If there is evidence of ST elevation on the ECG, the patient should be sent for emergency cardiac angiography to the catheterization lab with a goal door-to-vessel open time of under 90 minutes. Thrombolysis should be considered, depending on facility capability or anticipated long transport time to an interventional catheterization lab. If there is evidence of right ventricular infarction, avoid nitrates and provide volume to assure adequate preload. The right ventricle contains less myocardium than the left and is dependent on adequate preload to assure adequate cardiac function. If there is damage to the right ventricle, preload reduction from nitrates could result in significant hypotension. If this occurs, resuscitation with intravenous crystalloids and possible vasopressors are needed. Other treatment includes aspirin load with 162 to 325 mg, unfractionated heparin, GP IIb/IIIa antagonist, and additional P2Y12 anti-platelets such as clopidogrel.[8][9][10]

Differential Diagnosis

The differential diagnosis can be quite extensive. Factors that increase the likelihood of cardiac disease include exertional pain, diaphoresis, nausea and vomiting, and radiation of pain to the right arm. Other life-threatening illnesses to consider include pulmonary embolism, aortic dissection, pneumothorax, esophageal rupture, and cardiac tamponade. There may be atypical symptoms, especially in women and older patients, so a high degree of suspicion is required.  Since symptoms include nausea, vomiting, epigastric pain, and fatigue it is imperative to consider cardiac causes of these symptoms and not dismiss these symptoms as a gastrointestinal illness.

Prognosis

While inferior wall MIs traditionally have a good prognosis, there are a few factors that may increase mortality. Approximately 40% of inferior wall infarctions also involve the right ventricle. Right ventricular infarctions are very pre-load dependent, and nitrates may precipitate a drop in blood pressure. The addition of right-sided ECGs leads, especially lead V4r, will aid in that diagnosis. If timely treatment does not occur, there is a risk of cardiogenic shock as more myocardial death occurs. Also, because the right coronary artery perfuses the sinoatrial node, heart block and bradycardia may occur. A high degree heart block, defined as a second or third-degree block, is seen in 19% of patients with acute inferior wall MI. The amount of collateral circulation to the AV impacts the rate of heart blocks. If there is a concomitant disease to the other coronary arteries, collateral circulation to the AV node will be reduced, and the likelihood of heart block would be increased.

Postoperative and Rehabilitation Care

  • Cardiac rehabilitation
  • Lowering blood pressure
  • Decreasing cholesterol and blood glucose
  • Maintaining a healthy body weight

Deterrence and Patient Education

  • Discontinue smoking
  • Eat healthy
  • Exercise

Pearls and Other Issues

Heart blocks are present in approximately 9% of patients upon presentation, and two-thirds of patients who develop a high-degree heart block during the acute course of their inferior wall MI do so during the first 24 hours. While heart blocks are a main contributor to morbidity and mortality, most high-degree heart blocks are treatable with atropine. It is seldom necessary to use a temporary pacemaker. The damaged myocardium can lead to potentially lethal arrhythmias such as ventricular tachycardia and ventricular fibrillation.  It is necessary to monitor these patients in a monitored setting, usually an intensive care unit, during the acute part of the event. When potentially lethal arrhythmias occur, early defibrillation is essential.

Enhancing Healthcare Team Outcomes

Managing an inferior wall MI requires a multidisciplinary team of nurses, physicians, a cardiac surgeon, and a cardiologist. These patients are prone to life-threatening complications and hence prevention is the best approach. At discharge, the patients should be educated by the nurse about the potential need for pacing in the future. The dietitian should recommend a low salt, low-fat diet. The patient should be enrolled in a cardiac rehab program. The pharmacist should encourage smoking cessation, compliance with medications and lowering both blood cholesterol and glucose. [11][12][13](Level V)

Outcomes

When the RV is involved in an inferior wall MI it is an independent predictor of major complications and lengthening hospital stay. In addition, ischemia to the conducting pathways are disrupted leading to a high degree of an atrioventricular blockade, that frequently requires pacing. The mortality rates when the RV is involved is often more than 25% compared to patients without Rv involvement. In addition, even after discharge, a significant number of these patients need permanent pacing within 3 years.[14][15][16] (level V)


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Myocardial Infarction, Inferior - Questions

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A 72 year old female is recovering after angioplasty with stent for an inferior myocardial infarction. She develops orthopnea and shortness of breath. Vital signs are stable. There is jugular venous distension, a new III/VI systolic murmur at the heart base. It has a crescendo-decrescendo musical quality. There is no change with respiration. There are crackles at the lung bases. Select the most probable finding on echocardiogram.



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A 60-year-old male presents with acute chest pain relieved by sublingual nitroglycerin. An ECG shows junctional rhythm, atrioventricular block, and ST elevation in leads II, III, and aVF. What vessel is most likely involved?



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A 60-year-old female is brought to the emergency department with a 45-minute history of severe chest pain, nausea, dyspnea, and diaphoresis. A rhythm strip shows bradycardia and Mobitz type II second degree block. Select the most likely additional finding on ECG.



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A patient presenting with chest pain has ST-segment elevation in the inferior leads. On exam, he has elevated jugular venous pressure, no murmurs, and clear lungs. What is the most likely diagnosis?



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What are the ECG findings of an inferior wall, ST-elevation myocardial infarction?

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A 64-year-old man has suffered an inferior myocardial infarction. Hemodynamically significant right ventricular infarction is excluded by the absence of elevated jugular venous pressure and:



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A patient has an acute inferior wall myocardial infarction 2 days ago. He now presents with a systolic murmur to the axilla. Catheterization reveals 60% stenosis of the right coronary artery (RCA) and 60% stenosis of the left anterior descending (LAD) with mild to moderate mitral regurgitation (MR). What is the next step in the management of this patient?



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A 57-year-old male arrives to the emergency department complaining of chest pain on exertion. An EKG is done, and there is an elevation in the leads II, III and aVF. Labs show elevation of troponins and the patient is being prepped for the cath lab. Infarction by which of the following arteries is causing these elevations on EKG?



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Myocardial Infarction, Inferior - References

References

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