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السبت، 7 سبتمبر 2024

رسم القلب

 

الثلاثاء، 25 يوليو 2023

جلطة القلب {Myocardial Infarction }



Myocardial Infarction
موقع المشاركة https://en.ecgpedia.org/index.php?title=Main_Page
 
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Contents 1 Risk assessment of Cardiovascular disease
2 Risk assessment of ischemia
3 Diagnosis of myocardial infarction
4 The location of the infarct
5 Development of the ECG during persistent ischemia
6 Subendendocardial Ischemia
7 References
8 External Links
Author(s) I.A.C. van der Bilt, MD
Moderator I.A.C. van der Bilt, MD
Supervisor

some notes about authorship

Ischemia occurs when part of the heart muscle, the myocardium, is deprived of oxygen and nutrients. Common causes of ischemia are: Narrowing or obstruction of a coronary artery.
A rapid arrhythmia, causing an imbalance in supply and demand for energy.
A short period of ischemia causes reversible effects: The heart cells will be able to recover. When the episode of ischemia lasts for a longer period of time, heart muscle cells die. This is called a heart attack or myocardial infarction. That is why it is critical to recognize ischemia on the ECG in an early stage.
Severe ischemia results in ECG changes within minutes. While the ischemia lasts, several ECG changes will occur and disappear again. Therefore, it may be difficult to estimate the duration of the ischemia on the ECG, which is crucial for adequate treatment.
Signs and symptoms of myocardial ischemia: Crushing pain on the chest (angina pectoris), behind the sternum, often radiating to the lower jaw or the left arm
Fear of dying
Nausea
Shock (manifesting as paleness, low blood pressure, fast weak pulse) shock
Rhythm disturbances (in particular, increasing prevalence of ventricular ectopia, ventricular tachycardia, AV block)

Risk assessment of Cardiovascular disease
Narrowing of the coronary artery, leading to a myocardial infarction, usually develops over several years. An increased risk of cardiovascular disease, which may lead to a myocardial infarction or cerebrovascular accident, can be estimated using SCORE system which is developed by the European Society of cardiology (ESC). As shown in the figure, the most important risk factors for myocardial infarction are: Male sex
Smoking
Hypertension
Diabetes Mellitus
Hypercholesterolemia
Risk assessment of ischemia
An exercise test such as a bicycle or treadmill test, may be useful in detecting myocardial ischemia after exercise.[1] In such a test, continuous ECG monitoring is performed during exercise. The ST-segment, blood pressure and clinical status of the patient (i.e. chest complaints) are monitored during and after the test.
An exercise test is positive for myocardial ischemia when the following criteria are met: Horizontal or downsloping ST-depression of >1mm, 60 or 80ms after the J-point
ST elevation of > 1.0 mm

Diagnosis of myocardial infarction

ST elevation is measured at the junctional or J-point
The diagnosis of acute myocardial infarction is not only based on the ECG. A myocardial infarction is defined as:[2] Elevated blood levels of cardiac enzymes (CKMB or Troponin T) AND
One of the following criteria are met: The patient has typical complaints,
The ECG shows ST elevation or depression.
pathological Q waves develop on the ECG
A coronary intervention had been performed (such as stent placement)
So detection of elevated serum cardiac enzymes is more important than ECG changes. However, the cardiac enzymes can only be detected in the serum 5-7 hours after the onset of the myocardial infarction. So, especially in the first few hours after the myocardial infarction, the ECG can be crucial.
ECG Manifestations of Acute Myocardial Ischaemia (in Absence of LVH and LBBB)are [3]: ST elevationNew ST elevation at the J-point in two contiguous leads with the cut-off points: ≥0.2 mV in men or ≥ 0.15 mV in women in leads V2–V3 and/or ≥ 0.1 mV in other leads.ST depression and T-wave changes.New horizontal or down-sloping ST depression >0.05 mV in two contiguous leads; and/or T inversion ≥0.1 mVin two contiguous leads with prominent R-wave or R/S ratio ≥ 1
A study using MRI to diagnose myocardial infarction has shown that more emphasis on ST segment depression could greatly improve the yield of the ECG in the diagnosis of myocardial infarction (sensitivity increase from 50% to 84%).[4]
Myocardial infarction diagnosis in left or right bundle branch block can be difficult, but it is explained in these seperate chapters: MI diagnosis in left bundle branch block or paced rhytm
MI Diagnosis in RBBB

The location of the infarct



An overview of the coronary arteries. LM = 'Left Main' = mainstem; LAD = 'Left Anterior Descending' artery; RCX = Ramus Circumflexus; RCA = 'Right Coronary Artery'.



Overview of the separate ECG leads. The lead with ST segment elevation 'highlights' the infarct. An infarction of the inferior wall will result in ST segment elevation in leads II, III and AVF. A lateral wall infarct results in ST segment elevation in leads I and AVL. An Anterior wall infarct results in ST segment elevation in the precordial leads.



The coloured figure shows contiguous leads in matching colors



The ST segment elevation points at the infarct location. Inferior MI=ST segment elevation in red regions (lead II,III and AVF). Lateral MI = ST elevation in blue leads (lead I, AVL, V5-V6). Anterio MI: ST segment elevation in yellow region (V1-V4). Left main stenosis: ST elevation in gray area (AVR)



The coronary blockade can cause conduction block, on AV nodal, His or bundle branch level.
The heartmuscle itself is very limited in its capacity to extract oxygen in the blood that is being pumped. Only the inner layers (the endocardium) profit from this oxygenrich blood. The outer layers of the heart (the epicardium) are dependent on the coronary arteries for the supply of oxygen and nutrients. With aid of an ECG, the occluded coronary can be identified. This is valuable information for the clinician, because treatment and complications of for instance an anterior wall infarction is different than those of an inferior wall infarction. The anterior wall performs the main pump function, and decay of the function of this wall will lead to decrease of bloodpressure, increase of heartrate, shock and on a longer term: heart failure. An inferior wall infarction is often accompanied with a decrease in heartrate because of involvement of the sinusnode. Longterm effects of an inferior wall infarction are usually less severe than those of an anterior wall infarction.
The heart is supplied of oxygen and nutrients by the right and left coronary arteries. The left coronary artery (the Left Main or LM) divides itself in the left anterior descending artery (LAD) and the ramus circumflexus (RCX). The right coronary artery (RCA) connects to the ramus descendens posterior (RDP). With 20% of the normal population the RDP is supplied by the RCX. This called left dominance.
Below you can find several different types of myocardial infarcation. Click on the specific infarct location to see examples.

Help with the localisation of a myocardial infarct localisation ST elevation Reciprocal ST depression coronary artery
Anterior MI V1-V6 None LAD
Septal MI V1-V4, disappearance of septum Q in leads V5,V6 none LAD-septal branches
Lateral MI I, aVL, V5, V6 II,III, aVF LCX or MO
Inferior MI II, III, aVF I, aVL RCA (80%) or RCX (20%)
Posterior MI V7, V8, V9 high R in V1-V3 with ST depression V1-V3 > 2mm (mirror view) RCX
Right Ventricle MI V1, V4R I, aVL RCA
Atrial MI PTa in I,V5,V6 PTa in I,II, or III RCA

The localisation of the occlusion can be adequately visualized using a coronary angiogram (CAG). On the CAG report, the place of the occlusion is often graded with a number (for example LAD(7)) using the classification of the American Heart Association.[5]

Development of the ECG during persistent ischemia

The evolution of an infarct on the ECG. ST elevation, Q wave formation, T wave inversion, normalisation with a persistent Q wave

A pathological Q wave

Wellens syndrome: symmetrical negative T wave in pre-cordial leads without R loss of R waves can regularly be observed in early anterior ischemia. Many patients with Wellens syndrome / sign turn out to have a critical proximal LAD stenosis[6].

Typical negative T waves post anterior myocardial infarction. This patient also shows QTc prolongation. Whether this has an effect on prognosis is debated.[7][8][9]
The cardiomyocytes in the subendocardial layers are especcially vulnerable for a decreased perfusion. Subendocardial ischemia manifests as ST depression and is usually reversible. In a myocardial infarction transmural ischemia develops.
In the first hours and days after the onset of a myocardial infarction, several changes can be observed on the ECG. First, large peaked T waves (or hyperacute T waves), then ST elevation, then negative T waves and finally pathologic Q waves develop.
Wellens syndrome or sign (see image) can be an early ECG warning sign of critical anterior ischemia before the development of overt mocardial infarction.
Evolution of the ECG during a myocardial infarct Time from onset of symptoms ECG Changes in the heart
minutes hyperacute T waves (tall T waves), ST-elevation reversible ischemic damage
hours ST-elevation, with terminal negative T waves, negative T waves (these can last for days to months) onset of myocardial necrosis

days Pathologic Q Waves scar formation



Subendendocardial Ischemia

An example of subendocardial ischemia with diffuse ST depression
Subendocardial ischemia is ischemia that is not transmural. It is mostly caused by demand ischemia where energy supply to cardiomyocytes is insufficient for the work force, e.g. during extreme hypertension, aortic valve stenosis, extreme left ventricular hypertension, anemia, atrial fibrillation with rapid ventricular response. On the ECG often diffuse ST depression is present. Cardiac enzymes (CK-MB, Troponine) may or may not be elevated depending on the severity.

 

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