Left bundle branch block and myocardial infarction, a diagnosis not always easy: Our experience and review of literature ()
1. INTRODUCTION
The occurrence of a right bundle branch block or a left one, is quite common in routine electrocardiograms (ECGs). In particular, the LBBB is often evident in patients with cardiac injury and/or systemic hypertension. The changes in cardiac repolarization in this disorder of electric conduction, may also mask the classical electrocardiographic changes of -ST segment in patients with AMI. For years, therefore, several authors have focused their attention on the management of patients with suspected ACS and LBBB on ECG [4-6], in order to identify electrocardiographic criteria which could allow the diagnosis of AMI fastest, optimizing at the same time, the results of reperfusion therapy [7,8].
2. CASE REPORT
Woman of 59 years, hypertensive for about twenty years, smoker, with a positive family history for cardiovascular disease (father died for ACS). Comes to our attention in September 2008 for constrictive chest pain of high intensity associated with dyspnea. OE: 3/6 L rough systolic murmur on aortic outbreak, abolition of the second tone, VM harsh. BP: 130/70 mmHg. ECG: SR at frequency of 75 bpm, LBBB (Figure 1).
The patient also reports home therapy with: telmisartan 80 mg, amlodipine 10 mg, cardioaspirin, omeprazole. Be reported to the blood tests performed in the E. R.: glycaemia 135 mg/dl, neutrophilic leukocytosis (WBC 10.7 × 103 μL, NEUT 8.7 × 103 μL), LDH 458UI/L, CPK 59 UI/L, TnI 0.017 ng/ml. Given the severity and the persistence of chest pain and the electrocardiographic finding of LBBB, at the time to interpret for the presence of signs that could suggest an AMI in progress, was administered i.v therapy (ASA, heparin 4000UI, omeprazole and antibiotic prophylaxis) and moved the patient to Hemodynamic Unit to perform coronary angiography in emergency, that showed the absence of angiographically significant stenosis.
The seriated blood test performed during hospitalization, showed progressive increase in cardiac markers (peak value: LDH 611 UI/L, CPK 317 UI/L, TnI 9.02 ng/ml). Also be noted, sequential electrocardiographic changes (maximum elevation of the J point in V3: 5 mm, V4: 4 mm, V5: 3 mm.) regressed on the second day of hospitalization (Figures 2 and 3). During hospitalization,
Figure 1. ECG at entry: J point elevation in V3 of 5 mm.
the patient also performs an echocardiogram of control that evidenced the presence of hypertensive cardiopathy, EF moderately depressed (42%) and a moderate-severe aortic steno-insufficiency. During the remaining days of hospitalization, the patient did not reported new episodes of chest pain, with progressive normalization of electrocardiographic changes and cardiac markers (Figure 4).
The patient was discharged on fourth day with a diagnosis of AMI without ST-segment elevation and indication to surgical treatment of aortic valve disease.
3. DISCUSSION
The clinical case reported is suitable to some general considerations about the diagnosis of AMI in patients with complete LBBB. The recent evidence of a LBBB in a patient with chest pain, is in fact strongly suggestive of a heart attack, as well as electrocardiographic changes occurring on a chronic LBBB are easily recognizable when we have previous ECGs to compare. However, this observation doesn’t always occur in clinical practice, therefore Sgarbossa et al. [9] proposed in 1996 electrocardiographic criteria to diagnose an AMI in patients with chest pain and LBBB. In particular, the attention was focused on the deviation of the ST-segment. Each of the three criteria identified was also associated [10], through a multivariate analysis, with a value of Odd Ratio, that expresses the importance of each in predicting an AMI in progress, and with an index score ranging from 5 to 2. The elevation of ST-segment ≥ 1 mm concordant with the QRS complex or the depression of the same ≥1 mm in leads V1, V2 or V3; are especially to be considered signs of an AMI, even without other electrocardiographic changes; while the elevation of ST-segment ≥ 5 mm discordant with the QRS complex, actually expresses only a moderate to high probability of AMI, therefore additional procedures are needed to confirm the diagnosis.
In the clinical case presented the diagnostic-therapeutic iter followed for the patient, it has been suggested by clinical conditions and on a first analysis of a electrocardiogram showing a J-point elevation in V3 of 5 mm, that in absence of other criteria, corresponds to a probability
Figure 2. ECG: persistent J point elevation J = 5 mm.
Figure 3. ECG: J point elevation in V4 = 4 mm e in V5 = 3 mm.
of AMI by 50% and an index score of 2 [11]. The patient underwent therefore coronary angiography in emergency that showed the absence of angiographically significant stenosis, but the diagnostic confirmation of AMI was
Figure 4. ECG at the discharge: regression of J point elevation from V3 to V5.
subsequently supported by electrocardiographic changes and the progressive rise in cardiac markers. The use of above criteria, helped therefore to identify a patient with AMI who could receive an adequate treatment.
The electrocardiographic criteria proposed by Sgarbossa were then revised in 2005 by Wong et al. that wanted to test impact of each criterion on the outcome of patients with LBBB and a new-onset chest pain, underwent thrombolytic therapy [12]. This analysis demonstrated a high specificity and low sensitivity for the first two criteria, reduced specificity and sensivity for the last one. In fact, although the criteria about the variation of ST-segment identified patients with AMI enzymatically confirmed, with higher levels of cardiac markers and worst 30-day mortality; the low sensitivity indicates that the absence of this criterion is not enough to rule out a enzymatically confirmation of AMI. Finally, patients didn’t show ST-segment changes on the ECG had a better prognosis at 30 days.
Considering therefore, both of Sgarbossa’s diagnostic flow chart and the Wong’s prognostic analysis, it is deducted that the electrocardiographic analysis has certainly an important role in the diagnosis of AMI in patients with LBBB; this disorder also increases the risk of mortality in patients following an AMI and increasingly according to age and co-morbidities; so each of the criteria above discussed, has an impact on clinical outcome of patients following an AMI.
4. CONCLUSION
In patients with chest pain and LBBB, the finding of some electrocardiographic criteria may contribute significantly to the identification of acute myocardial infarction, especially in absence of previous medical documents and/or the support of the laboratory. The presence or no of the same ones, the timeliness of the treatment, also contribute, together with the common risk factors, to define the prognosis of patients following an AMI.