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Spontaneous Left Anterior Descending Coronary Artery Dissection Requiring Coronary Artery Bypass Surgery

Ana Paula TagliariI; Adriano Nunes KochiII; Luis Eduardo Paim RohdeII; Orlando Carlos Belmonte WenderI

DOI: 10.21470/1678-9741-2017-0140

ABBREVIATIONS AND ACRONYMS

ACS = Acute coronary syndrome

CABG = Coronary artery bypass grafting

LAD = Left anterior descending

PCI = Percutaneous coronary intervention

SCAD = Spontaneous coronary artery dissection

PATIENT CHARACTERIZATION

A previously healthy 48-year-old male farmer was admitted to the emergency room complaining of anterior chest pain described as "tearing", which started after extreme physical exertion, co-occurring with general malaise and lipothymia.

He denied having previous comorbidities such as hypertension, diabetes, family history of cardiovascular disease and smoking or alcohol consumption.

Anterior wall ST-segment depression was observed in the electrocardiogram and troponin levels were increased.

The patient then underwent coronary catheterization. Angiography showed a tortuous left anterior descending (LAD) coronary artery with a dissection line involving proximal and middle segments, resulting in mild to moderate luminal stenosis; these findings were consistent with spontaneous coronary artery dissection (SCAD) diagnosis (Figure 1).

Fig. 1 - Spontaneous coronary artery dissection affecting the left anterior descending coronary artery. (A) Characteristic angiographic flap is visualized. (B) Long lesion is visualized. (C) Arrows pointing the initial and final dissection points.

SCAD is a spontaneous separation between the layers of a coronary artery wall, non-iatrogenic or trauma related[1], which has some predisposing factors, namely: fibromuscular dysplasia, postpartum status, multiparity, connective tissue disorders, systemic inflammatory conditions and hormonal therapy[2-4].

SCAD is responsible for 0.1% to 0.4% of all acute coronary syndrome (ACS) cases in general population[5,6], and up to a quarter of them in women ≤50 years old[7].

Emotional and physical stressors were identified as common triggers in the Vancouver General Hospital SCAD registry. Out of 204 cases, 99 (48.5%) of them reported emotional stressors and 87 (42.6%) of them physical stressors prior to the SCAD event[8].

In this report, we describe a typical case of effort-induced LAD coronary artery dissection in a middle-aged man, former smoker and with no other risk factors.

DESCRIPTION OF THE TECHNIQUE EMPLOYED

At first, a conservative approach was chosen: administration of anticoagulation for 2 weeks with low-weight heparin (enoxaparin 1 mg/kg, subcutaneously, twice a day) and then statin, ticagrelor and beta-blocker.

Control cardiac catheterization, 3 months later, showed dissection progression to the distal segment (Figure 2, Movies 1 and 2). Considering the dissection extension and technical difficulty for percutaneous coronary intervention (PCI), he was referred to surgical intervention.

Fig. 2 - Control angiogram three months after the initial episode. (A) Increased dissection flap observed. (B) Dissection flap extension. (C) Involvement of diagonal branches.

Movies 1 and 2 - Spontaneous coronary artery dissection affecting the left anterior descending coronary artery.

Coronary artery bypass grafting (CABG) was performed under mild hypothermia, extracorporeal circulation, and aortic clamping. The internal thoracic artery was anastomosed in the distal portion of the LAD coronary artery, a dissection-free segment, and the great saphenous vein was anastomosed in a large-caliber 2nd diagonal branch, whose origin was in the false lumen. Cardiopulmonary bypass and cross-clamping times were 35 and 26 minutes, respectively.

Although conservative management has generally been associated with favorable outcomes, it is also associated with small hazard of dissection progression and the consequent need for intervention[9]. Thus, the decision for revascularization, with PCI or CABG, should rely on clinical status, hemodynamic instability, and angiographic characteristics.

Comparing conservative versus aggressive management, Shamloo et al.[10] described that 21.2% of conservatively managed patients eventually required surgical or catheter-based interventions, but only 2.5% of the patients initially treated with an invasive strategy needed that. Those patients with an isolated single lesion in left or right coronary artery had a statistically significant better outcome when treated with early aggressive strategy.

For our patient, we had to adopt an invasive strategy due to the dissection distal progression after three months of optimized clinical treatment. Successful surgical revascularization was achieved and the patient had an uneventful postoperative course. He was discharged on the seventh postoperative day, taking aspirin (100 mg, daily), beta-blocker (metoprolol succinate 50 mg, daily) and statin (rosuvastatin 10 mg, daily).

CONCLUSION

We reported a typical clinical manifestation of a rare cause of acute myocardial infarction, especially in men. In this case, SCAD was clearly initiated by an extreme physical exertion, which has been described as an important triggering factor. After an initial conservative approach, the dissection progressed to the distal segment, and we opted for surgical treatment, which was successful. Management of these cases is always challenging because there is no evidence-based therapies or recommendations based on guidelines.

REFERENCES

1. Saw J, Mancini GBJ, Humphries KH. Contemporary review on spontaneouscoronary artery dissection. J Am Coll Cardiol.2016;68(3):297-312. [MedLine]

2. Saw J, Aymong E, Sedlak T, Buller CE, Starovoytov A, Ricci D, et al.Spontaneous coronary artery dissection: association with predisposingarteriopathies and precipitating stressors and cardiovascular outcomes. CircCardiovasc Interv. 2014;7(5):645-55.

3. Saw J, Poulter R, Fung A, Wood D, Hamburger J, Buller CE.Spontaneous coronary artery dissection in patients with fibromuscular dysplasia:a case series. Circ Cardiovasc Interv. 2012;5(1):134-7.

4. Michelis KC, Olin JW, Kadian-Dodov D, d'Escamard V, Kovacic JC.Coronary artery manifestations of fibromuscular dysplasia. J Am Coll Cardiol.2014;64(10):1033-46.

5. Mortensen KH, Thuesen L, Kristensen IB, Christiansen EH. Spontaneouscoronary artery dissection: a Western Denmark Heart Registry study. CatheterCardiovasc Interv. 2009;74(5):710-7.

6. Nishiguchi T, Tanaka A, Ozaki Y, Taruya A, Fukuda S, Taguchi H, etal. Prevalence of spontaneous coronary artery dissection in patients with acutecoronary syndrome. Eur Heart J Acute Cardiovasc Care.2016;5(3):263-70.

7. Saw J, Aymong E, Mancini GB, Sedlak T, Starovoytov A, Ricci D.Nonatherosclerotic coronary artery disease in young women. Can J Cardiol.2014;30(7):814-9.

8. Alipour S, Starovoytov A, Heydari-Kamjani M, Robinson B, Daniele P,Gao M, et al. Frequency and effects of emotional and physical stressors inpatients with spontaneous coronary artery dissection. J Am Coll Cardiol.2016;67(13):295.

9. Hayes SN. Spontaneous coronary artery dissection (SCAD): newinsights into this not-so-rare condition. Tex Heart Inst J.2014;41(3):295-8.

10. Shamloo BK, Chintala RS, Nasur A, Ghazvini M, Shariat P, Diggs JA,et al. Spontaneous coronary artery dissection: aggressive vs. conservativetherapy. J Invasive Cardiol. 2010;22(5):222-8.

No financial support.

No conflict of interest.

Authors' roles & responsibilities

APT Conception and study design; realization of the operation; manuscript redaction or critical review of its content; final manuscript approval

ANK Conception and study design; realization of the operation; manuscript redaction or critical review of its content; final manuscript approval

LEPR Conception and study design; realization of the operation; manuscript redaction or critical review of its content; final manuscript approval

OCBW Conception and study design; realization of the operation; manuscript redaction or critical review of its content; final manuscript approval

Article receive on Monday, July 31, 2017

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