Abstract
Background
According to 2023 ESC Guideline, conservative medical management is generally recommended for the treatment of spontaneous coronary artery dissection (SCAD) except for patients with signs of ongoing myocardial ischemia. However, in some cases, invasive treatment (coronary artery bypass graft surgery or percutaneous coronary intervention (PCI)) is performed because of the progression of aneurysm in SCAD. Although there is no established strategy for the management of coronary aneurysm in SCAD, we report a case of successful healing of aneurysmal false lumen (AFL) using a second-generation drug-eluting stent (DES) in SCAD.
Case presentation
A 44-year-old woman without any cardiovascular risk factors was transferred to our hospital due to inferior myocardial infarction. Coronary angiography (CAG) showed multiple SCADs in the coronary artery. We performed PCI to the distal right coronary artery (RCA) because the RCA showed severe stenosis (99%) with bradycardia. Six days after the first PCI, SCAD relapsed in the mid left anterior descending artery (LAD). Furthermore, AFL was observed by intravascular ultrasound imaging. To avoid enlargement of the AFL and progression of the dissection toward the proximal site of the LAD, we performed PCI to the mid LAD to seal the entry tear of the dissection using a second-generation DES. CAG revealed that the AFL in the mid LAD completely diminished at 1 year after PCI.
Conclusions
The implantation of a second-generation DES might be one of therapeutic options for sealing AFL in SCAD patients.
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Spontaneous coronary artery dissection (SCAD) is a rare (4.0%) cause of acute coronary syndrome (ACS) in general population [1], but it accounts for 30% of ACS especially in young/middle-aged women [2]. Although SCAD is generally classified into three angiographic types [3], we rarely encounter aneurysmal false lumen (AFL) in SCAD patients as shown in Fig. 1. Coronary aneurysm in SCAD is very uncommon and there is no consensus regarding the management of SCAD aneurysm. We herein report a case of successful healing of AFL using a second-generation drug-eluting stent (DES) in SCAD.
Case presentation
A healthy 44-year-old premenopausal woman without any cardiovascular risk factors was transferred to our hospital due to sudden chest pain. Electrocardiogram (ECG) showed ST-elevation in inferior leads (II, III and aVF) (Fig. 2A), and non-sustained ventricular tachycardia was captured on ECG monitor. Echocardiographic examination showed severe hypokinesis in the inferior segment of the ventricle. Taken together, she was diagnosed with acute ST-elevation myocardial infarction. Emergent coronary angiography (CAG) revealed multiple SCADs in distal right coronary artery (RCA) (Fig. 2B), distal left anterior descending artery (LAD) and second diagonal branch (D2) (Fig. 2C). We decided to perform primary percutaneous coronary intervention (PCI) in the distal RCA because it showed 99% stenosis (Type 2 SCAD, Thrombolysis in Myocardial Infarction (TIMI) grade 2 flow) and the patient was hemodynamically unstable due to bradycardia. A second-generation DES (zotarolimus-eluting stent: 2.0 × 30 mm) was deployed in the distal RCA with the support of a temporary pacemaker. We added another second-generation DES (everolimus-eluting stent: 3.0 × 8 mm) in the proximal site of the first stent because persistent thrombus was observed even after repeated balloon dilatation. Finally, we achieved TIMI grade 3 flow in the RCA (Fig. 2D).
Six days after the first PCI, the patient complained of chest pain again and the ECG showed ST-elevation in lateral leads (I and aVL) (Fig. 3A). CAG showed a new appearance of aneurysmal protrusion in the mid LAD and a progression of the dissection to the proximal LAD (Fig. 3B). Intravascular ultrasound (IVUS) imaging revealed intimal and medial tear in the coronary artery wall. The AFL was partially occluded by thrombus; however, a continuous blood flow signal was observed in the false lumen (Fig. 3C). Considering the risk of enlargement of the AFL and distribution of the dissection toward the proximal site of the LAD, we performed PCI to the mid LAD to seal the entry tear of the dissection using a second-generation DES (everolimus-eluting stent: 3.0 × 30 mm). The blood flow in the AFL immediately decreased just after stent deployment (Fig. 3D). Although CAG at 1 month after PCI still demonstrated contrast accumulation outside the DES (Fig. 4A), coronary computed tomography (CT) angiography at 3 months after PCI showed a decrease in contrast pooling in the false lumen (Fig. 4B). We changed dual anti-platelet therapy (aspirin 100 mg/day + prasugrel 3.75 mg/day) to single anti-platelet therapy (aspirin 100 mg/day) at 6 months after PCI. CAG at 1 year demonstrated disappearance of the AFL in the mid LAD (Fig. 4C). Moreover, coronary CT angiography revealed no contrast accumulation outside the DES and showed no stent restenosis at 2 years after PCI (Fig. 4D). Our case suggests that the treatment using a second-generation DES might be one of therapeutic options for sealing AFL in SCAD patients.
Discussion
According to 2023 ESC Guideline for the management of ACS [4], conservative medical management is generally recommended for the treatment of SCAD patients. PCI is recommended only for patients with symptoms and signs of ongoing myocardial ischemia, a large area of myocardium in jeopardy, and reduced antegrade flow. In the present case, the first PCI to RCA was necessary because of severe stenosis in RCA with bradycardia. In the second attack of SCAD, CAG showed a new appearance of an aneurysmal protrusion in the mid LAD and IVUS imaging revealed a residual false lumen with a wide fenestration. The indication for PCI must be carefully determined in SCAD patients because major adverse cardiovascular event (MACE) rates are high (approximately 60% in 3.7 years follow-up) [5]. When we perform PCI to SCAD patients, it is very important to avoid wire migration into the false lumen. Valappil et al. reported that using a floppy wire as a first wire allowed for successful PCI in 71.4% of SCAD cases [6]. Additionally, decision of stent size and length is also important. It is recommended that 5–10 mm longer stent from the margins of the dissection should be chosen to prevent extension of the hematoma [6]. The use of IVUS and optical coherence tomography (OCT) can help select the appropriate size and length of the stent. In this case, we used IVUS because OCT needs high pressure contrast injection to acquire clear images. Based on the IVUS findings, we decided to perform PCI to avoid enlargement of the AFL and progression of the dissection toward the proximal site of the LAD. Coronary aneurysm (including pseudoaneurysm) in SCAD is a very rare condition and there is no established strategy to manage it. Moghadam et al. [7] reported that coronary artery bypass graft (CABG) surgery was preferable to treat coronary aneurysm in SCAD. Nie et al. [8] described a successful case of SCAD with pseudoaneurysm treated by stent. There is also a case report that SCAD with coronary artery aneurysm was healed by conservative medical therapy [9]. However, in several cases, invasive treatment (CABG or PCI) was done because of significant progression of the pseudoaneurysm in SCAD [10, 11]. Although conservative management might be an option in the present case, we decided to use a second-generation DES to seal the entry tear of the dissection to prevent enlargement of the AFL. Therapeutic strategies for pseudoaneurysm after coronary intervention might be helpful in the management of aneurysm in SCAD. A previous report suggests that a bare metal stent (BMS) is recommended for treating coronary pseudoaneurysms, because the OCT at 9 months follow-up showed that almost all of the stent struts were covered with neointima [12]. Although BMS might promote healing of coronary artery pseudoaneurysm, in-stent restenosis due to neointimal proliferation occurs at the rate of 20–30% [13]. In contrast, first-generation DES (such as paclitaxel-eluting stent) disturbs healing of pseudoaneurysm until 2 years due to a strong inhibitory effect on neointimal formation [14]. In the present case, we used a second-generation DES (everolimus-eluting stent) because its safety (decrease in MACE) and efficacy (reduction in target vessel/lesion failure) has been proven in a randomized controlled trial compared to first-generation DES [15]. The coronary AFL in the present patient successfully healed at one year after PCI. Moreover, the stent did not show restenosis even 2 years after DES deployment. These findings suggest that the treatment using a second-generation DES might be an effective therapeutic option for sealing coronary AFL in SCAD patients.
Conclusions
This case report highlighted the efficacy of the second-generation DES for sealing AFL in SCAD. Progression of the aneurysm has been observed in several SCAD cases. The implantation of a second-generation DES might be one of the therapeutic options for the treatment of AFL in SCAD patients.
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Abbreviations
- ACS:
-
Acute coronary syndrome
- AFL:
-
Aneurysmal false lumen
- BMS:
-
Bare metal stent
- CABG:
-
Coronary artery bypass graft
- CAG:
-
Coronary angiography
- CRA:
-
Cranial
- CT:
-
Computed tomography
- DES:
-
Drug-eluting stent
- D2:
-
Second diagonal branch
- ECG:
-
Electrocardiogram
- IVUS:
-
Intravascular ultrasound
- LAD:
-
Left anterior descending artery
- LAO:
-
Left anterior oblique
- MACE:
-
Major adverse cardiovascular event
- OCT:
-
Optical coherence tomography
- PCI:
-
Percutaneous coronary intervention
- RCA:
-
Right coronary artery
- SCAD:
-
Spontaneous coronary artery dissection
- TIMI:
-
Thrombolysis in myocardial infarction
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All authors contributed to this case report. Material preparation, data collection and analysis were performed by TN, MT, SK and YF. The first draft of the manuscript was written by TN. Review and correction of the manuscript were performed by KI. All authors read and approved the final manuscript.
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Niida, T., Isoda, K., Tada, M. et al. Successful healing of aneurysmal false lumen using a second-generation drug-eluting stent in spontaneous coronary artery dissection: a case report. Egypt Heart J 76, 13 (2024). https://doi.org/10.1186/s43044-024-00447-9
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DOI: https://doi.org/10.1186/s43044-024-00447-9