Long Coronary Lesions: Challenging Cases for Percutaneous Coronary Intervention ()
Received 7 December 2015; accepted 26 January 2016; published 29 January 2016
1. Introduction
The treatment of long and diffuse coronary lesions remains a challenge for interventional cardiologists, since the era of balloon angioplasty. A higher angiographic restenosis rate of 58% has been reported after the intervention of long lesions with balloon angioplasty [1] . Although, the advent of bare metal stents (BMS) was a breakthrough discovery, it was not completely successful in the treatment of advanced coronary artery disease, involving long lesions. Even in the BMS era, implantation of multiple and long stents resulted in higher incidence of diffuse in-stent restenosis [2] . The treatment of resultant diffused in-stent restenosis is again problematic requiring multiple additional PCI’s or coronary artery bypass grafting (CABG) [3] . Thus, owing to the challenges and complications involved it became imperative to develop an optimal strategy for percutaneous intervention of long coronary lesions and other complex subsets.
The introduction of drug eluting stents (DES) enkindled new hopes and paved the path for long term optimum management of long coronary lesion. Initial experience with first DES, Cypher sirolimus-eluting stents demonstrated that despite the reduction of clinical events, deployment of multiple overlapping stents for long lesion, an approach colloquially called as “full-metal jacket”, is an approach with some risks [4] . But at the same time, few randomized trials and registries that involve implantation of DES for long lesions proved that it was associated with reduced rates of restenosis and target lesion revascularization, as compared to BMS [5] [6] . With the passage of time, continuous modification in stent design, architecture and material has helped us develop newer iterations of DES, which are equally effective in long coronary lesions. Technical advances in development of new stents such as thin strut, biodegradable polymer coated sirolimus-eluting stents have encouraged manufacturers to fabricate long stent platforms with the aim to increase the success of percutaneous revascularization avoiding multiple overlapping stents.
We report one such case of long coronary lesion which was intervened successfully with a long newer generation, thin strut, biodegradable polymer coated sirolimus-eluting stents.
2. Case Report
A 71-year-old woman was admitted in our centre for an episode of acute chest discomfort that occurred 1 week before. She had type 2 diabetes mellitus and a family history of ischemic heart disease. An electrocardiogram was performed, which showed “rS” pattern in V1-V3 leads and negative T waves in precordial leads. High sensitivity troponin T was within the normal values in two serial measurements. An abnormal echocardiogram by two-dimensional echocardiography revealed non-dilated left ventricle with normal ejection fraction and anterior and anteroseptal mid-apical hypokinesia. A cardiac magnetic resonance with dipyridamole was performed show- ing necrosis of three segments in the territory of left anterior descending (LAD) artery with severe peri-infarc- tion ischemia and myocardial viability in most segments. Coronary angiography was performed after 48 hours of admission which showed a single-vessel disease with a focal severe stenosis in the proximal segment and large, subocclusive stenosis in the mid-distal segment of LAD (Figure 1). An angioplasty was performed using a sheathless 6.5 Fr guiding catheter and a hydrophilic soft guide. After predilatation with two semi-compliant 1.5 × 20 mm and 2.5 × 30 mm balloons (Figure 2), two sirolimus eluting overlapping stents were implanted (Aima Plus 3.0 × 48 mm and Aima Plus 3.5 × 22 mm distal and proximal, respectively) (Figure 3). Overlapping was limited to 3 mm and located at the proximal zone. At the end of the procedure an optimal anatomical result and distal TIMI 3 flow was achieved (Figure 4). At 6-month follow-up the patient is asymptomatic and no adverse events have been registered.
3. Discussion
Coronary stents are customarily used during angioplasty to improve immediate and long term outcomes and overcome loopholes associated with balloon angioplasty. In the infancy stage of its development, coronary stents had several limitations. The then available metallic platforms fabricated stents had stiffer configuration and shorter lengths of 15 to 20 mm. Multiple overlapping stents were used to treat diffuse long narrowings and specially designed wires were needed to navigate the stent and overcome vessel tortuosity.
Approximately, long lesions consist of 20% of all percutaneous coronary angioplasty and long or multiple overlapping stents are continuously being used for its treatment [7] . Implantation of multiple stents is time- consuming and expensive. Moreover, accurate placement of multiple stents is difficult with long overlapping stent segments. Overlapping stents are potential source of neointimal hyperplasia due to physical double layer of stent struts, and inadvertently sometimes a short gap is lapsed out between multiple stents, which increases the risk of acute or sub acute stent thrombosis and restenosis [8] .
Pooled analysis of five clinical trials using sirolimus-eluting stents and bare metal stents suggest that overlapping stents increases the risk of late lumen loss and restenosis in both BMS and SES [9] . Contrastingly, a study by Lee et al. comparing the outcomes after overlapping versus one long stent in long coronary lesions demonstrated that overlapping can be used with outcome similar to that of one long stent in long coronary lesions [10] . But at the same time it also stated that age (≥65 years old) was an independent risk factor of in-stent restenosis (ISR) (54% vs. 23%; OR = 4.4; P = 0.04).
This was a case of a long severe disease of LAD. In most of the cases, such types of lesions are referred to surgery because traditional PCI is not successful. And still, if PCI is performed three or four stents are necessary
Figure 1. Diagnostic coronary angiography. (a) Left coronary artery, right caudal (spider) projection; (b) Left coronary artery, right cranial projection; (c) Left coronary artery, left cranial projection; (d) Right coronary artery. Severe proximal stenosis (long arrow) and subocclusive mid and distal large stenosis (arrowheads) in left anterior descending artery ((a), (b) and (c)). Diffuse disease in right coronary artery (d).
Figure 2. Right cranial projection. Predilatation with 1.5 × 20 mm. (a) & (b) and 2.5 × 30 mm (c) & (d) semi-compliant balloons.
Figure 3. Right cranial projection. Implantation two drug-eluting overlapping stents: AimaPlus 3.0 × 48 mm distally (a) and Aima Plus 3.5 × 22 mm proximally from ostium (b).
Figure 4. Final result. (a) Right cranial projection; (b) Right caudal (spider) projection.
with high degree of overlapping amongst the stents and this strategy is associated with higher rates of restenosis. Moreover, the patient was elder in age (71 years), which increases the chances of ISR with multiple overlapping stents. Thus the discretion of interventionists to use long stents to minimize the risk of restenosis and adverse outcomes is commendable.
The critical issue in use of long coronary stents is easy navigation and successful deployment to achieve optimal immediate and long-term outcomes. The newer generation biodegradable polymer coated drug eluting stents with thin struts are easy to navigate and deploy. The AIMA plus is one such newer generation biodegradable polymer coated sirolimus-eluting stents that incorporates technical specifications that improve navigability and procedural success. The uniquely designed feature of the AIMA plus is highly flexible S-link to improve four “ability” related aspects; those are deliverability, trackability, pushability, and crossability.
Thus, the newer iterations of DES, with advanced stent design and architecture, can successfully be used for intervention, even in complex cohort of patients with long coronary lesions.
4. Conclusion
Despite of the challenges and complications involved in the percutaneous coronary intervention of long coronary lesions, they can be intervened successfully with newer generation drug eluting stents.
Acknowledgements
None.
Conflict of Interest
The authors declare that there is no conflict of interest regarding the publication of this paper.
NOTES
*Corresponding author.