Aims: Calcified coronary stenoses are a serious impediment to optimal stent expansion and can lead to stent failure and catastrophic adverse outcomes. We hereby present early Australian experience with intravascular lithotripsy for the treatment of calcific lesions in acute and chronic coronary syndromes. Methods and results:This was a single-centre retrospective study of all patients treated with intravascular lithotripsy (IVL) between October 2019 and June 2021. Patient demographics, procedural variables, and treatment safety/efficacy outcomes were evaluated. During this period, there were 40 patients and 41 coronary lesions with IVL-assisted percutaneous coronary intervention (PCI) (70% male; mean age 72.8±9.5 years). Indications for PCI were acute coronary syndromes in 25 patients (62.5%), and stable angina in 15 patients (37.5%). Upfront IVL usage occurred in 5% of cases with the rest being bailout procedures due to suboptimal initial balloon predilatation or stent underexpansion. Angiographic success (<20% residual stenosis) occurred in 37 cases (92.5%), with mean residual stenosis of 8.25%±8.5%. Two patients experienced procedural complications (5%).Conclusions: IVL appears to be a safe and effective modality in modifying coronary calcium to achieve optimal stent expansion in real-world practice. This device obviates the need for more complex lesion preparation strategies such as rotational or orbital atherectomy.
Background Intravascular lithotripsy (IVL) is a new modality in treatment of calcified coronary lesions which improves procedural outcomes. Coronary perforation is an extremely uncommon but potentially catastrophic complication of percutaneous coronary intervention (PCI) and IVL therapy. Case Summary We report a case of an elective PCI to a calcified left anterior descending (LAD) and diagonal bifurcation lesion in a 65-year-old man. LAD was treated with two stents. Despite high pressure non-compliant balloon inflation, a focal area of under-expansion remained. IVL successfully treated the under-expansion but was complicated with a large coronary perforation. The perforation was successfully sealed with a PK-PAPYRUS covered stent sacrificing the diagonal branch. Patient remained stable until three hours later when he developed tamponade requiring urgent pericardial drainage. Repeat angiography demonstrated recanalization of the diagonal branch and ongoing contrast extravasation along its course. Optical coherence tomography intracoronary imaging was used to delineate the mechanism of ongoing bleeding. This demonstrated an interrupted elastic membrane of the covered stent, potentially caused by underlying fractured calcium. Therefore, a second overlying Papyrus stent was deployed which satisfactorily sealed the perforation. Discussion IVL is an emerging less invasive treatment for calcified coronary stenosis but could be associated with drastic complications. This case highlights the importance of awareness of IVL-related coronary perforation, and the potential limitation of new generation thinner-wall covered stents. Intracoronary imaging plays an important role in identifying mechanisms of stent failure, tailoring treatment, and optimising outcomes.
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