Project description:BackgroundPrevalence of coronary artery calcification is high among patients with advanced age, chronic kidney disease, and diabetes. Percutaneous coronary intervention of heavily calcified coronary artery remains a significant challenge for interventional cardiologists. Although there are several modalities available in treating calcified coronary arteries, lesion preparation of certain heavily calcified vessels remains inadequate prior to stent deployment and/or often associated with worse periprocedural adverse outcomes.Case summaryWe report feasibility and safety of 3.5 mm peripheral intravascular lithotripsy (IVL) for the treatment of severely calcified coronary stenosis in two patients after orbital atherectomy failed to debulk calcified plaque to enable stent deployment.DiscussionIntravascular lithotripsy has recently emerged as a therapeutic option in treating calcified peripheral artery disease. However, coronary IVL is currently available only in a few centres in the USA. Studies are ongoing in the safety and efficacy of this technology in treating coronaries.

Project description:BackgroundCalcified lesions represent a hard obstacle to overcome in renal arteries, particularly when renal angioplasty represents the only feasible course of action in the setting of high-risk bilateral renal artery stenosis (RAS) with refractory systemic hypertension and recurrent flash pulmonary oedema.Case summaryWe herein report a case of symptomatic bilateral severely calcified RAS, treated successfully with intravascular ultrasound (IVUS)-guided coronary and peripheral intravascular shockwave lithotripsy systems and stenting.DiscussionIntravascular shockwave lithotripsy is an attractive modality for the treatment of challenging, heavily calcified renal arteries that combines the calcium-disrupting capability of lithotripsy with the familiarity of balloon catheters to facilitate proper stent deployment.

Project description:Left main coronary artery disease subtends a large area of potentially jeopardized myocardium. Percutaneous coronary intervention for severe left main coronary artery disease is a reasonable treatment option for select patients. Severe coronary artery calcium of the left main artery increases the complexity of percutaneous coronary intervention and is associated with increased risk of periprocedural complications and worse long-term clinical outcomes. Intravascular lithotripsy (IVL) utilizes sonic pressure waves to modify severe coronary artery calcium and has emerged as a safe and effective alternative to coronary atherectomy. However, left main lesions were excluded from regulatory approval clinical trials of IVL. Herein, we review all available data regarding the use of IVL treatment for severe left main coronary artery disease.

Project description:Intravascular lithotripsy can be used as an effective therapy for lesion preparation in severely calcified lesions. The mechanism, as shown by optical coherence tomography, is calcium fractures. The aforementioned modification is performed with minimal risk of perforation, no-reflow and a low incidence of flow-limiting dissection and myocardial infarctions. Other techniques, such as cutting or scoring balloons and rotational atherectomy have also been shown to increase luminal diameter, but other complications, such as distal embolization, induced by these treatment modalities, are a source of concern. This review describes a single-center study of all-comer patients, including those with complex characteristics. This therapy is very effective, with a very low risk of complications. In this article, we characterize the mechanism of action of the intravascular lithotripsy catheter, its optical coherence tomography validation, clinical applications, and comparison with other calcium-modifying technologies, as well as future directions, which can be used to improve the technology.

Project description:Intravascular ultrasound (IVUS) can provide useful information in patients undergoing complex percutaneous coronary intervention with rotational atherectomy (RA). The association between IVUS findings and slow flow following rotational atherectomy (RA) has not been investigated, although slow flow has been shown to be an unfavorable sign with worse outcomes. The aim of this study was to determine the IVUS-factors associated with slow flow just after RA. We retrospectively enrolled 290 lesions (5316 IVUS-frames) with RA, which were divided into the slow flow group (n = 43 with 1029 IVUS-frames) and the non-slow flow group (n = 247 with 4287 IVUS-frames) based on the presence of slow flow. Multivariate regression analysis assessed the IVUS-factors associated with slow flow. Slow flow was significantly associated with long lesion length, the maximum number of reverberations [odds ratio (OR) 1.49; 95% confidence interval (CI) 1.07-2.07, p = 0.02] and nearly circumferential calcification at minimal lumen area (MLA) (≥ 300°) (OR, 2.21; 95% CI 1.13-4.32; p = 0.02). According to the maximum number of reverberations, the incidence of slow flow was 2.2% (n = 0), 11.9% (n = 1), 19.5% (n = 2), 22.5% (n = 3), and 44.4% (n = 4). In conclusion, IVUS findings such as longer lesion length, the maximum number of reverberations, and the greater arc of calcification at MLA may predict slow flow after RA. The operators need to pay more attention to the presence of reverberations to enhance the procedure safety.

Project description:BackgroundManagement of heavily calcified coronary arteries is still a major challenge in interventional cardiology. Inadequate stent expansion in calcific lesions is the single most important predictor of stent thrombosis and in-stent restenosis. Rotational atherectomy (RA) is an important tool to modify the calcium burden but is associated with limitations and requires specific skills. Intravascular lithotripsy (IVL) is a novel technique to treat calcified stenotic lesions and has been proposed as an alternative to RA with promising results.Case summaryWe report a case of a patient with severely calcified right coronary artery stenosis successfully treated with combination of RA and IVL.DiscussionIn this case, we demonstrate that the RA and IVL are complementary strategies, not sufficient on their own and not alternative to each other.

Project description: Not available

Project description:Background: Coronary artery calcification (CAC) is a pathological deposition of calcium in the intimal and medial layer of the arterial wall. A plethora of therapeutic calcium debulking techniques is available for the treatment of CAC, including orbital or rotational atherectomy, excimer lasers, cutting, and scoring balloons, which are associated with a soaring rate of complication and low efficacy. To this end, in 2016, the Food and Drug Administration (FDA) posited that shockwave intravascular lithotripsy (S-IVL) technique can be employed with minimal complication. Methods: A retrospective review of cases received lithotripsy for calcified coronary artery disease was performed by using online data from PubMed, Embase, and the Cochrane Central Register of Controlled Trials. The available search results were downloaded into an Endnote library and analyzed into two phases. Results: Out of 24 participants from case reports and series, Majority were found to be Male. There was no significant difference found in the mortality of patients undergoing IVL for the stenosis of the left main stem, left anterior descending, left circumflex artery, or diagonal branch. The mortality was found to be high among 6 patients with prior comorbidities and underwent more than 3 cycles of IVL (OR 37,95% Cl 1.54-886.04, P 0.02). Out of 24 patients, 2 (8.33%) patients developed complications such as vessel dissection (OR 3.4, 95% Cl 17.87-64.68, P 0.4). Conclusion: Shockwave intravascular lithotripsy (S-IVL) may be used in cases of the calcified disease to gain vessel lumen in order to deploy drug-eluting stents with PCI. The success of the DES implantation of IVL can be 100% with a minimal complication rate.

Project description: Not available

Project description:ObjectivesThis study aims to describe the outcome of intravascular lithotripsy (IVL) when used with different indications and to assess the short- and long-term outcomes of IVL-facilitated percutaneous coronary intervention (PCI).BackgroundIntravascular lithotripsy can improve the results of PCI of calcified coronary lesions with a low rate of periprocedural complications.MethodsA total of 105 consecutive patients with 110 calcified lesions underwent IVL. A total of 87 de novo lesions were treated by IVL with the following indications: 25 before attempting other balloon-based devices (primary IVL), 51 after the failure of non-compliant balloon dilatation (secondary IVL), and 11 after stent implantation because of stent under expansion (bailout IVL). In 23 lesions, IVL was used for the treatment of in-stent restenosis (ISR). Effectiveness (angiographic success) and safety [major adverse cardiovascular events (MACEs) and IVL-related procedural complications] endpoints were assessed.ResultsAngiographic success was achieved in 84.6% of lesions. Early MACEs were periprocedural MI only, ranging from 6.7 to 20% depending on MI definition. The flow-limiting dissections rate was 2.7%. A total of five (4.5%) IVL balloons ruptured during treatment with subsequent vessel perforation in 1 case. MACEs at 12 months were 13.3%, with TLR occurring in 8 lesions (12% primary IVL, 0% secondary IVL, 0% bailout IVL, and 21.7% IVL for ISR, p = 0.002).ConclusionTreatment of calcified coronary lesions with IVL in a "real-world" setting can be performed with high success, low rate of procedural complications, and an acceptable MACEs rate. Target lesion failure may be more frequent when IVL is performed for the treatment of ISR due to calcium-mediated stent under expansion.