ClinicAL outComes of IntraVascular Lithotripsy Combined With Conventional Lesion Preparation in Patients With Moderate to Severe Coronary Artery Calcification (CALC-IVL)

Revascularization of severe coronary artery calcification (CAC) lesions is associated with high technical difficulty and poor prognosis, and remains one of the major unmet challenges in the diagnosis and treatment of coronary heart disease (CHD) at present. As an important marker for the severity of atherosclerosis, CAC is closely correlated with the risk of recurrent cardiovascular events after revascularization and future cardiovascular events, with severe CAC lesions increasing the incidence of these events by 20%-40%. Despite existing research on the pathogenesis, progression, risk stratification and therapeutic strategies of CAC, there is a lack of standardized criteria for selecting medical or surgical treatment strategies and optimized revascularization protocols for CAC patients. Therefore, optimizing current revascularization strategies is of great significance.

The proportion of patients with coronary artery calcification (CAC) is on the rise among those undergoing percutaneous coronary intervention (PCI).Existing studies have found that the prevalence of CAC lesions ranges as high as 67% to 90% in the middle-aged and elderly populations. Research indicates that CAC significantly elevates the risk of intraoperative and postoperative complications of PCI, further increasing the likelihood of in-stent restenosis and repeat revascularization, which ultimately leads to a higher risk of mortality. Current preconditioning strategies prior to stent implantation for CAC include high-pressure balloon dilation, cutting balloon dilation, rotational atherectomy, and excimer laser ablation, among other approaches.However, most existing studies have focused on comparing the efficacy of different preconditioning methods-such as the superiority of ultra-high-pressure balloons versus cutting balloons, or rotational atherectomy versus cutting balloons-and have mainly emphasized stent implantation success rates and immediate stent expansion outcomes, while neglecting the long-term prognosis of patients. In particular, relevant research remains insufficient regarding combination therapy regimens that integrate multiple preconditioning methods. In recent years, numerous domestic and international studies have confirmed the efficacy of shockwave balloon technology in the treatment of coronary calcified lesions, which can significantly reduce the rate of stent implantation failure and improve stent expansion rate. Nevertheless, the strategy of intensive preconditioning combined with shockwave balloon therapy still requires verification through large-sample randomized controlled clinical trials.

With population aging and the rising incidence of diabetes mellitus and renal insufficiency, the proportion of patients with CAC lesions is expected to further increase. Therefore, it is particularly important to explore optimized strategies for improving the poor revascularization outcomes in CAC patients.

In summary, by optimizing revascularization strategies, this study aims to establish a more precise and efficient diagnosis and treatment pathway for CAC. Subsequent randomized controlled clinical trials will further clarify the value of these strategies, laying a foundation for promoting breakthroughs in the clinical diagnosis and treatment of cardiovascular diseases, which is of great significance for improving the national cardiovascular health level.