Independent role of atherosclerotic plaque composition and extension in predicting the risk of cardiac events: a CLIMA substudy.

To investigate two different approaches to determine patient risk to develop cardiac events: the burden of coronary atherosclerosis, as assessed by the Gensini score, and plaque morphology, as assessed by intracoronary optical coherence tomography (OCT). We assessed the Gensini score and OCT features of plaque vulnerability in 847 patients from the CLIMA registry. Patients were divided into four Gensini quartiles. The main study endpoint was the 1-year composite of cardiac death, myocardial infarction (MI) and/or target vessel revascularization (TVR). A total of 56 patients (6.6%) experienced the one-year main composite endpoint. The composite endpoint was significantly affected by the Gensini score (hazard ratio [HR] 1.42, 95% confidence interval [CI] 1.11-1.81, p = 0.005), with a low incidence in the first Gensini quartile (Q1 1.3%) and a higher incidence in the remaining groups (Q2 8.3%, Q3 8.9% and Q4 8.3%). At the multivariable analysis, the combined four OCT criteria (HR 6.4, 95%CI 3.0-13.7, p < 0.001), thin fibrous cap (HR 2.9, 95%CI 1.7-5.0, p < 0.001), lipid arc > 180° (HR 2.1, 95%CI 1.2-3.6, p = 0.010), minimum lumen area < 3.5 mm2 (HR 1.7, 95%CI 1.01-3.0, p = 0.047) and the Gensini score (HR 1.4, 95%CI 1.1-1.8, p = 0.017) were independent predictors of the main composite endpoint. In this post-hoc analysis of the CLIMA study, the burden of coronary atherosclerosis as assessed by the Gensini score and OCT plaque characteristics were independent predictors of cardiac events. Patients with the largest atherosclerosis burden and with plaque vulnerability by OCT were at the highest risk of poor outcome. Clinicaltrials.gov identifier: NCT02883088.

Sex-specific features of optical coherence tomography detected plaque vulnerability related to clinical outcomes: insights from the CLIMA study.

PURPOSE: To investigate the different impact of optical coherence tomography (OCT)-derived vulnerable plaque features on future adverse events (AEs) according to the biological sex. METHODS: The prospective multicenter CLIMA study (ClinicalTrials.gov: NCT02883088) enrolled 1003 patients with OCT plaque analysis of non-treated coronary plaques located in the proximal left anterior descending artery. Sex-specific differences in plaque composition and vulnerable features were described. We investigated the incidence of AEs, including cardiac death, any myocardial infarction and target vessel revascularization at 1-year. RESULTS: Among 1003 patients, 24.6% were women. Women were older and more frequently affected by chronic kidney disease. Dyslipidemia, prior MI and smoking habit were more common in men. At OCT analysis, women had shorter plaque length (p < 0.001), ticker fibrous cap (p = 0.001), smaller maximum lipid arc (p = 0.019), lower macrophage infiltration (p < 0.001) and intra-plaque layered tissue (p = 0.007). During follow-up, 65 AEs were registered. The presence of a thin fibrous cap and a large macrophage infiltration (> 67°) predicted AEs in both sexes. The presence of macrophages (HR 3.38, p = 0.018) and a small minimum lumen area (HR 4.97, p = 0.002) were associated with AEs in women but not in men, while a large lipid arc (> 180°) was associated with AEs in men (HR 2.56, p = 0.003) but not in women. CONCLUSION: This subanalysis of the CLIMA study investigated for the first-time sex-specific OCT features of plaque vulnerability associated with AEs. Local inflammation was associated with AEs in women and a large lipid arc was predictive in men. OCT may help develop sex-specific risk stratification strategies.

Optical coherence tomography-derived lipid core burden index and clinical outcomes: results from the CLIMA registry.

AIMS: The aim of this study was to assess the morphological characteristics and prognostic implications of the optical coherence tomography (OCT)-derived lipid core burden index (LCBI). METHODS AND RESULTS: OCT-LCBI was assessed in 1003 patients with 1-year follow-up from the CLIMA multicentre registry using a validated software able to automatically obtain a maximum OCT-LCBI in 4 mm (maxOCT-LCBI4mm). Primary composite clinical endpoint included cardiac death, myocardial infarction, and target-vessel revascularization. A secondary analysis using clinical outcomes of CLIMA study was performed. Patients with a maxOCT-LCBI4mm ≥ 400 showed higher prevalence of fibrous cap thickness (FCT) <75 µm [odds ratio (OR) 1.43, 95% confidence interval (CI) 1.03-1.99; P = 0.034], lipid pool arc >180° (OR 3.93, 95%CI 2.97-5.21; P < 0.001), minimum lumen area <3.5 mm2 (OR 1.5, 95%CI 1.16-1.94; P = 0.002), macrophage infiltration (OR 2.38, 95%CI 1.81-3.13; P < 0.001), and intra-plaque intimal vasculature (OR 1.34, 95%CI 1.05-1.72; P = 0.021). A maxOCT-LCBI4mm ≥400 predicted the primary endpoint [adjusted hazard ratio (HR) 1.86, 95%CI 1.1-3.2; P = 0.019] as well as the CLIMA endpoint (HR 2.56, 95%CI 1.24-5.29; P = 0.011). Patients with high lipid content and thin FCT < 75 µm were at higher risk for adverse events (HR 4.88, 95%CI 2.44-9.72; P < 0.001). CONCLUSIONS: A high maxOCT-LCBI4mm was related to poor outcome and vulnerable plaque features. This study represents a step further in the automated assessment of the coronary plaque risk profile.

[From regression to stabilization: new insights into the evolution of coronary atherosclerotic plaque]. / Dalla regressione alla stabilizzazione: l'evoluzione della placca aterosclerotica coronarica secondo le nuove evidenze.

Coronary artery atherosclerosis is a constantly evolving disease. Over the years, new drug therapies have been shown to reduce adverse cardiovascular events and improve the survival of patients with coronary artery disease. New intracoronary imaging modalities, including intravascular ultrasound, optical coherence tomography, and near-infrared spectroscopy, have been introduced to detect the anatomic changes which follow an effective lipid-lowering therapy in human coronary plaques. Particularly, the use of optical coherence tomography made it possible to evaluate plaque composition and showed how an intensive lipid-lowering therapy can stabilize atherosclerosis by improving vulnerable plaque features. Future non-invasive applications are required for large-scale use of these findings.