Follow-up Intravascular Ultrasound Research Articles

Clinical results of 30 consecutive patients of carotid artery stenosis treated with CASPER stent placement: 1-year follow-up and in-stent findings on intravascular ultrasound examination immediately and 6 months after treatment

BackgroundThe CASPER stent is expected to reduce periprocedural ischemic complications, but there is concern about restenosis in the early period. One-year follow-up results of CASPER stenting and findings on intravascular...

Data-driven models for the prediction of coronary atherosclerotic plaque progression/regression

Coronary artery disease is defined by the existence of atherosclerotic plaque on the arterial wall, which can cause blood flow impairment, or plaque rupture, and ultimately lead to myocardial ischemia. Intravascular ultrasound (IVUS) imaging can provide a detailed characterization of lumen and vessel features, and so plaque burden, in coronary vessels. Prediction of the regions in a vascular segment where plaque burden can either increase (progression) or decrease (regression) following a certain therapy, has remained an elusive major milestone in cardiology. Studies like IBIS-4 showed an association between plaque burden regression and high-intensity rosuvastatin therapy over 13 months. Nevertheless, it has not been possible to predict if a patient would respond in a favorable/adverse fashion to such a treatment. This work aims to (i) Develop a framework that processes lumen and vessel cross-sectional contours and extracts geometric descriptors from baseline and follow-up IVUS pullbacks; and to (ii) Develop, train, and validate a machine learning model based on baseline/follow-up IVUS datasets that predicts future percent of atheroma volume changes in coronary vascular segments using only baseline information, i.e. geometric features and clinical data. This is a post hoc analysis, revisiting the IBIS-4 study. We employed 140 arteries, from 81 patients, for which expert delineation of lumen and vessel contours were available at baseline and 13-month follow-up. Contour data from baseline and follow-up pullbacks were co-registered and then processed to extract several frame-wise features, e.g. areas, plaque burden, eccentricity, etc. Each pullback was divided into regions of interest (ROIs), following different criteria. Frame-wise features were condensed into region-wise markers using tools from statistics, signal processing, and information theory. Finally, a stratified 5-fold cross-validation strategy (20 repetitions) was used to train/validate an XGBoost regression models. A feature selection method before the model training was also applied. When the models were trained/validated on ROI defined by the difference between follow-up and baseline plaque burden, the average accuracy and Mathews correlation coefficient were 0.70 and 0.41 respectively. Using a ROI partition criterion based only on the baseline’s plaque burden resulted in averages of 0.60 accuracy and 0.23 Mathews correlation coefficient. An XGBoost model was capable of predicting plaque progression/regression changes in coronary vascular segments of patients treated with rosuvastatin therapy in 13 months. The proposed method, first of its kind, successfully managed to address the problem of stratification of patients at risk of coronary plaque progression, using IVUS images and standard patient clinical data.

Plaque burden estimated from optical coherence tomography with deep learning: In vivo validation using co-registered intravascular ultrasound.

The objective of the present study was to compare plaque burden (PB) calculated from optical coherence tomography (OCT) using deep learning (DL) with PB derived from co-registered intravascular ultrasound (IVUS). A DL algorithm was developed for automated plaque characterization and PB quantification from OCT images. However, the performance of this algorithm for PB quantification has not been validated. Five-year follow-up OCT and IVUS images from 15 patients implanted with bioresorbable vascular scaffold (BVS) at baseline were analyzed. Precise co-registration for 72 anatomical slices was achieved utilizing unique BVS radiopaque markers. PB derived from OCT DL and IVUS were compared. OCT cross-sections were divided into four subgroups with different media visibility level. The impact of media visibility on the numerical difference between OCT-derived and IVUS-derived PB was investigated. The stent sizes selected by OCT DL and IVUS were compared. Sixty-four paired OCT and IVUS cross-sections were compared. OCT DL showed good concordance with IVUS for PB assessment (ICC = 0.81, difference = -3.53 ± 6.17%, p < 0.001). The numerical difference between OCT DL-derived PB and IVUS-derived PB was not substantially impacted by missing segments of media visualization (p = 0.21). OCT DL showed a diagnostic accuracy of 92% in identifying PB > 65%. The stent sizes selected by OCT DL were smaller compared to the ones selected by IVUS (difference = 0.30 ± 0.34 mm, p < 0.001). The DL algorithm provides a feasible and reliable method for automated PB estimation from OCT, irrespective of media visibility. OCT DL showed good diagnostic accuracy in identifying PB > 65%, revealing its potential to complement conventional OCT imaging.

Angiographic and clinical outcomes in patients with versus without diabetes mellitus after revascularization with BioMime sirolimus-eluting stent.

Drug-eluting stents (DES) significantly improved angiographic and clinical outcomes compared with bare-metal stents in patients with diabetes. The clinical effects of BioMime sirolimus-eluting stent (SES) in patients with diabetes have not been evaluated. Therefore, we compared the efficacy of BioMime DES in coronary artery disease (CAD) patients with versus without diabetes. This prospective analytical study compared angiographic in-segment late loss and clinical effectiveness of BioMime SES stents in treating patients with (patients: 77 and lesions: 83) versus without (patients: 154 and lesions: 162) diabetes. The purpose of this study was the comparison of angiographic in-segment late loss at 12 months. Major adverse cardiac events (MACEs) were also monitored as secondary outcomes 24 months after the index procedure. Of 231 patients enrolled in the study, the mean age was 63.3 years and 153 patients were male. Angiographic follow-up rate was 84.8% (patients: 196) and intravascular ultrasound (IVUS) follow-up rate was 67.9% (patients: 157) at 12 months. Diabetic patients were comparable to nondiabetic patients for 12-month in-segment late loss (0.01 ± 0.31 mm for the nondiabetes group versus 0.04 ± 0.11 mm for the diabetes group; P = 0.158; P < 0.05). At 24 months, MACEs, including death, myocardial infarction and ischemic-driven target lesion revascularization were not statistically different between the two treatment groups. BioMime SES stents in treating patients with diabetes were comparable in reducing angiographic restenosis at 12 months and MACEs at 24 months compared to nondiabetic patients with CAD.

Fibrous Cap Thickness Predicts Stable Coronary Plaque Progression: Early Clinical Validation of a Semiautomated OCT Technology.

Imaging-based characteristics associated with the progression of stable coronary atherosclerotic lesions are poorly defined. Utilizing a combination of optical coherence tomography (OCT) and intravascular ultrasound (IVUS) imaging, we aimed to characterize the lesions prone to progression through clinical validation of a semiautomated OCT computational program. Patients with stable coronary artery disease underwent nonculprit vessel imaging with IVUS and OCT at baseline and IVUS at the 12-month follow-up. After coregistration of baseline and follow-up IVUS images, paired 5-mm segments from each patient were identified, demonstrating the greatest plaque progression and regression as measured by the change in plaque burden. Experienced readers identified plaque features on corresponding baseline OCT segments, and predictors of plaque progression were assessed by multivariable analysis. Each segment then underwent volumetric assessment of the fibrous cap (FC) using proprietary software. Among 23 patients (70% men; median age, 67 years), experienced-reader analysis demonstrated that for every 100 μm increase in mean FC thickness, plaques were 87% less likely to progress (P = .01), which persisted on multivariable analysis controlling for baseline plaque burden (P = .05). Automated FC analysis (n = 17 paired segments) confirmed this finding (P = .01) and found thinner minimal FC thickness (P = .01) and larger FC surface area of <65 μm (P = .02) and <100 μm (P = .04) in progressing segments than in regressing segments. No additional imaging features predicted plaque progression. A semiautomated FC analysis tool confirmed the significant association between thinner FC and stable coronary plaque progression along entire vessel segments, illustrating the diffuse nature of FC thinning and suggesting a future clinical role in predicting the progression of stable coronary artery disease.

Impact of myocardial bridge on late lumen enlargement in distal reference segments after recanalization of coronary chronic total occlusion.

Successful recanalization of coronary chronic total occlusion (CTO) can induce subsequent positive vascular remodeling. Although myocardial bridge (MB) is known to alter endothelial function and wall shear stress, the impact of MB on late lumen enlargement in the distal segment is unclear. A total of 59 patients who underwent successful percutaneous coronary intervention (PCI) for CTO in the left anterior descending artery (LAD) under intravascular ultrasound (IVUS) guidance and follow-up angiography at 8-12months were included. Gray-scale IVUS images were analyzed and MB was detected. Lumen diameter (LD) at distal reference at post-PCI was quantitatively compared with corresponding LD at follow-up coronary angiography to assess late lumen enlargement. MB on IVUS was detected in 17 patients (29%). The length from LAD ostium to the entry of CTO was shorter (11.7 ± 13.9 vs. 22.8 ± 13.4mm, p = 0.006) and LD at distal reference at post-PCI was smaller (1.65 ± 0.54 vs. 1.97 ± 0.56mm, p = 0.049) in patients with MB than those without. At the mean follow-up of 10.4 ± 2.4months, LD at distal reference was significantly increased by 25% from baseline to follow-up in the overall population (1.88 ± 0.57 vs. 2.21 ± 0.41mm, p < 0.001), with a greater increase in patients with MB compared to those without (46 ± 31% vs. 17 ± 29%, p < 0.001). Multivariable analysis indicated MB as an independent predictor of late lumen enlargement. In patients with MB on IVUS, CTO was located in more proximal segment of LAD than those without. Late lumen enlargement at follow-up was greater in patients with MB compared to the counterpart.

Safety and Effectiveness of PCSK9 Inhibitors in Orthotopic Heart Transplant Patients

Background Statin medications are recommended in patients after heart transplantation, but are sometimes poorly tolerated in the setting of concomitant use of calcineurin inhibitors. Alternative agents are often considered including PCSK9 inhibitors (PCSK9i). We sought to investigate the effects of PCSK9i use after heart transplant. Methods We identified patients transplanted from 1999 to 2019 who were prescribed a PCSK9i at our institution after transplant. We compared lipid profiles at baseline and at least 4 weeks after starting PCSK9i. Results from coronary angiography with intravascular ultrasound (IVUS) were also compared in a subset of patients who had studies before and after starting PCSK9i. Results We identified 68 patients in this analysis with a median age of 61.9 (51.2 - 67.4) years and 78% male. The median time from transplant to starting PCSK9i was 5.5 (2.7 - 10) years, while the median time on PCSK9i was 1.4 (0.6 - 2.7) years with 78% still on treatment. Evolocumab was used in 74%, Alirocumab was used in 13%, and both agents were used in 13% of patients (all due to insurance preference). The most common reason for initiation was elevated LDL cholesterol with statin intolerance (45 of 68). 17 patients were on a high intensity statin, and 5 patients could only tolerate lower intensity statins. There were 29% of patients on Ezetimibe. Median LDL decreased from 125 (101 - 148) mg/dl to 53 (37 - 72) mg/dl after starting PCSK9i (p Conclusions Among heart transplant recipients, PCSK9i are effective in lowering LDL levels and stabilizing coronary intimal hyperplasia with minimal side effects. Further evaluation of PCSK9i impact on post-heart transplant outcomes is warranted.

Effects of Aspirin on Progression of Cardiac Allograft Vasculopathy and Outcomes after Heart Transplantation

Enhanced platelet reactivity may play a role in the development and progression of cardiac allograft vasculopathy (CAV). Although aspirin is often a part of the medication regimen after heart transplantation (HT), limited evidence is available on its effects on CAV and related outcomes. In this large study, we sought to investigate whether aspirin treatment has an independent impact on CAV progression using coronary intravascular ultrasound (IVUS) follow-up studies and clinical outcomes after long-term follow-up post HT. CAV progression, all-cause and cardiac mortality were compared between HT patients taking and those not taking aspirin from 1994 to 2016 at a single institution. CAV progression was assessed by measuring the log ratio of the last to first plaque index (PI, ratio of plaque volume to vessel volume) between last follow-up and baseline coronary IVUS after adjustment for age, time to first IVUS, conversion to sirolimus, and time between IVUS studies. Survival analyses were performed using Cox regression models with aspirin treated as a time-dependent predictor conditional on patients being alive at 6 months post HT. Overall, 530 HT recipients (308 patients received sirolimus-based and 222 received calcineurin inhibitor-based immunosuppression) were retrospectively analyzed, among which 323 patients underwent at least 2 IVUS studies post HT. Length of aspirin use was modestly associated with attenuated progression of plaque index ratio (r=-0.14, p=0.02) (Figure 1A). Cox regression with adjustment for clinically relevant characteristics, including conversion to sirolimus, and CAV grade at 1 year post HT did not suggest any difference in all-cause mortality (hazard ratio [HR] 0.9; 95% confidence interval [CI] 0.6 to 1.3, p=0.45) (Figure 1B) or cardiac death (HR 1.5, 95% CI 0.7 to 3.2, p = 0.33) (Figure 1C) after a median follow-up time of 10 years post HT. Aspirin use may delay CAV progression but does not affect long-term survival after HT.

Spontaneous Coronary Artery Dissection: Two Case Reports and a Brief Review

Spontaneous coronary artery dissection (SCAD) is an unusual, special type of coronary heart disease characterized by various symptoms, such as chest pain, ST-elevation acute coronary syndrome (ACS), ventricular arrhythmia, and sudden cardiac death. Here, we report two different cases who presented with ACS and were found through coronary angiography (CAG) and intravascular ultrasound (IVUS) to have SCAD, but for whom follow-up CAG and IVUS 3 months later showed different outcomes.

Incidence, predictors, and outcomes of distal vessel expansion on follow-up intravascular ultrasound after recanalization of chronic total occlusions using new-generation drug-eluting stents: Data from the CTO-IVUS randomized trial.

To evaluate the incidence, predictors, and outcomes of distal vessel expansion on intravascular ultrasound (IVUS) after recanalization of chronic total occlusion (CTO) particularly using new-generation drug-eluting stent (DES). The luminal changes of narrowed vessels distal to CTO segments after recanalization using new-generation DES have rarely been studied. This substudy of the CTO-IVUS (Chronic Total Occlusion InterVention with drUg-eluting Stents) trial included a total of 69 new-generation DES-treated CTOs with serial matched IVUS analyses at index percutaneous coronary intervention (PCI) and at 1-year follow-up. The predictors of distal vessel expansion, any increase of lumen area at the distal reference (LAdistal ) on 1-year follow-up IVUS, were evaluated by multivariable binary logistic analyses. Distal vessel expansion was identified in 46 (67%). Independent determinants of distal vessel expansion were proximal CTO, a smaller LAdistal at the index PCI, a greater minimal stent area-to-LAdistal (MSA-to-LAdistal ) ratio, and a greater lumen area at the distal stent edge-to-LAdistal (LAedge -to-LAdistal ) ratio. The cut-off values of a MSA-to-LAdistal ratio and a LAedge -to-LAdistal ratio predicting the distal vessel expansion by receiver operating characteristic curve analysis were 1.0 and 1.1, respectively. During the median 5.1 years, rates of target vessel revascularization, cardiac death, and stent thrombosis were similar in the distal vessel-expanded and nonexpanded groups. After opening CTO with new-generation DES, two-thirds of patients exhibited distal vessel expansion on 1-year follow-up IVUS. Expansion determinants were a proximal CTO, lower LAdistal , and larger stent areas relative to the LAdistal (modifiable procedural predictors).

A Multimodality Image-Based Fluid-Structure Interaction Modeling Approach for Prediction of Coronary Plaque Progression Using IVUS and Optical Coherence Tomography Data With Follow-Up.

Medical image resolution has been a serious limitation in plaque progression research. A modeling approach combining intravascular ultrasound (IVUS) and optical coherence tomography (OCT) was introduced and patient follow-up IVUS and OCT data were acquired to construct three-dimensional (3D) coronary models for plaque progression investigations. Baseline and follow-up in vivo IVUS and OCT coronary plaque data were acquired from one patient with 105 matched slices selected for model construction. 3D fluid-structure interaction (FSI) models based on IVUS and OCT data (denoted as IVUS + OCT model) were constructed to obtain stress/strain and wall shear stress (WSS) for plaque progression prediction. IVUS-based IVUS50 and IVUS200 models were constructed for comparison with cap thickness set as 50 and 200 μm, respectively. Lumen area increase (LAI), plaque area increase (PAI), and plaque burden increase (PBI) were chosen to measure plaque progression. The least squares support vector machine (LS-SVM) method was employed for plaque progression prediction using 19 risk factors. For IVUS + OCT model with LAI, PAI, and PBI, the best single predictor was plaque strain, local plaque stress, and minimal cap thickness, with prediction accuracy as 0.766, 0.838, and 0.890, respectively; the prediction accuracy using best combinations of 19 factors was 0.911, 0.881, and 0.905, respectively. Compared to IVUS + OCT model, IVUS50, and IVUS200 models had errors ranging from 1% to 66.5% in quantifying cap thickness, stress, strain and prediction accuracies. WSS showed relatively lower prediction accuracy compared to other predictors in all nine prediction studies.

Early-Stage Vascular Response between Bare Metal Stent and Drug-Free Bioresorbable Vascular Scaffold in the Small-Sized Peripheral Artery: A Preclinical Study in Porcine Femoral Arteries

The clinical benefits and outcomes of the interventional treatment of small-sized infrapopliteal arteries using stent implantation remain uncertain. The aim of this study was to compare the safety and efficacy of drug-free bioresorbable vascular scaffold (BVS) with that of bare metal stent (BMS) in endovascular treatment of small-sized peripheral arteries. In this study, drug-free BVS and BMS were used in eight porcine models. We compared the angiographic and histomorphometric findings in the two groups at 4weeks. In each pig, BVS and BMS of adequate sizes were implanted in the small branch (<3mm) of the femoral artery. Angiography, intravascular ultrasound (IVUS), and histomorphometric analysis were performed at 4weeks. In the 4-week follow-up angiography and IVUS examination, the minimal luminal diameter was smaller and diameter stenosis was more severe in the BVS group. Histomorphometric findings indicated that the lumen area in the BVS group was smaller (0.34±0.28mm2 vs. 1.40±0.52mm2, P<0.001), whereas the neointimal area (2.70±1.28mm2 vs. 1.76±0.66mm2, P=0.013), area stenosis (85.18±13.14 % vs. 54.99±16.13 %, P<0.001), inflammatory score (2.07±0.861 vs. 28±0.39, P=0.003), and fibrin scores (1.24±0.70 vs. 0.79±0.72, P=0.043) were significantly higher in the BVS group. The injury score was higher in the BMS group. In histopathologic findings, restenosis was mainly due to recoil and distortion of the scaffold in the BVS group. Compared with BMS, drug-free BVS was not feasible for small-sized peripheral arteries based on the angiographic, IVUS, and histomorphometric results primarily due to insufficient mechanical support.

Predicting Plaque Progression Using Patient-Specific Fluid-Structure-Interaction Models Based on IVUS and OCT Images with Follow-Up

Atherosclerotic plaque progression is generally considered to be closely associated with morphological and mechanical factors. Plaque morphological information on intravascular ultrasound (IVUS) and optical coherence tomography (OCT) images could complement each other and provide for more accurate plaque morphology. Fluid-structure interaction (FSI) models combining IVUS and OCT were constructed to obtain accurate plaque stress/strain and flow shear stress data for analysis. Accuracy and completeness of imaging and advanced modeling lead to accurate plaque progression predictions. In vivo IVUS and OCT coronary plaque data at baseline and follow-up were acquired from left circumflex coronary and right coronary artery of one patient with patient’s consent obtained. Co-registration and segmentation of baseline and follow-up IVUS and OCT images were performed by experts. Baseline and follow-up 3D FSI models with cyclic bending based on merged IVUS and OCT data were constructed to obtain plaque stress/strain and flow shear stress data for plaque progression prediction. Nine factors (6 morphological factors and 3 mechanical factors) including average cap thickness, lipid area, calcification area, lumen area, plaque area, plaque burden, wall shear stress (WSS), plaque wall stress (PWS) and plaque wall strain (PWSn) were selected for each slice. Plaque area increase (PAI) and plaque burden increase (PBI) were chosen to measure plaque progression and serve as the target variables for prediction. All possible combinations of nine factors were fed to a generalized linear mixed model for PAI and PBI prediction and quantification of their prediction accuracies. In this paper, prediction accuracy was defined as the sum of sensitivity and specificity. The optimized predictor combining 9 factors gave the best prediction for PAI with accuracy=1.7087 (sensitivity: 0.8679; specificity: 0.8408). PWSn was the best single-factor predictor for PAI with accuracy=1.5918 (sensitivity: 0.7143; specificity 0.8776). A combination of average cap thickness, calcification area, plaque area, PWS and PWSn gave the best prediction for PBI with accuracy=1.8698 (sensitivity: 0.8892; specificity: 0.9806). PWSn was also the best single-factor predictor for PBI with accuracy=1.8461 (sensitivity: 0.8784; specificity 0.9677). Although WSS was commonly accepted as an important factor for plaque progression, it showed relatively poor ability for prediction of plaque progression in any measure (accuracy, sensitivity, specificity of PAI: 1.0607, 0.0893, 0.9714; PBI: 1.5431/0.6811/0.9032). Combining morphological and mechanical risk factors may lead to more accurate progression prediction, compared to the predictions using single factor. PWSn is better than WSS for plaque progression using single factor. IVUS+OCT formed basis for accurate data for morphological and mechanical factors. Acknowledgement: This research was supported in part by NIH grant R01 EB004759, and a Jiangsu Province Science and Technology Agency grant BE2016785.

Proteomic Discovery and Validation of the Confounding Effect of Heparin Administration on the Analysis of Candidate Cardiovascular Biomarkers.

Several plasma proteins have been suggested as markers for a variety of cardiovascular conditions but fail to qualify in independent patient cohorts. This may relate to interference of medication on plasma protein concentrations. We used proteomics to identify plasma proteins that changed in concentration with heparin administration and therefore potentially may confound their evaluation as biomarkers in situations in which heparin is used. We used a proteomic approach based on isobaric tagging and nano-LC-MS/MS analysis to quantify several hundred proteins in a discovery study in which individual plasma samples from 9 patients at intravascular ultrasound follow-up 12 months after an acute myocardial infarction before heparin administration and 2, 15, and 60 min after heparin administration; we validated our findings in 500 individual plasma samples obtained at admission from patients with suspected ST segment elevation myocardial infarction (STEMI), of whom 363 were treated with heparin before admission. In the discovery study, 25 of 653 identified plasma proteins displayed a changed concentration after heparin administration (Bonferroni-corrected P value at P < 7.66 × 10-5). Fourteen of the proteins changed significantly among heparin-treated patients in the validation study (nominal significance level of P < 6.92 × 10-5). Among heparin-affected proteins in both the discovery study and the validation study were midkine, spondin 1, secreted frizzled-like protein 1, lipoprotein lipase, and follistatin, all previously associated with STEMI. Medications such as heparin administration given before blood sampling may confound biomarker discovery and should be carefully considered in such studies.

Uric acid is an independent predictor of cardiac allograft vasculopathy after heart transplantation.

Cardiac allograft vasculopathy (CAV) is a major complication after heart transplantation (HT). Uric acid (UA) may play a role in CAV due to its role in stimulating T-cell-mediated immunity. Sirolimus is associated with CAV attenuation through a number of mechanisms, including immune-mediated effects. We aimed to determine whether UA is an independent predictor of CAV and whether conversion to sirolimus as primary immunosuppression modulates UA levels. We retrospectively analyzed a cohort of 224 patients who underwent HT between 2004 and 2015 and had serial coronary intravascular ultrasound (IVUS) studies. Serum UA levels were measured at baseline and last follow-up IVUS in all participants. CAV progression was assessed by measuring the change in plaque volume (ΔPV) and plaque index (ratio of plaque volume to vessel volume [ΔPI]) between last follow-up and baseline IVUS after correction for time of follow-up. Patients with high (≥7 mg/dl) compared with low (<7 mg/dl) UA had increased median ΔPV (0.33 [interquartile range 0.08 to 0.93] vs 0.07 [-0.17 to 0.38] mm3/mm/year; p < 0.001) and ΔPI (2.0% [0.31% to 3.9%] vs 0.33% [-1.2% to 2.0%]; p < 0.001). Elevated UA levels were associated with a significantly increased risk of developing significant CAV progression (ΔPV >0.50 mm3/mm) (hazard ratio 2.2, 95% confidence interval 1.1 to 4.6; p = 0.037). Sirolimus resulted in decreased UA levels (5.8 ± 1.4 vs 5.2 ± 1.5; p = 0.002) and patients converted to sirolimus and had low UA levels had the least CAV progression (p < 0.001). After adjustment for potential confounders, change in UA level was also an independent predictor of CAV progression. UA is an independent predictor of CAV after HT. Sirolimus is associated with decreased UA levels and may explain one of the mechanisms by which sirolimus attenuates CAV progression.

Impact of Water- and Lipid-Soluble Statins on Nonculprit Lesions in Patients with Acute Coronary Syndrome

Statins can be differentiated into two types, based on their solubility, which have potentially differing effects on the coronary artery wall. However, suspected differences in statins' effects on plaque composition have not been systemically investigated.Sixty-seven patients with acute coronary syndrome (ACS) were randomly assigned to either atorvastatin (10 mg/day) or rosuvastatin (2.5 mg/day). Intravascular ultrasound (IVUS) and integrated backscatter (IB)-IVUS, an established tool to quantify each plaque's components, were performed immediately after emergent percutaneous coronary intervention (PCI). Follow-up IVUS was performed between 6 and 12 months after PCI. Serial changes in serum lipid profiles and plaque composition volumes were compared between the two groups.Thirty-five patients were eligible for serial IB-IVUS analyses. The mean low-density lipoprotein-cholesterol level significantly decreased in the atorvastatin and rosuvastatin groups (P < 0.001); plaque volumes were also significantly reduced from 82.0 ± 46.2 to 74.9 ± 41.3 mm3 (P = 0.01) and from 74.7 ± 35.3 to 67.7 ± 27.0 mm3 (P = 0.02), respectively. IB-IVUS revealed a significant reduction in fibrous volume from 33.8 ± 20.0 to 27.5 ± 14.9 mm3 (P < 0.01) and from 29.6 ± 13.6 to 24.8 ± 7.6 mm3 (P < 0.05), respectively; however, significant changes were not noted in the volume of the lipid pool for the atorvastatin group and the rosuvastatin group, respectively.Water- and lipid-soluble statins may be similarly effective in reducing coronary plaques in patients with ACS as judged qualitatively and quantitatively. Further study is needed to determine whether differences between water- and lipid-soluble statins affect plaque components.

Fluid-structure interaction models based on patient-specific IVUS at baseline and follow-up for prediction of coronary plaque progression by morphological and biomechanical factors: A preliminary study

Plaque morphology and biomechanics are believed to be closely associated with plaque progression. In this paper, we test the hypothesis that integrating morphological and biomechanical risk factors would result in better predictive power for plaque progression prediction. A sample size of 374 intravascular ultrasound (IVUS) slices was obtained from 9 patients with IVUS follow-up data. 3D fluid-structure interaction models were constructed to obtain both structural stress/strain and fluid biomechanical conditions. Data for eight morphological and biomechanical risk factors were extracted for each slice. Plaque area increase (PAI) and wall thickness increase (WTI) were chosen as two measures for plaque progression. Progression measure and risk factors were fed to generalized linear mixed models and linear mixed-effect models to perform prediction and correlation analysis, respectively. All combinations of eight risk factors were exhausted to identify the optimal predictor(s) with highest prediction accuracy defined as sum of sensitivity and specificity. When using a single risk factor, plaque wall stress (PWS) at baseline was the best predictor for plaque progression (PAI and WTI). The optimal predictor among all possible combinations for PAI was PWS + PWSn + Lipid percent + Min cap thickness + Plaque Area (PA) + Plaque Burden (PB) (prediction accuracy = 1.5928) while Wall Thickness (WT) + Plaque Wall Strain (PWSn) + Plaque Area (PA) was the best for WTI (1.2589). This indicated that PAI was a more predictable measure than WTI. The combination including both morphological and biomechanical parameters had improved prediction accuracy, compared to predictions using only morphological features.

Serial 3-Vessel Optical Coherence Tomography and Intravascular Ultrasound Analysis of Changing Morphologies Associated With Lesion Progression in Patients With Stable Angina Pectoris.

Optical coherence tomographic (OCT) morphologies associated with lesion progression are not well studied. The aim of this study was to determine the morphological change for untreated lesion progression using both OCT and intravascular ultrasound (IVUS). We used baseline and 8-month follow-up 3-vessel OCT and IVUS to assess 127 nonculprit lesions (IVUS plaque burden ≥40%) in 45 patients with stable angina after target lesion treatment. Lesion progression was defined as an IVUS lumen area decrease >0.5 mm2. A layered pattern was identified as a superficial layer that had a different optical intensity and a clear demarcation from underlying plaque. Lesion progression was observed in 19% (24/127) lesions, and its pattern was characterized into 3 types: type I, new superficial layered pattern at follow-up that was not present at baseline (n=9); type II, a layered pattern at baseline whose layer thickness increased at follow-up (n=7); or type III, no layered pattern at baseline or follow-up (n=8). The increase of IVUS plaque+media area was largest in type I and least in type III (1.9 mm2 [1.6-2.1], 1.1 mm2 [0.9-1.4], and 0.3 mm2 [-0.2 to 0.8], respectively; P=0.002). Type III, but not types I or II, showed negative remodeling during follow-up (IVUS vessel area; from 14.3 mm2 [11.4-17.2] to 13.5 mm2 [10.4-16.7]; P=0.02). OCT lipidic plaque was associated with lesion progression (odds ratio, 13.6; 95% confidence interval, 3.7-50.6; P<0.001). Lesion progression was categorized to distinct OCT morphologies that were related to changes in plaque mass or vessel remodeling.

A case of cardiopulmonary arrest due to spontaneous coronary artery dissection in a pregnant woman

We present the case of a young pregnant woman with cardiopulmonary arrest due to acute coronary syndrome. Emergent coronary angiography (CAG) and intravascular ultrasound (IVUS) showed extensive coronary artery dissection...

Left main coronary artery compression due to pulmonary artery aneurysm: Three-year clinical and angiographic follow-up after stenting

We report a case of a 53-year-old male patient with typical angina and dyspnea with moderate exertion due to extrinsiccompression of the left main coronary artery (LMCA) by a pulmonary artery aneurysm. Coronary angiography demonstrated 90% stenosis of the LMCA ostium. Percutaneous coronary intervention was successfully performed with implantation of a 6.0 mm × 12 mm bare-metal stent guided by intravascular ultrasound (IVUS). He remained asymptomatic at three-years evaluation, and angiographic and IVUS follow-up showed no significant in-stent neointimal hyperplasia or luminal loss, with excellent apposition and covering of stent struts and minimal luminal area 23.3 mm 2 as measured by IVUS.