Coronary Artery Calcium Burden Research Articles

Relationship of left ventricular longitudinal strain to coronary artery calcium load in patients with newly diagnosed type 2 diabetes mellitus

Abstract Introduction Cardiovascular complications commonly manifest after longstanding Type 2 Diabetes Mellitus. Newly diagnosed Type 2 Diabetes Mellitus (NDT2DM) is much less studied. The coronary artery computed tomography calcium score (CTCS) has become a widely accessible, accurate, and reliable tool for assessing the risk of major cardiovascular events, particularly in asymptomatic individuals. Additionally, myocardial strain, specifically echocardiographic Global Longitudinal Strain (GLS), measures the systolic function of the left ventricle (LV), enabling the early detection of systolic dysfunction. GLS is also increasingly recognized for its prognostic value in coronary artery disease. Purpose The objective of this study was to analyze the relationship and predictors of subclinical calcified atherosclerotic plaques in coronary arteries, measured by CTCS, to LV longitudinal strain in patients with NDT2DM. Methods In this prospective cross-sectional study 101 patients with NDT2DM, according to the criteria of the American Diabetes Association, were included. CTCS was performed on all patients by 64-slice cardiac CT, with a thickness of 2-5 mm. The Agatston method was used to determine the CTCS. For Speckle Tracking Echocardiography, images from the apical four-chamber, three-chamber and two-chamber views with ECG gating were attained. The endocardial border was manually adjusted at end-systole. The software system automatically generated the strain values for each segment, the average LV GLS, end-diastolic, end-systolic LV volumes and LV ejection fraction. With Spearman’s correlation test we analysed the relationship between LV longitudinal strain parameters and the level of CTCS. We also performed the multiple regression analysis to identify LV longitudinal strain predictors for high CTCS. Results Mean age was 54.4 ± 11.6 years, 53 (52.5%) were males, and mean time since diagnosis of diabetes was 2.8 ± 5.3 months. Only 8 (7.9%) patients did not have calcified atherosclerotic plaques or a CTCS of zero, 7 (6.9%) a CTCS of 1-10, 43 (42.6%) a CTCS of 11-100, 23 (22.8%) a CTCS 101-400 and 20 (19.8%) patients had CTCS >400. The mean total volume of calcium in these patients was 210. LAD had the highest CTCS, followed by RCA, LCx and left main coronary artery. Table 1 shows the correlation between CTCS and LV longitudinal strain parameters, while table 2 depicts predictors for higher CTCS. Conclusions LVGLS does not appear to correlate with the coronary artery calcium burden in patients with NDT2DM. However, regional LV longitudinal strain may serve as a predictor for asymptomatic calcified coronary artery plaques. Given that the LAD exhibits the highest CTCS, the predictive regions might correspond to this affected artery. Thus, a comprehensive analysis of both global and regional LV longitudinal strain could be beneficial for the early detection of patients at risk for cardiovascular complications. Correlation of CTCS and LV strain LV strain predictors for CTCS

Echocardiographic factors related to coronary artery calcium burden in patients with newly diagnosed type 2 diabetes mellitus

Abstract Introduction Newly diagnosed type 2 diabetes mellitus (NDT2DM) could be linked to cardiac complications. A multinational cohort of adults under 55 years old, who had acute myocardial infarction, showed NDT2DM in 14.5% of patients. Timely diagnosis and treatment of diabetes mellitus (DM) can help mitigate the risk of long-term complications, particularly in the context of ischemic heart disease. The computed tomography (CTCS) calcium score in the coronary arteries is a reliable predictor of coronary heart disease events. Echocardiography is a time-efficient and cost-effective technique, delivering accurate and reproducible diagnostic and prognostic insights in individuals with DM. Purpose The objective of this study was to determine the echocardiographic factors associated with subclinical atherosclerotic plaques in coronary arteries, as uncovered by CTCS, in patients with NDT2DM. Methods In this prospective cross-sectional study 101 patients with NDT2DM, according to the criteria of the American Diabetes Association, were included. CTCS was performed on all patients by 64-slice cardiac CT, with a thickness of 2-5 mm. Calcification was identified as a structure >1 mm attached to or located within the lumen of a coronary vessel with intensity >130 HU. The Agatston method was used to determine the CTCS. Patients were categorized into five groups based on their calcium score (0, 0-10, 11-100, 101-400 and >400), and all obtained echocardiographic features were compared between the groups. Exclusion criteria included: stable angina pectoris, acute coronary disease, severe anemia, patients with history of stroke, moderate/severe renal insufficiency, liver insufficiency, claustrophobic patients, and pregnant women. Results Of the 101 asymptomatic patients with NDT2DM, 53 (52.5%) were males, with mean age of 54.4 ± 11.6 years and mean duration of diabetes of 2.8 ± 5.3 months. The total volume and mass of calcium in our patients was 210 and 180, respectively. In the table the differences between the 5 groups regarding echocardiographic characteristics are shown. The only echocardiographic parameters that differed significantly between the groups were the left atrium (P=0.001), interventricuar (P=0.005) and posterior wall thickness (P=0.017), as well as the degree of left ventricular hypertrophy (P=0.007). However, mean left atrial diameter across the groups was within reference range values, whereas left ventricular wall thickness was mildly hypertrophied in the >400 CTCS group. Conclusions NDT2DM patients with higher calcium burden tend to have thicker left ventricular walls. Hence, for individuals with NDT2DM, it is advisable to conduct echocardiography at the earliest opportunity, given its accessibility and cost-effectiveness. Special consideration should be given to even mild left ventricular hypertrophy, prompting additional assessments for coronary artery disease. Early and thorough cardiovascular management should be initiated accordingly.

Automated proximal coronary artery calcium identification using artificial intelligence: advancing cardiovascular risk assessment.

Proximal coronary artery calcium (CAC) may improve prediction of major adverse cardiac events (MACE) beyond the CAC score, particularly in patients with low CAC burden. We investigated whether the proximal CAC can be detected on gated cardiac computer tomography (CT) and whether it provides prognostic significance with artificial intelligence (AI). A total of 2016 asymptomatic adults with baseline CAC CT scans from a single site were followed up for MACE for 14 years. An AI algorithm to classify CAC into proximal or not was created using expert annotations of total and proximal CAC and AI-derived cardiac structures. The algorithm was evaluated for prognostic significance on AI-derived CAC segmentation. In 303 subjects with expert annotations, the classification of proximal versus not proximal CAC reached an area under receiver operating curve of 0.93 (95% confidence interval [CI] 0.91-0.95). For prognostic evaluation, in an additional 588 subjects with mild AI-derived CAC scores, the AI proximal involvement was associated with worse MACE-free survival (P=0.008) and higher risk of MACE when adjusting for CAC score alone (hazard ratio [HR] 2.28, 95% CI 1.16-4.48, P=0.02) or CAC score and clinical risk factors (HR 2.12, 95% CI 1.03-4.36, P=0.04). The AI algorithm could identify proximal CAC on CAC CT. The proximal location had modest prognostic significance in subjects with mild CAC scores. The AI identification of proximal CAC can be integrated into automatic CAC scoring and improves the risk prediction of CAC CT.

Abnormal Exercise Electrocardiography With Normal Stress Echocardiography Is Associated With Subclinical Coronary Atherosclerosis.

Patients with abnormal (positive) exercise electrocardiography, but normal stress echocardiography (+ECG/-Echo), have an increased risk of adverse cardiovascular events compared with patients with a normal (negative) ECG and a normal stress Echo (-ECG/-Echo). However, it is unclear if +ECG/-Echo discordance is associated with a greater burden of subclinical coronary atherosclerosis. Project Baseline Health Study participants who underwent a stress Echo and coronary artery calcium (CAC) scan were stratified by stress Echo result: -ECG/-Echo or +ECG/-Echo. Multivariable regression investigated the association between stress Echo results and CAC burden. Event-free survival from a composite of adverse cardiovascular events was compared between groups. Among 1630 asymptomatic participants in this observational cohort study, 1503 (92.2%) had a -ECG/-Echo, 105 (6.4%) had a +ECG/-Echo, and 22 (1.3%) had a +Echo. The +ECG/-Echo group had a significantly greater burden of coronary atherosclerosis than the -ECG/-Echo group (mean CAC score, 198±470 versus 53±186; P<0.001; CAClog, 2.2±2.7 versus 1.2±2.0; P<0.001). The -ECG/-Echo group was more likely to have CAC=0 compared with the +ECG/-Echo group (65.9% versus 53.3%; P=0.01), whereas the +ECG/-Echo group more commonly had CAC ≥100 (28.6% versus 11.4%; P<0.001). After adjustment, CAClog scores were 52% higher in the +ECG/-Echo group than in the -ECG/-Echo group (P=0.002). Compared with the -ECG/-Echo group, the +ECG/-Echo group was 4.5× more likely to have a CAC score ≥400 (adjusted odds ratio, 4.54 [95% CI, 1.95-10.05]; P<0.001). After a median follow-up of 4.3 years, a trend toward increased adverse cardiovascular events was observed among participants with +ECG/-Echo. Individuals with a +ECG/-Echo have a higher burden of subclinical coronary atherosclerosis than those with a -ECG/-Echo, which may explain, at least in part, the increased risk for adverse cardiac events in this population. Further study is needed to determine the optimal strategy for mitigating cardiovascular risk in these patients. URL: https://www.clinicaltrials.gov; Unique identifier: NCT03154346.

Coronary calcium score and emphysema extent on different CT radiation dose protocols in lung cancer screening.

To assess the consistency of automated measurements of coronary artery calcification (CAC) burden and emphysema extent on computed tomography (CT) images acquired with different radiation dose protocols in a lung cancer screening (LCS) population. The patient cohort comprised 361 consecutive screenees who underwent a low-dose CT (LDCT) scan and an ultra-low-dose CT (ULDCT) scan at an incident screening round. Exclusion criteria for CAC measurements were software failure and previous history of CVD, including coronary stenting, whereas for emphysema assessment, software failure only. CT images were retrospectively analyzed by a fully automated AI software for CAC scoring, using three predefined Agatston score categories (0-99, 100-399, and ≥ 400), and emphysema quantification, using the percentage of low attenuation areas (%LAA). Demographic and clinical data were obtained from the written questionnaire completed by each participant at the first visit. Agreement for CAC and %LAA categories was measured by the k-Cohen Index with Fleiss-Cohen weights (Kw) and Intraclass Correlation Coefficient (ICC) with 95% Confidence Interval (CI). An overlap of CAC strata was observed in 275/327 (84%) volunteers, with an almost perfect agreement (Kw = 0.86, 95% CI 0.82-0.90; ICC = 0.86, 95% CI 0.79-0.90), while an overlap of %LAA strata was found in 204/356 (57%) volunteers, with a moderate agreement (Kw = 0.57, 95% CI 0.51-0.63; ICC = 0.57, 95% CI 0.21-0.75). Automated CAC quantification on ULDCT seems feasible, showing similar results to those obtained on LDCT, while the quantification of emphysema tended to be overestimated on ULDCT images. Question Evidence demonstrating that coronary artery calcification and emphysema can be automatedly quantified on ultra-low-dose chest CT is still awaited. Findings Coronary artery calcification and emphysema measurements were similar among different CT radiation dose protocols; their automated quantification is feasible on ultra-low-dose CT. Clinical relevance Ultra-low-dose CT-based LCS might offer an opportunity to improve the secondary prevention of cardiovascular and respiratory diseases through automated quantification of both CAC burden and emphysema extent.

Longitudinal anemia status and risk for adverse outcomes in former smokers with COPD

BackgroundAnemia is a prevalent comorbidity in COPD associated with increased morbidity. However, the significance of longitudinal anemia status and variation in anemia status trends over time in COPD are not known. Furthermore, individuals with COPD and smoking history often have multiple comorbidities, in particular cardiovascular disease. The objective of this study was to evaluate the association between longitudinal anemia status and COPD outcomes, accounting for comorbid cardiovascular disease.MethodsSerial hemoglobin measures and clinical outcomes were obtained in former smokers with moderate to severe COPD from two clinical studies over a 6-to-9-month period. In the first analysis, the association between repeated measures of time-varying anemia status and outcomes was assessed by generalized estimating equations adjusted for covariates including cardiovascular disease. In the second analysis, each participant’s anemia risk profile during the study period was characterized as high versus low anemia risk-growth rate. Mean differences in the progression of COPD outcomes over time between the two groups were assessed using a generalized linear mixed model. Effect modification by baseline coronary artery calcium (CAC) burden was explored.ResultsThere were 159 individuals with mean age of 66.5 years (± 8.3) and mean FEV1% predicted of 51.4% (± 17.0), of which 41% were ever-anemic during the study period. Repeated measures of anemia status were associated with higher St. George’s Respiratory Questionnaire (SGRQ) scores (β 2.5, 95% CI: 0.1,4.8, p = 0.04), lower 6-minute walk distance (6MWD) (β -38.6, 95% CI: -67.7,-7.4, p = 0.02), and higher rate of moderate-to-severe exacerbations over the prospective follow-up period (IRR 1.8, 95% CI: 1.1,2.8, p = 0.02). There was effect modification by CAC burden such that with higher burden the mean difference in COPD outcome by anemia status was greater for a subset of symptom scores. Participants with profiles of increasing anemia risk had higher estimated rates of decline in the FEV1% predicted and 6MWD and increase in SGRQ scores compared to those with stable or decreasing anemia risk.ConclusionsLongitudinal anemia status trends may be predictive of COPD disease trajectory. Anemia status by repeated measures analysis is associated with COPD morbidity with potentially stronger associations in the setting of high CAC burden.

Coronary artery calcium on lung cancer radiation planning CT aids cardiovascular risk assessment

BackgroundPatients with non-small cell lung cancer (NSCLC) undergoing thoracic radiation are at high cardiovascular risk. Semiquantitative assessment of coronary artery calcification (CAC) on baseline planning non-gated chest computed tomography (CT) scans may help further risk stratify patients.ObjectivesThis study aimed to characterize the association between CAC and major adverse cardiovascular events (MACE; myocardial infarction or stroke) and assess the utility of semiquantitative assessment of CAC.MethodsPatients with NSCLC with non-contrast planning chest CT scans were evaluated for CAC. Planning scans were visually graded using the CAC-DRS method, stratifying patients into no, mild, moderate, and severe CAC groups. Demographics, comorbidities, and radiation treatment characteristics were gathered, and CAC groups were assessed for the incidence of MACE after initiation of radiation therapy.ResultsOut of 137 patients, 39 patients had no CAC, and 98 patients had any CAC (38 with mild CAC, 34 with moderate CAC, and 26 with severe CAC). There was 1 MACE event in the no CAC group and 11 in patients with any CAC. The presence of CAC was associated with increased MACE compared to no CAC (p = 0.034). Semiquantitative CAC analysis correlated with formal CAC scoring.ConclusionThere is a significantly lower incidence of MACE in patients with no CAC on planning CT compared to patients with higher burdens of CAC. CAC burden is an important risk factor for adverse cardiovascular events in patients with NSCLC undergoing thoracic radiation. Semiquantitative CAC scoring may be a useful proxy when formal CAC scoring is unavailable.

Abstract 4137718: Coronary Artery Calcium for Risk Stratification of Heart Failure Mortality

Background: There is increasing interest in predicting heart failure (HF), a major cause of morbidity and mortality that exerts a significant financial burden. The role of coronary artery calcium (CAC), an accessible and inexpensive test, in predicting long-term HF mortality amongst asymptomatic adults remains unknown. Objectives: To determine if CAC burden is associated with HF-related mortality in the primary prevention population. Methods: The study included 66,636 primary prevention patients from the Coronary Artery Calcium Consortium. Multivariable competing risks regression was used to assess the association between CAC and HF-related mortality adjusting for demographics and traditional risk factors. Results: The mean age was 54.4 years, 67% male, 89% white, and 55% had CAC &gt;0. A total of 260 HF-related mortality events were observed during a median follow up of 12.5 years, 75.3% of which occurred among those with a baseline CAC score &gt;100. Compared with a CAC = 0, there was a stepwise higher risk (P &lt; 0.005) of HF mortality for CAC 1-100 (subdistribution hazard ratio [SHR]: 2.27; 95% CI: 1.3-3.99), 100-400 (SHR: 3.68; 95% CI 2.1-6.43), and &gt;400 (SHR: 7.05; 95% CI 4.05-12.29). This increasing risk of HF mortality across higher CAC scores persisted across age groups, sex, and in the intermediate and high-risk groups as calculated by the pooled cohort equation (PCE) and the PREVENT equation. Conclusions: Higher CAC is associated with increasing incidence of long-term HF-related mortality in the primary prevention population, particularly intermediate and high-risk patients. Early preventive approaches in patients with high CAC must focus on preventing heart failure and ASCVD with lifestyle changes and medications.

Abstract 4134911: Coronary Artery Calcium Predicts Cardiovascular Events in Individuals with Controlled Atherosclerotic Risk Factors: A Multi-Cohort Study

Background: There is residual risk of atherosclerotic cardiovascular disease (ASCVD) that remains despite adequate risk factor (RF) control. Coronary artery calcium (CAC) has demonstrated value in ASCVD risk stratification. We evaluated the value of CAC in identifying residual risk of ASCVD events among those with traditional RF control. Methods: Participants without clinical ASCVD were pooled from the Multi-Ethnic Study of Atherosclerosis, Heinz Nixdorf Recall Study, Framingham Heart Study, and Jackson Heart Study. RF control was classified as “guideline-concordant” and “optimal” (Figure 1). Participants were stratified by the number of controlled RFs at baseline and CAC score (CAC = 0, 1-99, ≥100). Cox proportional hazards models examined the association between CAC and incident ASCVD events. Results: The study included 14,780 individuals (mean age 58 years (SD: 11), 54% female, 59% White, 27% Black, 50% CAC = 0). Over a median follow-up of 14.6 years, there were 1,441 incident ASCVD events. The distribution of CAC and ASCVD event incidence is shown in Panel A; 10% of those with 3 optimal RFs and 19% of those with 3 guideline-concordant RFs controlled had CAC &gt; 100. The rate of ASCVD events decreased with more RFs controlled and increased with higher CAC. Overall, optimal RF control was associated with lower ASCVD event rates compared to guideline-concordant control. At every level of RF control, CAC &gt; 100 was associated with increased HRs for incident ASCVD (Panel B). Those with CAC ≥ 100 and controlled RFs experienced ASCVD rates numerically comparable to or exceeding those with uncontrolled RFs but CAC = 0 (Panel A). Adjusted HR (95% CI) for ASCVD events with CAC &gt; 100 compared to CAC = 0 was 5.0 (2.0, 12.9) in optimal RF control and 3.7 (2.6, 5.4) in guideline-concordant RF control. Conclusion: There is significant heterogeneity in residual ASCVD risk among those with optimal or guideline-concordant traditional RF control and CAC can help identify this risk. Irrespective of RF control, a higher CAC burden was associated with increased ASCVD risk. Future studies could use CAC testing to identify those with higher residual ASCVD risk despite effective traditional RF control to target for novel therapies.

Coronary Artery Calcium for Risk Stratification of Heart Failure Mortality: The Coronary Artery Calcium Consortium

BackgroundThere is increasing interest in predicting heart failure (HF), a major cause of morbidity and mortality with a significant financial burden. The role of coronary artery calcium (CAC), an accessible and inexpensive test, in predicting long-term HF mortality amongst asymptomatic adults remains unknown. We aim to determine if CAC burden is associated with HF-related mortality in the CAC Consortium. Methods and ResultsThe study included 66,636 primary prevention patients from the CAC Consortium. Multivariable competing risks regression was used to assess the association between CAC and HF-related mortality adjusting for demographics and traditional risk factors. The mean age was 54.4 years, 67% male, 89% white, and 55% had CAC >0. 260 HF-related mortality events were observed during a median follow up of 12.5 years, 75.3% occurred among those with a baseline CAC score >100. Compared with CAC = 0, there was a stepwise higher risk (P < 0.005) of HF mortality for CAC 1-100 (subdistribution hazard ratio [SHR]: 2.27; 95% CI: 1.3-3.99), 100-400 (SHR: 3.68; 95% CI 2.1-6.43), and >400 (SHR: 7.05; 95% CI 4.05-12.29). This increasing risk of HF mortality across higher CAC scores persisted across age groups, sex, and in the intermediate and high-risk groups as calculated by the pooled cohort (PCE) and PREVENT equations. ConclusionsHigher CAC is associated with increasing incidence of long-term HF-related mortality in the primary prevention population, particularly intermediate and high-risk patients. Early preventive approaches in patients with high CAC must focus on preventing heart failure and ASCVD with lifestyle changes and medications.

Defining high risk in the cardiovascular-kidney-metabolic syndrome and associated cardiovascular disease outcomes

Abstract Background The American Heart Association (AHA) recently developed the cardiovascular-kidney-metabolic (CKM) syndrome construct with stages 0-4 to comprehensively characterize the spectrum of cardiovascular disease (CVD) risk [1]. CKM Stage 3 is defined by subclinical CVD or high (≥20%) estimated 10-year CVD risk according to the newly-derived PREVENT models [2]. However, within CKM Stage 3, the burden of subclinical atherosclerosis equivalent to a ≥20% estimated CVD risk, and long-term CVD outcomes associated with CKM Stage 3, are not known. Purpose To (1) characterize the distribution of subclinical atherosclerosis by coronary artery calcium (CAC) according to PREVENT estimated CVD risk categories, and (2) quantify long-term CVD risk associated with CKM Stage 3, in two international cohorts of adults without prior CVD. Methods In participants of the Multi-Ethnic Study of Atherosclerosis (MESA, age 45-84 years) and the Rotterdam Study (age ≥55 years), the burden of CAC was calculated across estimated 10-year CVD risk (low, 0 to &amp;lt;5%; borderline 5 to &amp;lt;7.5%; intermediate, 7.5 to &amp;lt;20%; high, ≥20%). Participants were categorized into CKM stages according to CVD risk factors (body mass index, waist circumference, glycemic status, blood pressure, lipids, kidney function), estimated 10-year CVD risk (by AHA PREVENT model), and presence of CAC. The association of CKM syndrome stage with fatal or nonfatal CVD outcomes was evaluated with covariate-adjusted proportional hazards regression. Results Among 6,123 MESA participants (52% female, mean age 61.4 years) and 1,691 Rotterdam Study participants (46% female, mean age 67.1 years), the distribution of CAC across absolute 10-year CVD risk categories is shown in Figure 1. In high (≥20%) CVD risk adults, CAC score ≥100 was present in 50% of MESA participants and 48% of Rotterdam Study participants. Most participants were classified as CKM Stage 3 (53% in MESA, 83% in Rotterdam). Over a median follow-up of 17.5 years in MESA, CVD events occurred in 5% of CKM Stage 0, 6% of Stage 1, 9% of Stage 2, and 26% of Stage 3 participants. Over a median follow-up of 10.2 years in the Rotterdam Study, CVD events occurred in 0% of CKM Stage 0 and 1, 8% of Stage 2, and 17% of Stage 3 participants (Figure 2). The risk of total CVD was significantly higher in CKM Stage 3 participants relative to CKM Stage 0-2 (MESA: adjusted HR 2.74, 95% CI 2.32, 3.23; Rotterdam: adjusted HR 2.18, 95% CI 1.34, 3.54). Conclusions In an international, multi-ethnic sample of middle-aged adults, adults with high (≥20%) absolute 10-year CVD risk by PREVENT had substantial burden of CAC. Adults in CKM Stage 3 had approximately 2.2- to 2.7-times higher risk for CVD, compared with adults in lower CKM stages. Accounting for estimated CVD risk and burden of cardiovascular, kidney, and metabolic risk factors informs prevention of subclinical and clinical CVD.

Prognostic Value of Coronary Artery Calcification in Patients with COVID-19 and Interstitial Pneumonia: A Case-Control Study.

Background: Patients suffering from coronavirus disease-19 (COVID-19)-related interstitial pneumonia have variable outcomes, and the risk factors for a more severe course have yet to be comprehensively identified. Cohort studies have suggested that coronary artery calcium (CAC), as estimated at chest computed tomography (CT) scan, correlated with patient outcomes. However, given that the prevalence of CAC is gender- and age-dependent, the influence of baseline confounders cannot be completely excluded. Methods: We designed a retrospective, multicenter case-control study including patients with COVID-19, with severe course cases selected based on death within 30 days or requiring invasive ventilation, whereas controls were age- and sex-matched patients surviving up to 30 days without invasive ventilation. The primary outcome was the analysis of moderate-to-severe CAC prevalence between cases and controls. Results: A total of 65 cases and 130 controls were included in the study. Cases had a significantly higher median pulmonary severity score at chest CT scan compared to controls (10 vs. 8, respectively; p = 0.0001), as well as a higher CAC score (5 vs. 2; p = 0.009). The prevalence of moderate-to-severe CAC in cases was significantly greater (41.5% vs. 23.8%; p = 0.013), a difference mainly driven by a higher prevalence in those who died within 30 days (p = 0.000), rather than those requiring invasive ventilation (p = 0.847). White blood cell count, moderate-to-severe CAC, the need for antibiotic therapy, and severe pneumonia at CT scan were independent primary endpoint predictors. Conclusions: This case-control study demonstrated that the CAC burden was higher in COVID-19 patients who did not survive 30 days or who required mechanical ventilation, and CAC played an independent prognostic role.

Prevalence of coronary artery calcification in patients with end-stage renal disease undergoing dialysis and the association of various risk factors with the development of coronary artery calcification in this patient population

Background: Patients with end-stage renal disease (ESRD) on dialysis exhibit a significantly higher risk of coronary artery calcification (CAC) than age-matched normal individuals, contributing to elevated cardiovascular morbidity and mortality. Aims and Objectives: This study designed to assess the prevalence of CAC in ESRD patients on dialysis and identify associated risk factors. Materials and Methods: Fifty ESRD patients undergoing maintenance dialysis and twenty normal subjects were included in this cross-sectional observational study. Serum calcium, phosphate, and parathyroid hormone were measured in all ESRD patients and normal controls. Multi Row Spiral Computed Tomography was performed to determine CAC scoring (CACS). Results: CACS was significantly higher in ESRD patients compared to normal subjects (mean CACS: 91.4±32.7 vs. 7.75±9.5 Agatston units, P&lt;0.05). Elevated levels of calcium phosphate products, serum leptin, intact parathyroid hormone (iPTH), presence of diabetes mellitus, and longer duration of dialysis were correlated with increased incidence of CACS in ESRD patients, as indicated by higher odd’s ratios ranged from 1.10 to 6.93. Conclusion: CAC is highly prevalent in ESRD patients on dialysis, emphasizing the need for stringent risk factor management. Our findings suggest that controlling calcium phosphate product, serum leptin, age, iPTH levels, and duration of dialysis may reduce CAC burden in this population, potentially mitigating cardiovascular risk and improving outcomes.

Coronary artery calcium score and other risk factors in patients at moderate and high risk of cancer therapy-related cardiovascular toxicity

BackgroundThe presence and burden of coronary artery calcium (CAC) is a strong predictor of cardiovascular events. Current guidelines of the European Society of Cardiology (ESC) for cardio-oncology do not recommend the use of the CAC score to determine the status of risk in cancer patients. The aim of this study is to evaluate the presence and burden of CAC on cardiac tomography and the distribution of the cardiovascular toxicity risk factors in patients with moderate and high baseline risk of cancer therapy-related cardiovascular toxicity.MethodsThe study prospectively included cancer patients, diagnosed and qualified for systemic treatment with anthracycline chemotherapy. Clinical data and blood samples were collected from all patients. Additionally, the echocardiography and coronary computed tomography (CCTA) with the calculation of the coronary artery calcium (CAC) score were performed.ResultsA total of 80 patients (mean age 60.5 years, 75 female) were included in the study. The majority of patients (62, 77.5%) had breast cancer, 11 (13.8%) were diagnosed with sarcoma, and 7 (8.8%) with lymphoma. There were 42 (52.5%) patients classified as having moderate (MR) and 38 (47.5%) as having high risk (HR) of cancer therapy-related cardiovascular toxicity according to current ESC guidelines. In comparison with moderate risk, high risk patients were older and more likely to have hypertension, hyperlipidaemia and chronic kidney disease. The mean coronary artery calcium score was significantly higher in the HR group (150.4 vs. 24.8; p = 0.000). Furthermore, cardiac biomarkers were also higher in high-risk patients (p = 0.000). In echocardiographic parameters global longitudinal strain (GLS) was lower (p = 0.012), and diastolic dysfunction was more common in the HR group. However, the left ventricle ejection fraction (LVEF) was similar in the MR and HR groups.ConclusionsIn patients at high and moderate risk for cancer therapy-related cardiovascular toxicity, cardiovascular toxicity risk factors were common and more prevalent in the high-risk group. The coronary artery calcium score was also significantly higher in the high-risk group. Assessing the presence and burden of coronary artery calcium is an attractive option to assess additional cardiovascular risk in cancer patients.

3D Landmark scout imaging accurately assesses presence and extent of coronary calcification with lower radiation exposure

BackgroundCardiac CT for coronary artery calcium (CAC) scoring exposes patients to 1 ​mSv of radiation. A new CT scout method utilizing ultra-low dose CT (3D Landmark) offers tomographic cross-sectional imaging, which provides axial images from which CAC can be estimated. The purpose of our study is to analyze the association between estimated CAC burden on 3D Landmark scout imaging vs dedicated ECG-gated CACS. MethodsConsecutive patients over a 9-month period undergoing non-contrast ECG-gated CACS planned with 3D Landmark scout imaging were included. Extent of CAC on 3D Landmark scout imaging was scored from 0 to 3 (none, mild, moderate, severe). Agatston CACS was converted to an ordinal score from 0 to 3, corresponding to absent (0), mild (1–99), moderate (100–400), or severe (>400). Fischer's exact test, weighted kappa coefficient, and paired t-tests were used for analysis. ResultsOf 150 patients, 51.3% were female with mean age 49.0 ​± ​16.8 and BMI 28.6 ​± ​12.3. Sensitivity of 3D Landmark in identifying calcium was 96.2%, with specificity of 100%. There was strong interrater agreement between 3D Landmark calcium scoring and CACS, with weighted kappa coefficient 0.97 ​± ​0.01(CI 0.95–0.99).Radiation dose-length-product was significantly lower for 3D Landmark imaging vs. dedicated ECG-gated CACS (9.7 ​± ​3.6 vs 43.8 ​± ​26.4 ​mGy ​cm, p ​< ​0.001) despite longer scan length (465.0 ​± ​160.8 vs 123.0 ​± ​12.7 ​mm, respectively). ConclusionEstimated coronary artery calcium on 3D Landmark scout images correlates strongly with Agatston CACS, demonstrating utility in assessing cardiovascular risk without introducing additional radiation or costs.

Relationship Between Calcified Plaque Burden, Vascular Inflammation, and Plaque Vulnerability in Patients With Coronary Atherosclerosis

BackgroundCoronary artery calcification is an integral part of atherosclerosis. It has been suggested that early coronary artery calcification is associated with active inflammation, and advanced calcification forms as inflammation subsides. Inflammation is also an important factor in plaque vulnerability. However, the relationship between coronary artery calcium burden, vascular inflammation, and plaque vulnerability has not been fully investigated. ObjectivesThis study aimed to correlate calcified plaque burden (CPB) at the culprit lesion with vascular inflammation and plaque vulnerability. MethodsPatients with coronary artery disease who had both computed tomography angiography and optical coherence tomography were included. The authors divided the patients into 4 groups: 1 group without calcification at the culprit lesion; and 3 groups based on the CPB tertiles. CPB was calculated as calcified plaque volume divided by vessel volume in the culprit lesion. The authors compared pericoronary adipose tissue (PCAT) attenuation for vascular inflammation and optical coherence tomography–derived vulnerable features among the 4 groups. ResultsAmong 578 patients, the highest CPB tertile showed significantly lower PCAT attenuation of culprit vessel compared with the other groups. The prevalence of features of plaque vulnerability (including lipid-rich plaque, macrophage, and microvessel) was also lowest in the highest CPB tertile. In the patients with calcification, higher age, statin use, and lower PCAT attenuation were independently associated with CPB. ConclusionsGreater calcium burden is associated with a lower level of vascular inflammation and plaque vulnerability. A greater calcium burden may represent advanced stable plaque without significant inflammatory activity. (Massachusetts General Hospital and Tsuchiura Kyodo General Hospital Coronary Imaging Collaboration; NCT04523194)

Coronary artery calcification burden, atherogenic index of plasma, and risk of adverse cardiovascular events in the general population: evidence from a mediation analysis

BackgroundDyslipidemia and abnormal cholesterol metabolism are closely related to coronary artery calcification (CAC) and are also critical factors in cardiovascular disease death. In recent years, the atherogenic index of plasma (AIP) has been widely used to evaluate vascular sclerosis. This study aimed to investigate the potential association of AIP between CAC and major adverse cardiovascular events (MACEs).MethodsThis study included 1,121 participants whose CACs were measured by multislice spiral CT. Participants’ CAC Agatston score, CAC mass, CAC volume, and number of vessels with CACs were assessed. AIP is defined as the base 10 logarithm of the ratio of triglyceride (TG) concentration to high-density lipoprotein-cholesterol (HDL-C) concentration. We investigated the multivariate-adjusted associations between AIP, CAC, and MACEs. The mediating role of the AIP in CAC and MACEs was subsequently discussed.ResultsDuring a median follow-up of 31 months, 74 MACEs were identified. For each additional unit of log-converted CAC, the MACE risk increased by 48% (HR 1.48 [95% CI 1.32–1.65]). For each additional unit of the AIP (multiplied by 10), the MACEs risk increased by 19%. Causal mediation analysis revealed that the AIP played a partial mediating role between CAC (CAC Agatston score, CAC mass) and MACEs, and the mediating proportions were 8.16% and 16.5%, respectively. However, the mediating effect of CAC volume tended to be nonsignificant (P = 0.137).ConclusionsAn increased AIP can be a risk factor for CAC and MACEs. Biomarkers based on lipid ratios are a readily available and low-cost strategy for identifying MACEs and mediating the association between CAC and MACEs. These findings provide a new perspective on CAC treatment, early diagnosis, and prevention of MACEs.

Integrating cardiovascular risk assessment into mobile low-dose CT lung screenings in rural Appalachia: A comprehensive analysis of the relationship between lung cancer risk, coronary artery calcium burden, and cardiovascular risk reduction strategies

ObjectiveMobile low-dose computed tomography (LDCT) lung screenings are part of an outreach program in rural Appalachia to detect early lung cancer. Coronary artery calcium (CAC) scoring on LDCT can identify calcium deposits in coronary arteries and can prompt consideration of risk modification for prevention of cardiovascular disease (CVD) events. It is not known if Lung CT Screening Reporting & Data System (Lung-RADS) scoring correlates with CAC scores. There is no clear guidance for patients undergoing LDCT screenings to receive follow-up regarding CAC or prevention of associated CVD risk. MethodsThis was a retrospective review of mobile LDCT LCS in adults with no known history of CVD. CT images were obtained at 100 kVp with a slice thickness of 3 mm. Agatston CAC scoring was performed retroactively. Lung-RADS scores were categorized as: Negative (1), Benign (2), Probably Benign (3), and Suspicious (4). CAC scoring was grouped as 0, 1–100, 101–399, and ≥400. Descriptive statistics and chi-square analyses were utilized. ResultsA total of 526 LDCT screenings were included. Over 54 % of patients had coronary calcification on LDCT LCS. 161 patients (30.6 %) had a CAC score of ≥100 and 75 patients (14.3 %) had a CAC score ≥400. Of patients with a CAC score ≥100, 7.5 % received referrals for follow-up after the LDCT screen and 9.3 % had additional cardiac testing. Of those with a CAC score ≥100 not already on a statin (45.3 %) and not already on aspirin (63.3 %), few were started within 3 months of LDCT for prevention (8.2 % and 5.9 % respectively). Among patients with a Lung-RADS score of 4, 17 % had a CAC score >400, whereas only 12 % with a Lung-RADS score of 1 fell into the same CAC category. Higher Lung-RADS scores correlated with fewer patients with CAC of 0. A significant correlation was observed between higher Lung-RADS scores and elevated CAC scores (p = 0.02). ConclusionIn patients with no CVD history, coronary artery calcification was frequently identified on mobile LDCT lung screenings in rural communities. Patients with higher probabilities of malignant lung nodules may also be at increased risk for significant coronary artery disease. Calcium scoring from LDCT screenings allowed for simultaneous assessment of lung cancer and CVD risk. Unfortunately, few referrals or CVD prevention medications were initiated. Awareness of CAC score utility, follow-up for identified coronary calcifications, and consideration of primary prevention medications when indicated, would be beneficial in patients undergoing LDCT lung screenings, especially in rural areas with limited healthcare access.

Laboratory parameters associated with elevated coronary artery calcium burden in patients with newly diagnosed type 2 diabetes mellitus

Laboratory parameters associated with elevated coronary artery calcium burden in patients with newly diagnosed type 2 diabetes mellitus

Abstract 6294: Subclinical atherosclerosis in newly diagnosed colorectal cancer patients

Abstract Introduction: Recent advances in early detection and treatment have improved survival rates for patients with colorectal cancer (CRC), and emerging data suggests patients may be at elevated risk of cardiovascular disease (CVD). However, there are no standard recommendations for assessing CVD risk in patients with CRC. Coronary artery calcium (CAC) is a measure of the quantity of coronary artery calcification using noninvasive scanning and has been shown to be predictive of CVD risk. This prospective cohort study utilizes CAC to evaluate the occurrence of subclinical atherosclerosis at the time of CRC diagnosis and the risk of major adverse cardiovascular events (MACE). Methods: The ColoCare Study is a prospective cohort study across six U.S. and European sites. Data from one of the ColoCare consortium sites in Los Angeles, California was analyzed. Adults with newly diagnosed stage I- IV colorectal cancer and available non-contrast CT scans were included. Electronic medical records were reviewed for assessment of baseline cardiovascular risk factors and adverse events. Subclinical atherosclerosis was defined as the presence of CAC (CAC&amp;gt;0). CAC was manually measured from routine oncologic diagnostic CT and PET-CT scans at the time of cancer diagnosis using the Agatston method. MACE was defined as hospitalization due to heart failure, cardiomyopathy, ischemic heart disease, or ischemic stroke after the diagnosis of CRC cancer. Multivariable-adjusted Cox regression was used to evaluate the association between CAC at diagnosis and the risk of MACE. Results: Among 109 individuals with CAC measured at the time of CRC diagnosis, 41 (37.6%) had subclinical atherosclerosis (CAC=1-399 [n=29], CAC&amp;gt;400 [n=12]). Individuals with CAC&amp;gt;0 were older (67.0 vs. 51.9 years, p&amp;lt;0.01), more likely to be former or current smokers (48.0 vs. 29.0 years, p=0.04), and to have hypertension (61% vs. 23%, p&amp;lt;0.01) compared to those without CAC (CAC=0). Among individuals with CAC (n=41), 51.2% had scores &amp;gt;100, and 29.2% had scores &amp;gt;400, indicating moderate and severe atherosclerosis respectively. Among patients with moderate or greater CAC burden (&amp;gt;100; statin therapy indicated), 28.6% were not on statin therapy. CAC&amp;gt;0 was associated with an increased incidence of MACE (13% vs. 53%, p&amp;lt;0.01). Discussion: Subclinical atherosclerosis was observed in nearly 40% of patients with CRC at diagnosis and MACE occurred in 38.2% of patients. Most patients were under-optimized for CVD risk, with nearly 30% of statin-eligible patients with at least moderate CAC burden not prescribed statin therapy. These findings highlight an opportunity for improved CVD risk mitigation in patients with CRC, including guidelines-based CVD risk factor modification. Citation Format: Julia A. Levy, Maimoona Nadri, Elham Kazemian, Katelyn M. Atkins, Jordan O. Gasho, Katrina D. Silos, Cody Ramin, Andriana P. Nikolova, Erin M. Siegel, Biljana Gigic, Adetunji T. Toriola, Jennifer Ose, Christopher I. Li, David Shibata, Cornelia M. Ulrich, Jane C. Figueiredo. Subclinical atherosclerosis in newly diagnosed colorectal cancer patients [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 6294.