Funding Acknowledgements Type of funding sources: None. Background. The value of serial coronary artery calcium (CAC) scores to predict changes in absolute myocardial perfusion and epicardial vasomotor function is poorly documented. Purpose. This study explored the association between progression of CAC score and changes in absolute myocardial perfusion. Methods. Fifty-three patients with single-vessel coronary artery disease (CAD) underwent [15O]H2O Positron Emission Tomography/Computed Tomography at 1 month (baseline), 1 year, and 3 years after percutaneous coronary intervention (PCI) to assess CAC scores, hyperemic myocardial blood flow (hMBF), coronary flow reserve (CFR) and cold pressor test MBF (CPT-MBF), within the context of the VANISH (Impact of Vascular Reparative Therapy on Vasomotor Function and Myocardial Perfusion) trial. Relationships between baseline CAC score and evolution of perfusion indices were explored with a mixed model-analysis. Results. Baseline CAC score was 0 in 9%, 0.1-99.9 in 40%, 100-399.9 in 36% and ≥400 in 15% of patients, respectively. In higher baseline CAC groups, scores increased more over time (overall p < 0.01). Mixed model-analysis allowed for averaging perfusion indices over all time points: hMBF (3.74 ± 0.83; 3.33 ± 0.79; 3.08 ± 0.78 and 2.44 ± 0.74 mL·min-1·g-1) and CFR (3.82 ± 1.12; 3.17 ± 0.80; 3.19 ± 0.81; 2.63 ± 0.92) were lower among higher baseline CAC groups (p < 0.01; p = 0.03). However, no significant interaction was found between baseline CAC groups and time after PCI for all perfusion indices, denoting that evolution of perfusion indices over time were not significantly different between CAC groups. Furthermore, CAC progression was not correlated with evolution of hMBF (r = 0.08, p = 0.57), CFR (r = 0.09, p = 0.53) or CPT-MBF (r = 0.03, p = 0.82) during 3 years follow-up. Conclusions. Higher baseline CAC was associated with lower hMBF and CFR. However, both baseline CAC and its progression were not associated with evolution of absolute hMBF, CFR and CPT-MBF over time, suggesting that CAC score and progression of CAC are poor indicators of change in absolute myocardial perfusion.
Funding Acknowledgements Type of funding sources: None. Background Inflammation is a key component in the atherosclerotic process, initiating and sustaining plaques and serving as a trigger for plaque rupture leading to myocardial infarction. Coronary computed tomography angiography (CCTA) derived pericoronary adipose tissue attenuation (PCATa) has been proposed as surrogate marker for coronary inflammation and might improve risk assessment on top of CCTA derived cardiovascular risk-factors: atherosclerotic burden and plaque vulnerability. Purpose To assess the prognostic value of PCATa beyond atherosclerotic burden and high-risk plaques (HRPs). Methods A total of 543 patients who underwent CCTA because of suspected CAD were included. CCTA assessment comprised coronary artery calcium score (CACS), presence of obstructive CAD (≥50% stenosis) and HRPs, total plaque volume (TPV), non-calcified plaque volume (NCPV), and PCATa. The endpoint was a composite of death and non-fatal myocardial infarction (MI). Prognostic thresholds were determined for quantitative CCTA variables. Results During a median follow-up of 6.6 [interquartile range: 4.7-7.8] years, the endpoint was observed in 42 (20 MI/22 death) patients. CACS >83, obstructive CAD, HRPs, TPV >269mm3, and NCPV >83mm3 were associated with shorter time to the endpoint with unadujsted hazard ratio’s (HR) of 5.37 (95% confidence interval (CI): 2.56-11.29), 5.70 (95% CI: 2.40-13.55), 3.31 (95% CI: 1.80-6.07), 7.76 (95% CI: 3.59-16.81), and 6.77 (95% CI: 3.24-14.16), respectively (p < 0.001 for all). PCATa of the RCA >-74.4 Hounsfield units was associated with worse prognosis (unadjusted HR: 1.99, 95% CI: 1.04-3.79, p = 0.037), whereas PCATa of the LAD and Cx were not associated with prognosis. PCATa of the RCA remained a significant predictor of death and non-fatal MI corrected for CCTA variables and clincal chacteristics associated with the endpoint (adjusted HR: 2.11, 95% CI: 1.11-4.04, p = 0.024). Conclusion Coronary inflammation determined by PCATa of the RCA provides incremental prognostic value beyond clinical characteristics and comprehensive CCTA assessment. Abstract Figure. Take-home figure
Funding Acknowledgements Type of funding sources: None. Background. Coronary flow capacity (CFC) combines absolute hyperemic myocardial blood flow (hMBF) and coronary flow reserve (CFR) in a graphical representation of the severity of myocardial perfusion impairment. Studies evaluating the impact of coronary revascularization on CFC as assessed by [15O]H2O positron emission tomography (PET) are lacking. Purpose. The present study explored the impact of coronary revascularization on regional, artery-specific CFC as assessed by [15O]H2O PET. Methods. A total of 315 patients (mean age 62 ± 10 years) underwent absolute myocardial perfusion imaging at baseline and directly after either percutaneous or surgical coronary revascularization (at 110 ± 50 days). Revascularized perfusion regions were stratified in 3 CFC groups at baseline: severely reduced CFC (defined as myocardial ischemia), moderately reduced CFC and normal CFC. Results. Baseline CFC was severely reduced in 262 vessels (70%), moderately reduced in 95 vessels (25%) and normal in 17 vessels (5%). Regional, artery-specific CFC, hMBF and CFR improved after successful revascularization (P < 0.01). In 127/262 regions, CFC increased from severely reduced to moderately reduced and in 29/262 to normal flow after revascularization (p < 0.01 for both). Additionally, 28/95 revascularized regions increased from moderately reduced to normal flow (P = 0.18). Changes in hMBF (severe vs. moderate vs. normal: 0.84 ± 0.73; 0.41 ± 0.60 and 0.35 ± 0.84 mL·min-1·g-1 ) and CFR (0.92 ± 0.83; 0.49 ± 1.00 and -0.39 ± 1.15) were significantly different comparing baseline CFC groups (both p < 0.01). Furthermore, mixed-model analysis including traditional CAD risk factors revealed that baseline CFC and gender were independent predictors of changes in CFC, hMBF and CFR between baseline and follow-up. Conclusions. Successful revascularization demonstrated a significant and positive impact on regional, artery-specific CFC, hMBF and CFR. Improvements were largest among lower baseline CFC groups. Furthermore, baseline CFC was an independent predictor of change in CFC, hMBF and CFR. These results suggest that the assessment of flow capacity by [15O]H2O PET prior to revascularization may aid in the selection of regions in which absolute myocardial perfusion is most likely to improve. Abstract Figure 1.
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