Abstract
Abstract Background Staging classification for severe aortic stenosis (AS) based on the extent of cardiac damage has been correlated with outcomes in the general population. This is categorized based on the following echocardiographic findings: stage 1 (increase in the left ventricular mass index; E/e’>14; and left ventricular ejection fraction <50%); stage 2 (left atrial volume index >34ml/m2; moderate to severe mitral regurgitation and atrial fibrillation), stage 3 (systolic pulmonary hypertension> 60mmHg and moderate to severe tricuspid regurgitation) and stage 4 (moderate to severe right ventricular dysfunction); its applicability in a cancer population exposed to chemo+/- radiotherapy and its correlation with MACE has not been explored. Purpose To evaluate if this staging system predicts MACE (cardiovascular death, myocardial infarction, coronary revascularization, stroke, and hospitalization for heart failure) at 18 months after TAVR in cancer patients who were previously exposed to cardiotoxic therapies. Methods We retrieved data of patients that underwent TAVR from 2013 to 2021. 544 patients were included in this study and divided in 3 groups: 187 patients with prior chest Radiotherapy and Chemotherapy (RT/CT), 155 with CT only, and 202 cancer patients not exposed to CT or RT control group. This was further subdivided in two groups based on the staging system in: stage ≤ 2 and ≥3. Fisher's exact test or chi-square was used to compare categorical variables and clinical outcomes among groups and ANOVA for continuous variables. Echocardiographic findings and correlation with the outcome were evaluated by a multivariable Cox model analysis and assessed by a proportional hazards model for time to event. Kaplan–Meier curves were performed to determine the event-free survival rate. Significance was considered as a p<0.05. Results RT/CT had a higher prevalence of moderate to severe mitral regurgitation (11.8%) p <0.001 and tricuspid regurgitation (13.9%) p=0.02. Stage ≥3 was (24.1%) in the RT/CT, (9.4%) in CT, and (16.1%) in controls p= 0.004. Additionally, stage ≥3 was a predictor of MACE at 18 months: RT/CT group HR 6.43 (3.06 – 13.1) p<0.001, CT HR 4.49 CI (2.27 – 8.89) p<0.001 and control HR 2.20 CI (1.13 – 4.26) p=0.02 (Table 1). MACE at 18 months for stage ≥3 was higher for all groups vs. stage ≤ 2. MACE at 18 months after TAVR was significantly higher in stage >3 for RT/CT (57.4%) and CT only (61.2%) vs. CL (27.2%) p<0.001 (Figure 1B). Conclusions In addition to predicting aortic stenosis risk in cancer patients before TAVR, cardiac damage staging is a strong predictor of MACE at 18 months in patients post-RT/CT and CT and suggests that these patients may benefit from earlier stratification for TAVR prior to reaching stage 3. Future studies with longer follow-up should be explored to evaluate its usefulness in this complex population.
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