Risk factors for coronary artery complications after prosthetic pulmonary valve implantation in congenital heart diseases

Abstract

Abstract Background The incidence and risk factors for coronary artery complications in patients who underwent pulmonary valve replacement or valved conduit interposition for congenital heart diseases were unknown. Purpose This study was an extension of the previous study† to investigate the incidence and risk factors of coronary artery complications among patients who underwent prosthetic pulmonary valve implantation. Methods Retrospective cohort study was performed for the patients who underwent cardiac CT or invasive coronary angiography after the prosthetic pulmonary valve implantation at the tertiary referral hospital from June 1986 to May 2021. The rotation angle of the aorta and angles of both coronary artery orifices were measured on a Picture Archiving and Communication System (Figure 1). The Cox regression analysis was used to identify variables predicting the occurrence of coronary artery complications. Survival rates were assessed by Kaplan-Meier analysis. Results Coronary artery complications were identified in 25 patients among the 341 patients (7.3%), and two of them died. The median age at diagnosis of coronary artery complications was 20 years (interquartile range: 12.5-25 years). The coronary artery complication-free survival rate was predicted to be 97.3% at 5 years, 92.5% at 10 years, 85.5% at 20 years, and 61.1% at 30 years. The risk of cardiac death was 1.865 times higher [95% CI: 0.403, 8.628] in patients with coronary artery complications than in those without it; nevertheless, the difference was not statistically significant (p-value = 0.425). Among the patients with coronary artery complications, congenital coronary anomalies were identified in 11 (44 %), interarterial course of coronary artery in 18 (72 %), and intramural course in 4 patients (16%). Interarterial course and intramural course of the coronary artery were associated with a 4.4 and 10.6-fold increased risk of coronary artery complications, respectively. When subgroup analysis was performed in patients with tetralogy of Fallot and pulmonary atresia, the aortic root rotated more clockwise in patients with coronary artery compression than in patients without it (128.0°± 19.9° versus 113.5°± 23.7°, p-value = 0.024). The cut-off value of the rotation angle to predict the occurrence of coronary artery compression was 133˚ (Figure 2). Conclusion Preoperative and postoperative long-term coronary assessment should be performed in patients with conotruncal anomalies undergoing prosthetic pulmonary valve implantation, especially in those with abnormal courses of coronary arteries or severe rotation of aortic root. The rotation angle of aorta could be measured on cardiac CT angiography prior to surgery, and the location of the prosthetic valve or conduit should be carefully determined.Measurement of anglesKaplan-Meier curves