Objectives: Aortic arch repair has been shifted from deep hypothermia plus circulatory arrest to cerebral perfusion at tepid temperatures. A step forward is a simultaneous brain-coronary perfusion, allowing beating-heart arch surgery.
Methods: A 'Y' cannula from the arterial line delivers oxygenated blood to brain and heart. The arch is repaired on a beating heart at 25°C. Intracardiac repair is performed after running cardioplegia through the root line. Fifty patients are classified into 3 groups: A, Norwood (8 neonates); B, aortic arch (14 children) and C, aortic arch plus intracardiac repair (28 patients). Associated anomalies in Group C are as follows: ventricular septal defect (10), arterial switch (5), atrial septal defect (4), cor triatriatum (3), aortic commissurotomy (2), comprehensive repair (2), ostium primum (1) and Yasui (1).
Results: The mean bypass time was 161 ± 54.44 (range 93-312) min. Mean brain-coronary perfusion was 37.26 ± 10.54 (18-60) min. Mean coronary ischaemia was 31 ± 32.40 (0-160) min. The heart was not arrested in Group B patients. Follow-up was complete for a mean of 30 (1-48) months. Four patients died in the postoperative period. Two required angioplasty for recoarctation.
Conclusions: Selective brain-coronary perfusion is feasible and easy to switch to conventional cardioplegia delivery. Coronary ischaemia can be notably reduced and even 0 min in isolated arch surgery.