Congenitally corrected transposition of the great arteries: is it really a transposition? An anatomical study of the right ventricular septal surface

摘要

Abstract Congenitally corrected transposition of the great arteries (cc TGA ) is a rare congenital malformation which associates discordant atrioventricular and ventriculo‐arterial connections. Although frequently associated with a ventricular septal defect ( VSD ), its anatomy remains controversial. This could be due in hearts with usual atrial arrangement to the apparently different anatomy of the left‐sided right ventricle compared with a right‐sided right ventricle. We wanted to compare the RV septal anatomy between cc TGA , transposition of the great arteries and normal heart and to determine the anatomy of the VSD in cc TGA . We analysed 102 human heart specimens: 31 cc TGA , 36 transpositions of the great arteries, 35 normal hearts. According to the last classification of VSD ( ICD ‐11), VSD were classified as outlet if located above the superoseptal?commissure of the tricuspid valve and inlet if underneath. We measured the lengths of the superior and inferior limbs of the septal band and the angle between the two limbs. To assess the orientation of the septal band, we also measured the angle between superior limb and the arterial valve above. A VSD was present in 26 cc TGA (84%) and was an outlet VSD in 16 cases (61%). The mean angle between the two limbs of the septal band was 76.4° for cc TGA compared with 90.6° for transposition of the great arteries ( P ?=?0.011) and 76.1° for normal hearts ( P = NS). The mean angle between the superior limb of the septal band and the arterial valve above was 70.6° for cc TGA compared with 90.6° for transposition of the great arteries ( P ?=?0.0004) and 69.1° for normal hearts ( P= NS ). The inferior limb of the septal band was significantly shorter in cc TGA ( P ??0.0003): SL / IL length ratio was 21.4 for cc TGA , 2.2 for transposition of the great arteries and 1.5 for normal hearts. The typical VSD in cc TGA is an outlet VSD . Its frequent misdiagnosis as an inlet VSD might be explained by the shortness of the inferior limb, which creates the illusion of a posterior VSD , and by the fact that the VSD is usually assessed from the left ventricular aspect. Surprisingly, the orientation of the septal band is similar in cc TGA and normal heart, despite the discordant atrioventricular connections, and different in cc TGA and transposition of the great arteries, despite the discordant ventriculo‐arterial connections. These findings suggest that the mechanism leading to transposition in cc TGA and in TGA probably is different. The term ‘double discordance’ might therefore be more appropriate as a description of this complex anomaly.