Peter A Zartner1, Martin B Schneider2, Boulos Asfour3, Viktor Hraška3. 1. Department of Cardiology, German Pediatric Heart Center, Sankt Augustin, Germany p.zartner@asklepios.com p.zartner@zartnet.de. 2. Department of Cardiology, German Pediatric Heart Center, Sankt Augustin, Germany. 3. Department of Cardiothoracic Surgery, German Pediatric Heart Center, Sankt Augustin, Germany.
Abstract
OBJECTIVES: Patients with congenitally corrected transposition of the great arteries (ccTGA) without ventricular septal defect or left ventricular outflow tract obstruction need training of the morphological left ventricle (mLV) to undergo a double switch operation (DS) (atrial plus arterial switch). Establishing a sufficient gradient by pulmonary artery banding (PAB) is difficult and multiple re-pulmonary artery bandings (re-PABs) may be necessary to achieve the required physiology. We evaluate a new approach, consisting of a loose PAB in combination with an artificial atrial septal defect (aASD) to not only increase afterload but to dynamically enhance preload as well, in terms of the effectiveness of training of the mLV and the subsequent functional outcome after a DS. METHODS: Six consecutive patients under 6 years of age with ccTGA, who were eligible for anatomical correction, underwent enhanced left ventricular training (eLVT). Four of these patients had failed to reach sufficient mLV pressure by PAB only. RESULTS: Required systemic pressures in the mLV were achieved after a mean of 1.2 years of eLVT with no further re-PAB necessary in any patient. All patients underwent a successful DS with an uneventful postoperative period. At a mean follow-up period of 1.9 (range 0.4-3.8) years, stable LV cardiac function was observed in all patients. CONCLUSIONS: The eLVT provides additional training of the mLV to bring patients to a DS. Even in situations when isolated conventional PAB is not effective enough, the novel combination of pressure and volume loading may help with LV retraining and reduce the need for sequential pulmonary band tightening.
OBJECTIVES:Patients with congenitally corrected transposition of the great arteries (ccTGA) without ventricular septal defect or left ventricular outflow tract obstruction need training of the morphological left ventricle (mLV) to undergo a double switch operation (DS) (atrial plus arterial switch). Establishing a sufficient gradient by pulmonary artery banding (PAB) is difficult and multiple re-pulmonary artery bandings (re-PABs) may be necessary to achieve the required physiology. We evaluate a new approach, consisting of a loose PAB in combination with an artificial atrial septal defect (aASD) to not only increase afterload but to dynamically enhance preload as well, in terms of the effectiveness of training of the mLV and the subsequent functional outcome after a DS. METHODS: Six consecutive patients under 6 years of age with ccTGA, who were eligible for anatomical correction, underwent enhanced left ventricular training (eLVT). Four of these patients had failed to reach sufficient mLV pressure by PAB only. RESULTS: Required systemic pressures in the mLV were achieved after a mean of 1.2 years of eLVT with no further re-PAB necessary in any patient. All patients underwent a successful DS with an uneventful postoperative period. At a mean follow-up period of 1.9 (range 0.4-3.8) years, stable LV cardiac function was observed in all patients. CONCLUSIONS: The eLVT provides additional training of the mLV to bring patients to a DS. Even in situations when isolated conventional PAB is not effective enough, the novel combination of pressure and volume loading may help with LV retraining and reduce the need for sequential pulmonary band tightening.
Authors: Viktoria H M Weixler; Peter Kramer; Peter Murin; Olga Romanchenko; Mi-Young Cho; Stanislav Ovroutski; Michael Hübler; Felix Berger; Joachim Photiadis Journal: Pediatr Cardiol Date: 2022-02-11 Impact factor: 1.838