Background: Multiple muscular ventricular septal defects (VSDs) are often difficult to visualize and access surgically. The main challenge is identifying all defects intraoperatively, without which residual defects are inevitable. Patient-specific three-dimensional (3D) printed models can help accurately demonstrate intracardiac anatomy. We present our experience using this technology to surgically close multiple muscular VSDs .
Methods: Data of all patients with multiple VSDs in whom a 3D-printed model was used to aid surgical planning between September 2021 and July 2023 was collected retrospectively. Our approach involved generating a 3D model from a preoperative computerized tomography scan for each patient, which was then used to precisely identify the location of the multiple VSDs and plan surgical intervention.
Results: Six patients underwent closure of multiple VSDs using a 3D model. The mean age at surgery was 3.5 years (SD ± 2.8 years). Five (83.3%) patients had previously undergone pulmonary artery banding. The VSDs were approached through the right atrium in three (50%) and the right ventricle in three (50%) patients. Mean cardiopulmonary bypass and myocardial ischemia times were 185.2 min (SD ± 94.8 min) and 147.5 min (SD ± 86 min), respectively. There was no postoperative heart block or a hemodynamically significant residual VSD. All six patients had normal biventricular function at a median follow-up duration of 1.7 months (interquartile range: 1.2-7.4 months).
Conclusion: 3D printing to aid closure of multiple VSDs is safe, reliable, and reproducible. We recommend adding 3D printing to surgeons' armamentarium when faced with the challenge of closing multiple muscular VSDs in children.
Keywords: multiple; surgery; three-dimensional; ventricular septal defect.