Surgical Closure of Multiple Muscular Ventricular Septal Defects in Children Using 3D-Printed Models.

World journal for pediatric & congenital heart surgery Pub Date : 2025-01-01 Epub Date: 2024-10-14 DOI:10.1177/21501351241278584

Shalom Andugala, Caroline Grant, Jennifer Powell, Supreet Marathe, Prem Venugopal, Nelson Alphonso

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Abstract

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.

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利用三维打印模型对儿童多发性肌性室间隔缺损进行手术封堵。

背景：多发性肌性室间隔缺损（VSD）通常难以观察和手术。主要挑战在于术中识别所有缺损，否则残余缺损将不可避免。患者特异性三维（3D）打印模型有助于准确显示心内解剖结构。我们介绍了使用该技术手术关闭多发肌性 VSD 的经验：我们回顾性地收集了 2021 年 9 月至 2023 年 7 月期间所有使用三维打印模型辅助手术规划的多发性 VSD 患者的数据。我们的方法是根据每位患者的术前计算机断层扫描生成三维模型，然后利用该模型精确确定多发性 VSD 的位置并制定手术干预计划：结果：六名患者使用三维模型进行了多发性 VSD 的闭合手术。手术时的平均年龄为 3.5 岁（SD ± 2.8 岁）。五名患者（83.3%）曾接受过肺动脉束扎术。3名患者（50%）从右心房进入 VSD，3名患者（50%）从右心室进入 VSD。心肺旁路和心肌缺血的平均时间分别为 185.2 分钟（SD ± 94.8 分钟）和 147.5 分钟（SD ± 86 分钟）。术后无心脏传导阻滞或血流动力学意义上的残留 VSD。中位随访时间为 1.7 个月（四分位间范围：1.2-7.4 个月），所有六名患者的双心室功能均正常。我们建议外科医生在面临关闭儿童多发性肌肉性 VSD 的挑战时，将 3D 打印技术加入到他们的武器库中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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World journal for pediatric & congenital heart surgery

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