三维ICE在三级儿科中心经皮ASD闭合术围手术期指导中的初步应用。

IF 1.4 4区医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS

Pediatric Cardiology Pub Date : 2025-06-11 DOI:10.1007/s00246-025-03913-6

Justin B Jin, Nazia Husain, Conor P O'Halloran, Paul Tannous, Jeremy Fox, Alan W Nugent, Pei-Ni Jone, Sandhya R Ramlogan

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引用次数: 0

摘要

房间隔的动态性、多平面性使得asd难以用二维成像进行表征。3D成像可以在一个单一的正面视图中立即描述缺陷。2D ICE引导下的儿童ASD装置闭合已有报道，但3D ICE引导下的闭合尚未报道，3D ICE测量与透视球囊尺寸直径（BSD）的相关性仍未研究。我们描述了我们在经皮ASD闭合的围手术期评估中使用3D ICE的初步经验。我们纳入了2022年7月至2023年7月在我院连续接受经皮ASD闭合术的患者。BSD由主要介入医师测量，非侵入性ASD维度由两名调查员在术中测量。通过2D （TEE， ICE）和3D模式（TEE， ICE）评估最大BSD与最大ASD直径之间的相关性。15例患者接受了经皮ASD闭合，11/15（73%）患者接受了ICE （2D和3D）。3例由于设备不可用而忽略了ICE， 1例由于与脊柱相关的成像窗口不足而忽略了ICE。11名患者中有10名也接受了TEE，而1名患者由于提供者的偏好而通过透视和ICE单独关闭ASD。十个tee中有六个（60%）包括基于体重截止的3D成像。ICE患者的中位年龄为6岁（IQR: 7.5），中位体重为20.5 kg （IQR: 35.8）。均尝试3D ICE；在8/11名患者中，两名审稿人评估图像质量为“一般”或“良好”。术中影像与BSD相关性强[3D ICE vs. BSD] (n = 7): ICC = 0.915, p

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An Initial Experience in the Use of 3D ICE for the Periprocedural Guidance of Percutaneous ASD Closure at a Tertiary Pediatric Center.

The dynamic, multiplanar nature of the atrial septum can make ASDs challenging to characterize with 2D imaging. 3D imaging instantly profiles defect(s) in a single, en face view. 2D ICE-guided ASD device closure in the pediatric population has been reported, but 3D ICE-guided closure has not, and the correlation of 3D ICE measurements with fluoroscopic balloon-sizing diameter (BSD) remains unstudied. We describe our initial experience with 3D ICE in the periprocedural evaluation of percutaneous ASD closure. Consecutive patients undergoing percutaneous ASD closure at our institution from July 2022 to July 2023 were included. BSD was measured by the primary interventionalist, and non-invasive ASD dimensions were measured by two investigators intra-procedurally. Correlations were assessed between maximal BSD versus maximal ASD diameter by 2D (TEE, ICE) and 3D modalities (TEE, ICE). Fifteen patients underwent percutaneous ASD closure, and 11/15 (73%) underwent ICE (2D and 3D). Three cases omitted ICE due to equipment unavailability, and one due to inadequate imaging windows related to spinal rods. 10 of 11 patients also underwent TEE, while one had ASD closure by fluoroscopy and ICE alone due to provider preference. Six of ten TEEs (60%) included 3D imaging based on weight cut-off. The median age of ICE patients was 6 years (IQR: 7.5), with a median weight of 20.5 kg (IQR: 35.8). 3D ICE was attempted in all; image quality assessed as 'fair' or 'good' by two reviewers in 8/11 patients. Intraprocedural imaging correlated strongly with BSD [3D ICE vs. BSD (n = 7): ICC = 0.915, p < 0.001)]. Median pre-device deployment evaluation time by ICE was 14 min (IQR: 8.25), and 5 min (IQR: 3.0) post-device deployment. 3D ICE is a viable adjunctive imaging tool for guiding ASD closure procedures within the pediatric cohort, offering safety, efficiency, and congruence with established imaging modalities. Maximal ASD dimensions by 3D ICE correlate well with BSD.

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来源期刊

Pediatric Cardiology 医学-小儿科

CiteScore

3.30

自引率

6.20%

发文量

258

审稿时长

12 months

期刊介绍： The editor of Pediatric Cardiology welcomes original manuscripts concerning all aspects of heart disease in infants, children, and adolescents, including embryology and anatomy, physiology and pharmacology, biochemistry, pathology, genetics, radiology, clinical aspects, investigative cardiology, electrophysiology and echocardiography, and cardiac surgery. Articles which may include original articles, review articles, letters to the editor etc., must be written in English and must be submitted solely to Pediatric Cardiology.