下腔静脉直径的腔内心电图测量与横断面测量在滤器放置前:我们是否常规地过度放大?
Cavographic vs. cross-sectional measurement of the inferior vena cava diameter before filter placement: are we routinely oversizing?
机构信息
Department of Radiology, The Second Xiangya Hospital of Central South University, No. 139 Middle Renmin Road, Changsha, 410011, China.
出版信息
Eur Radiol. 2019 Jun;29(6):3281-3286. doi: 10.1007/s00330-018-5820-5. Epub 2018 Nov 9.
OBJECTIVE
A megacava (vena cava with a diameter of 28 mm or greater) requires a particular filter to avoid migration. However, caval morphologies are variable. As the inferior vena cava (IVC) usually adopts a circular geometry after a filter is inserted, this study aims (a) to classify caval geometry and orientation; (b) to compare discrepancy between anterioposterior projective diameter (PD) and circumference-based calculated diameter (CD) measurements on cross-sectional computed tomography (CT) images; (c) if a discrepancy exists, determine how often it can affect IVC filter selection.
METHODS
A total of 1503 patients were retrospectively reviewed. Caval morphology was classified. PD and CD were measured at infrarenal IVC. Differences between the PD and CD were assessed by the Wilcoxon signed-rank test or paired t test (if appropriate). The scatterplot of PD vs. CD was used to show whether one is consistently larger than the other.
RESULTS
The PD was significantly larger than the CD (22.3 ± 3.5 vs. 20.4 ± 2.8, p < 0.001). The caval morphologies were divided into five types. Type 1 was oval IVC oriented left-anterior-oblique to the horizontal line with an angle (n = 999, 66.5%), type 2 was round IVC (n = 49, 3.3%), type 3 was oval IVC with a vertical long axis (n = 8, 0.5%), type 4 was oval IVC with a horizontal long axis (n = 75, 5.0%), and type 5 was irregularly shaped IVC (n = 372, 24.7%).
CONCLUSION
Patients with round IVC are rare. Measurement of CD may be better to assess maximum IVC diameter compared with PD for the purpose of IVC filter placement.
KEY POINTS
• Five types of IVC orientation are described in this paper: type 1 (n = 999, 66.5%), type 2 (n = 49, 3.3%), type 3 (n = 8, 0.5%), type 4 (n = 75, 5.0%), and type 5 (n = 372, 24.7%). • The incidence of megacava (vena cava with a diameter of 28 mm or greater) measured on anterioposterior projective imaging may be overestimated. • As an IVC will adopt a circular geometry following filter placement, circumference-based calculated diameter may be an appropriate approach for caval size determination.
目的
巨腔静脉(直径为 28mm 或更大的腔静脉)需要使用特定的滤器以避免滤器迁移。然而,腔静脉形态是多变的。由于下腔静脉(IVC)在插入滤器后通常呈圆形,因此本研究旨在:(a)对腔静脉几何形状和方向进行分类;(b)比较横截面计算机断层扫描(CT)图像上前后向投影直径(PD)和基于周长的计算直径(CD)测量之间的差异;(c)如果存在差异,确定其会在多大程度上影响 IVC 滤器的选择。
方法
回顾性分析了 1503 例患者。对腔静脉形态进行分类。在肾下 IVC 处测量 PD 和 CD。使用 Wilcoxon 符号秩检验或配对 t 检验(如果适用)评估 PD 和 CD 之间的差异。使用 PD 与 CD 的散点图显示两者之间的关系,即一个是否始终大于另一个。
结果
PD 显著大于 CD(22.3±3.5 vs. 20.4±2.8,p<0.001)。腔静脉形态分为五种类型:1 型为左前斜向水平的椭圆形 IVC,角度为(n=999,66.5%),2 型为圆形 IVC(n=49,3.3%),3 型为垂直长轴的椭圆形 IVC(n=8,0.5%),4 型为水平长轴的椭圆形 IVC(n=75,5.0%),5 型为不规则形状的 IVC(n=372,24.7%)。
结论
圆形 IVC 患者少见。与 PD 相比,CD 测量可能更有助于评估 IVC 最大直径,以便于 IVC 滤器的放置。
关键点
本文描述了五种 IVC 方向类型:1 型(n=999,66.5%)、2 型(n=49,3.3%)、3 型(n=8,0.5%)、4 型(n=75,5.0%)和 5 型(n=372,24.7%)。
在前后向投影成像上测量的巨腔静脉(直径为 28mm 或更大的腔静脉)的发生率可能被高估。
由于滤器放置后 IVC 将呈圆形,基于周长的计算直径可能是确定腔静脉大小的合适方法。
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