不同下腔静脉滤器模型的径向膨胀力差异支持已记录的穿孔率。
Differences in radial expansion force among inferior vena cava filter models support documented perforation rates.
机构信息
Division of Vascular Surgery, Department of Cardiovascular Sciences, East Carolina University Brody School of Medicine, Greenville, NC.
Department of Mechanical Engineering Technology, Penn State Behrend, Erie, Pa.
出版信息
J Vasc Surg Venous Lymphat Disord. 2018 May;6(3):368-371. doi: 10.1016/j.jvsv.2017.10.019. Epub 2018 Feb 1.
OBJECTIVE
Inferior vena cava (IVC) filters are used in patients at risk for pulmonary embolism who cannot be anticoagulated. Unfortunately, these filters are not without risk, and complications include perforation, migration, and filter fracture. The most prevalent complication is filter perforation of the IVC, with incidence varying among filter models. To our knowledge, the mechanical properties of IVC filters have not been evaluated and are not readily available through the manufacturer. This study sought to determine whether differences in mechanical properties are similar to differences in documented perforation rates.
METHODS
The radial expansion forces of Greenfield (Boston Scientific, Marlborough, Mass), Cook Celect (Cook Medical, Bloomington, Ind), and Cook Platinum filters were analyzed with three replicates per group. The intrinsic force exerted by the filter on the measuring device was collected in real time during controlled expansion. Replicates were averaged and significance was determined by calculating analysis of covariance using SAS software (SAS Institute, Cary, NC).
RESULTS
Each filter model generated a significantly different radial expansion force (P < .001), and force was distributed at significantly different rates (P < .001) during expansion. The largest radial expansion force at minimal caval diameter was seen in the Cook Platinum filter, followed by the Cook Celect and Greenfield filters. Radial force dispersion during expansion was greatest in the Cook Celect, followed by the Cook Platinum and Greenfield filters.
CONCLUSIONS
Differences in radial expansion forces among IVC filter models are consistent with documented perforation rates. Cook Celect IVC filters have a higher incidence of perforation compared with Greenfield filters when they are left in place for >90 days. Evaluation of Cook Celect filters yielded a significantly higher radial expansion force at minimum caval diameter, with greater force dispersion during expansion.
目的
下腔静脉(IVC)过滤器用于有发生肺栓塞风险但不能抗凝的患者。不幸的是,这些过滤器并非没有风险,并发症包括穿孔、迁移和过滤器断裂。最常见的并发症是 IVC 过滤器穿孔,不同的过滤器模型发生率不同。据我们所知,IVC 过滤器的机械性能尚未得到评估,也无法通过制造商获得。本研究旨在确定机械性能的差异是否与已记录的穿孔率的差异相似。
方法
对 Greenfield(波士顿科学公司,马萨诸塞州马尔伯勒)、Cook Celect(库克医疗公司,印第安纳州布鲁明顿)和 Cook Platinum 过滤器的径向扩张力进行了分析,每组重复 3 次。在受控扩张过程中,实时采集过滤器对测量装置施加的固有力。重复项进行平均,并使用 SAS 软件(SAS Institute, Cary,NC)计算协方差分析来确定显著性。
结果
每个过滤器模型产生的径向扩张力明显不同(P <.001),扩张过程中力的分布速率明显不同(P <.001)。最小腔静脉直径处的最大径向扩张力见于 Cook Platinum 过滤器,其次是 Cook Celect 和 Greenfield 过滤器。Cook Celect 过滤器在扩张过程中的径向力分散最大,其次是 Cook Platinum 和 Greenfield 过滤器。
结论
IVC 过滤器模型之间的径向扩张力差异与已记录的穿孔率一致。与 Greenfield 过滤器相比,Cook Celect IVC 过滤器在放置超过 90 天时穿孔发生率更高。对 Cook Celect 过滤器的评估得出的最小腔静脉直径处的径向扩张力明显更高,扩张过程中的力分散更大。
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