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在猪模型中对新型注入钨纳米颗粒的不透射线可吸收下腔静脉滤器进行图像引导下的植入与监测

Image-Guided Deployment and Monitoring of a Novel Tungsten Nanoparticle-Infused Radiopaque Absorbable Inferior Vena Cava Filter in a Swine Model.

作者信息

San Valentin Erin Marie, Damasco Jossana A, Bernardino Marvin, Court Karem A, Godin Biana, Canlas Gino Martin, Melancon Adam, Chintalapani Gouthami, Jacobsen Megan C, Norton William, Layman Rick R, Fowlkes Natalie, Chen Stephen R, Huang Steven Y, Melancon Marites P

机构信息

Department of Interventional Radiology, the University of Texas MD Anderson Cancer Center, Houston, Texas.

Department of Nanomedicine, Houston Methodist Research Institute, Houston, Texas.

出版信息

J Vasc Interv Radiol. 2024 Jan;35(1):113-121.e3. doi: 10.1016/j.jvir.2023.09.003. Epub 2023 Sep 9.

DOI:10.1016/j.jvir.2023.09.003
PMID:37696432
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10872373/
Abstract

PURPOSE

To improve radiopacity of radiolucent absorbable poly-p-dioxanone (PPDO) inferior vena cava filters (IVCFs) and demostrate their effectiveness in clot-trapping ability.

MATERIALS AND METHODS

Tungsten nanoparticles (WNPs) were incorporated along with polyhydroxybutyrate (PHB), polycaprolactone (PCL), and polyvinylpyrrolidone (PVP) polymers to increase the surface adsorption of WNPs. The physicochemical and in vitro and in vivo imaging properties of PPDO IVCFs with WNPs with single-polymer PHB (W-P) were compared with those of WNPs with polymer blends consisting of PHB, PCL, and PVP (W-PB).

RESULTS

In vitro analyses using PPDO sutures showed enhanced radiopacity with either W-P or W-PB coating, without compromising the inherent physicomechanical properties of the PPDO sutures. W-P- and W-PB-coated IVCFs were deployed successfully into the inferior vena cava of pig models with monitoring by fluoroscopy. At the time of deployment, W-PB-coated IVCFs showed a 2-fold increase in radiopacity compared to W-P-coated IVCFs. Longitudinal monitoring of in vivo IVCFs over a 12-week period showed a drastic decrease in radiopacity at Week 3 for both filters.

CONCLUSIONS

The results highlight the utility of nanoparticles (NPs) and polymers for enhancing radiopacity of medical devices. Different methods of incorporating NPs and polymers can still be explored to improve the effectiveness, safety, and quality of absorbable IVCFs.

摘要

目的

提高可吸收性聚对二氧环己酮(PPDO)下腔静脉滤器(IVCF)的射线不透性,并证明其在捕捉血栓能力方面的有效性。

材料与方法

将钨纳米颗粒(WNPs)与聚羟基丁酸酯(PHB)、聚己内酯(PCL)和聚乙烯吡咯烷酮(PVP)聚合物混合,以增加WNPs的表面吸附。将含单聚合物PHB的WNPs的PPDO IVCF(W-P)与含由PHB、PCL和PVP组成的聚合物共混物的WNPs的PPDO IVCF(W-PB)的物理化学性质以及体外和体内成像特性进行比较。

结果

使用PPDO缝线进行的体外分析表明,W-P或W-PB涂层均可提高射线不透性,且不影响PPDO缝线的固有物理机械性能。通过荧光透视监测,成功地将W-P和W-PB涂层的IVCF植入猪模型的下腔静脉。在植入时,W-PB涂层的IVCF的射线不透性比W-P涂层的IVCF增加了2倍。对体内IVCF进行为期12周的纵向监测显示,两种滤器在第3周时射线不透性均急剧下降。

结论

结果突出了纳米颗粒(NPs)和聚合物在提高医疗器械射线不透性方面的效用。仍可探索不同的将NPs和聚合物结合的方法,以提高可吸收IVCF的有效性、安全性和质量。