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载铋纳米颗粒和聚羟基丁酸酯涂层可增强可吸收下腔静脉滤器的射线可探测性,以便在猪体内进行透视引导下放置和纵向计算机断层扫描监测。

Bismuth Nanoparticle and Polyhydroxybutyrate Coatings Enhance the Radiopacity of Absorbable Inferior Vena Cava Filters for Fluoroscopy-Guided Placement and Longitudinal Computed Tomography Monitoring in Pigs.

机构信息

Departments of Interventional Radiology, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030, United States.

Department of Chemistry, University of Houston, Houston, Texas 77004, United States.

出版信息

ACS Biomater Sci Eng. 2022 Apr 11;8(4):1676-1685. doi: 10.1021/acsbiomaterials.1c01449. Epub 2022 Mar 28.

DOI:10.1021/acsbiomaterials.1c01449
PMID:35343679
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9045416/
Abstract

Inferior vena cava filters (IVCFs) constructed with poly--dioxanone (PPDO) are promising alternatives to metallic filters and their associated risks and complications. Incorporating high-Z nanoparticles (NPs) improves PPDO IVCFs' radiopacity without adversely affecting their safety or performance. However, increased radiopacity from these studies are insufficient for filter visualization during fluoroscopy-guided PPDO IVCF deployment. This study focuses on the use of bismuth nanoparticles (BiNPs) as radiopacifiers to render sufficient signal intensity for the fluoroscopy-guided deployment and long-term CT monitoring of PPDO IVCFs. The use of polyhydroxybutyate (PHB) as an additional layer to increase the surface adsorption of NPs resulted in a 2-fold increase in BiNP coating (BiNP-PPDO IVCFs, 3.8%; BiNP-PPDO + PHB IVCFs, 6.2%), enabling complete filter visualization during fluoroscopy-guided IVCF deployment and, 1 week later, clot deployment. The biocompatibility, clot-trapping efficacy, and mechanical strength of the control PPDO (load-at-break, 6.23 ± 0.13 kg), BiNP-PPDO (6.10 ± 0.09 kg), and BiNP-PPDO + PHB (6.15 ± 0.13 kg) IVCFs did not differ significantly over a 12-week monitoring period in pigs. These results indicate that BiNP-PPDO + PHB can increase the radiodensity of a novel absorbable IVCF without compromising device strength. Visualizing the device under conventional radiographic imaging is key to allow safe and effective clinical translation of the device.

摘要

聚对二氧环己酮(PPDO)构建的下腔静脉滤器(IVCF)是金属滤器及其相关风险和并发症的有前途的替代品。结合高 Z 值纳米颗粒(NPs)可以提高 PPDO IVCF 的射线可探测性,而不会对其安全性或性能产生不利影响。然而,这些研究中增加的射线可探测性不足以在透视引导的 PPDO IVCF 部署期间进行滤器可视化。本研究专注于使用铋纳米颗粒(BiNPs)作为辐射增感剂,为透视引导的 PPDO IVCF 部署和长期 CT 监测提供足够的信号强度。使用聚羟基丁酸酯(PHB)作为额外的层来增加 NPs 的表面吸附,导致 BiNP 涂层增加了 2 倍(BiNP-PPDO IVCFs,3.8%;BiNP-PPDO + PHB IVCFs,6.2%),能够在透视引导的 IVCF 部署期间以及 1 周后完全可视化滤器和血栓的部署。在猪的 12 周监测期间,对照 PPDO(断裂时的负载,6.23±0.13kg)、BiNP-PPDO(6.10±0.09kg)和 BiNP-PPDO + PHB(6.15±0.13kg)IVCF 的生物相容性、血栓捕获效果和机械强度没有显著差异。这些结果表明,BiNP-PPDO + PHB 可以在不影响装置强度的情况下增加新型可吸收 IVCF 的射线密度。在常规放射成像下可视化设备是确保该设备安全有效临床转化的关键。

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本文引用的文献

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First-in-Human Study with Eight Patients Using an Absorbable Vena Cava Filter for the Prevention of Pulmonary Embolism.
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The application of inferior vena cava filters in orthopaedics and current research advances.下腔静脉滤器在骨科中的应用及当前研究进展。
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