镁基和铁基可吸收血流导向装置的医学影像学兼容性。
Medical Imaging Compatibility of Magnesium- and Iron-Based Bioresorbable Flow Diverters.
机构信息
From the Department of Biomedical Engineering and Physiology (A.A.O., E.K.K., S.L., D.D.-D, D.F.K.), Mayo Clinic Graduate School of Biomedical Sciences, Rochester, Minnesota
Departments of Radiology (A.A.O., E.K.K., P.S.T., J.E.K., R.S.J., A.J.V., C.B., R.K. S.L., A.L., D.F.K.).
出版信息
AJNR Am J Neuroradiol. 2023 Jun;44(6):668-674. doi: 10.3174/ajnr.A7873. Epub 2023 May 11.
BACKGROUND AND PURPOSE
Bioresorbable flow diverters are under development to mitigate complications associated with conventional flow-diverter technology. One proposed advantage is the ability to reduce metal-induced artifacts in follow-up medical imaging. In the current work, the medical imaging compatibility of magnesium- and iron-based bioresorbable flow diverters is assessed relative to an FDA-approved control in phantom models.
MATERIALS AND METHODS
Bioresorbable flow diverters, primarily composed of braided magnesium or antiferromagnetic iron alloy wires, were compared with an FDA-approved control flow diverter. The devices were assessed for MR imaging safety in terms of magnetically induced force and radiofrequency heating using 1.5T, 3T, and 7T field strength clinical scanners. The devices were deployed in phantom models, and metal-induced image artifacts were assessed in the 3 MR imaging scanners and a clinical CT scanner following clinical scan protocols; device visibility was assessed under fluoroscopy.
RESULTS
The magnesium-based bioresorbable flow diverter, iron-based bioresorbable flow diverter, and the control device all demonstrated MR imaging safety in terms of magnetically induced force and radiofrequency heating at all 3 field strengths. The bioresorbable flow diverters did not elicit excessive MR imaging artifacts at any field strength relative to the control. Furthermore, the bioresorbable flow diverters appeared to reduce blooming artifacts in CT relative to the control. The iron-based bioresorbable flow diverter and control device were visible under standard fluoroscopy.
CONCLUSIONS
We have demonstrated the baseline medical imaging compatibility of magnesium and antiferromagnetic iron alloy bioresorbable flow diverters. Future work will evaluate the medical imaging characteristics of the bioresorbable flow diverters in large-animal models.
背景与目的
可生物吸收的血流分流器正在开发中,以减轻与传统血流分流器技术相关的并发症。一个提出的优点是能够减少后续医学成像中的金属诱导伪影。在目前的工作中,在体模模型中相对于 FDA 批准的对照评估了镁基和铁基可生物吸收血流分流器的医学成像兼容性。
材料与方法
可生物吸收血流分流器主要由编织的镁或反铁磁铁合金丝组成,与 FDA 批准的对照血流分流器进行了比较。使用 1.5T、3T 和 7T 场强临床扫描仪评估了这些设备在磁共振成像安全性方面的磁感应强度和射频加热情况。将这些设备部署在体模模型中,并根据临床扫描协议在 3 台磁共振成像扫描仪和一台临床 CT 扫描仪中评估金属诱导的图像伪影;在透视下评估设备的可视性。
结果
在所有 3 个场强下,镁基可生物吸收血流分流器、铁基可生物吸收血流分流器和对照装置在磁感应强度和射频加热方面均表现出磁共振成像安全性。与对照相比,可生物吸收血流分流器在任何场强下均未引起过多的磁共振成像伪影。此外,与对照相比,可生物吸收血流分流器似乎减少了 CT 中的blooming 伪影。铁基可生物吸收血流分流器和对照装置在标准透视下可见。
结论
我们已经证明了镁和反铁磁铁合金可生物吸收血流分流器的基线医学成像兼容性。未来的工作将在大动物模型中评估可生物吸收血流分流器的医学成像特性。
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