用可回收药物输注支架制作的猪胸主动脉瘤模型反映了人类动脉瘤的病理生理学特征

Q3 Medicine
Dahlia M. Kenawy MD , Jordan F. Stafford MD , Foued Amari MS , Drayson Campbell BS , Mahmoud Abdel-Rasoul MS, MPH , Jennifer Leight PhD , Youngjae Chun PhD , Bryan W. Tillman MD, PhD
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引用次数: 0

摘要

目的 动脉瘤的病理生理学仍然鲜为人知,部分原因是鼠类模型与人体生理学存在差异,而且创建动脉瘤模型时需要对主动脉进行侵入性暴露以使用药物。我们开发了一种可回收药物输注支架移植物(RDIS),用于在腔内隔离主动脉壁以进行药物暴露。我们假设 RDIS 可以在不进行大手术暴露的情况下输送促进动脉瘤形成的酶,从而创建猪胸腔动脉瘤模型。方法设计了可回收镍钛诺支架移植物框架,该框架具有隔离的药物输送室,用聚四氟乙烯覆盖,并与输送导线相连,外室安装有药物输注导管。经动物护理和使用机构委员会批准的约克夏猪(n = 5)接受了经皮股动脉穿刺、基线主动脉造影和胸主动脉支架置入,然后暴露于弹性蛋白酶、胶原酶和胰蛋白酶鸡尾酒中 30 分钟。在抽吸多余药物、取回支架和修复股动脉后,动物得到恢复,并在 1 周和 4 周时进行血管造影,然后进行移植。结果RDIS从血管造影上分离了一段前主动脉,而中心管腔在药物治疗期间保持了远端灌注(基线股动脉平均动脉压为 70 ± 14 mm Hg;RDIS 后为 75 ± 12;P = .55)。胸动脉瘤的血管内诱导无需事先进行机械损伤,动物也未显示出毒性。1 周内,所有 5 只动物的动脉瘤都明显增大(从基线 1.4 ± 0.1 厘米增至 2.9 ± 0.7 厘米;P = .002),且仅在主动脉的治疗区域内。动脉瘤持续存在 4 周。动脉瘤组织学显示弹性蛋白和胶原蛋白流失,而未经治疗的主动脉则保留了这些蛋白和胶原蛋白。结论 RDIS 实现了隔离给药,同时保留了远端灌注,无需大手术即可实现胸动脉瘤的血管内猪模型。该模型可用于外科手术培训、设备测试以及更好地了解动脉瘤的发病机制。最重要的是,虽然 RDIS 是用来模拟主动脉病理的,但这一工具为直接向动脉瘤集中输送治疗药物,以及更广泛地向血管和血管床集中输送局部药物提供了令人感兴趣的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A porcine model of thoracic aortic aneurysms created with a retrievable drug infusion stent graft mirrors human aneurysm pathophysiology

Objective

Aneurysm pathophysiology remains poorly understood, in part from the disparity of murine models with human physiology and the requirement for invasive aortic exposure to apply agents used to create aneurysm models. A retrievable drug infusion stent graft (RDIS) was developed to isolate the aortic wall intraluminally for drug exposure. We hypothesized that an RDIS could deliver aneurysm-promoting enzymes to create a porcine model of thoracic aneurysms without major surgical exposure.

Methods

Retrievable nitinol stent graft frames were designed with an isolated drug delivery chamber, covered with polytetrafluoroethylene, and connected to a delivery wire with a drug infusion catheter installed to the outer chamber. Institutional Animal Care and Use Committee-approved Yorkshire pigs (n = 5) underwent percutaneous access of the femoral artery, baseline aortogram and stent placement in the thoracic aorta followed by 30-minute exposure to a cocktail of elastase, collagenase, and trypsin. After aspiration of excess drug, stent retrieval, and femoral artery repair, animals were recovered, with angiograms at 1 and 4 weeks followed by explant. Histological analysis, in situ zymography, and multiplex cytokine assays were performed.

Results

The RDIS isolated a segment of anterior aorta angiographically, while the center lumen preserved distal perfusion during drug treatment (baseline femoral mean arterial pressure, 70 ± 14 mm Hg; after RDIS, 75 ± 12; P = .55). Endovascular induction of thoracic aneurysms did not require prior mechanical injury and animals revealed no evidence of toxicity. Within 1 week, significant aneurysmal growth was observed in all five animals (1.4 ± 0.1 cm baseline to 2.9 ± 0.7 cm; P = .002) and only within the treated region of the aorta. Aneurysms persisted out to 4 weeks. Aneurysm histology demonstrated loss of elastin and collagen that was otherwise preserved in untreated aorta. Proinflammatory cytokines and increased matrix metalloproteinase activity were increased significantly within the aneurysm.

Conclusions

An RDIS achieves isolated drug delivery while preserving distal perfusion to achieve an endovascular porcine model of thoracic aneurysms without major surgery. This model may have value for surgical training, device testing, and to better understand aneurysm pathogenesis. Most important, although the RDIS was used to simulate aortic pathology, this tool offers intriguing horizons for focused therapeutic drug delivery directly to aneurysms and, more broadly, focused locoregional drug delivery to vessels and vascular beds.

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CiteScore
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