在猪模型中,哑铃救援支架移植物促进主动脉损伤的无夹修复。

Q3 Medicine
Dahlia M. Kenawy MD , Moataz Elsisy PhD , Mahmoud Abdel-Rasoul MS, MPH , Tanner L. Koppert MS , Marlene I. Garcia-Neuer MD, MSc , Youngjae Chun PhD , Bryan W. Tillman MD, PhD
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引用次数: 0

摘要

目的:非压缩性躯干出血是一种高死亡率的损伤。我们之前报道了一种可回收的挽救性支架移植物在维持远端灌注的同时,在猪模型中延缓主动脉出血,从而改善了结果。一个限制是,最初的圆柱形支架移植物设计禁止同时进行血管修复,因为考虑到临时支架的缝合圈套。我们假设,改良的哑铃形设计将保留远端灌注,并在中段提供无血平面,有助于支架移植物的修复,并改善修复后的血液动力学。方法:在机构动物护理和使用委员会批准的终末期猪模型中,用激光切割的镍钛诺和聚四氟乙烯覆盖物制成定制的可回收哑铃形救援支架移植物(dRS),并与主动脉交叉夹紧进行比较。在麻醉下,对胸降主动脉进行损伤,然后用交叉夹持(n=6)或dRS(n=6。两组均进行了血管造影。手术分为几个阶段:(1)基线,(2)使用交叉夹或dRS的胸部损伤,以及(3)恢复,之后移除夹或dRS。模拟II级或III级失血性休克的目标失血量为22%。用细胞保护器回收脱落的血液,并再次用于复苏。在基线和修复阶段记录肾动脉流速,并报告为心输出量的百分比。记录了对苯肾上腺素升压剂的需求。结果:与交叉夹闭动物相比,dRS动物在血管造影中表现出手术止血和保持血流超过dRS。dRS动物的恢复期平均动脉压、心输出量和右心室舒张末期容积显著较高(分别为P=0.033、P=0.015和P=0.012)。尽管交叉夹持期间股骨远端血压不存在,但在dRS动物中,颈动脉和股骨MAP在损伤期没有显著差异(P=.504)。交叉夹持动物表现出几乎不存在肾动脉流量,而dRS动物表现出保留的灌注(PP=.006)。主动脉修复和夹持或支架移除后,交叉夹闭动物表现出更显著的低血压,与支架动物相比,升压需求增加(P=.035)。结论:与主动脉交叉夹闭相比,dRS模型表现出更好的远端灌注,同时也有利于同时控制出血和修复主动脉。这项研究证明了主动脉交叉阻断的一种很有前途的替代方案,可以减少远端缺血,避免阻断再灌注带来的不利血液动力学。未来的研究将评估缺血性损伤和生理结果的差异。临床相关性:不可压缩性主动脉出血仍然是一种高死亡率的损伤,目前的损伤控制选择受到缺血性并发症的限制。我们以前报道过一种可回收的支架移植物,可以快速控制出血,保留远端灌注,并在初次修复时取出。先前的圆柱形支架移植物由于有陷入的风险而无法在支架移植物上缝合主动脉而受到限制。这项大型动物研究探索了一种带无血平面的哑铃可回收支架,以便在支架就位的情况下进行缝合。与钳夹修复相比,这种方法改善了远端灌注和血流动力学,并预示着主动脉修复的潜力,同时避免了并发症。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A dumbbell rescue stent graft facilitates clamp-free repair of aortic injury in a porcine model

Objective

Noncompressible torso hemorrhage is a high-mortality injury. We previously reported improved outcomes with a retrievable rescue stent graft to temporize aortic hemorrhage in a porcine model while maintaining distal perfusion. A limitation was that the original cylindrical stent graft design prohibited simultaneous vascular repair, given the concern for suture ensnarement of the temporary stent. We hypothesized that a modified, dumbbell-shaped design would preserve distal perfusion and also offer a bloodless plane in the midsection, facilitating repair with the stent graft in place and improve the postrepair hemodynamics.

Methods

In an Institutional Animal Care and Use Committee-approved terminal porcine model, a custom retrievable dumbbell-shaped rescue stent graft (dRS) was fashioned from laser-cut nitinol and polytetrafluoroethylene covering and compared with aortic cross-clamping. Under anesthesia, the descending thoracic aorta was injured and then repaired with cross-clamping (n = 6) or dRS (n = 6). Angiography was performed in both groups. Operations were divided into phases: (1) baseline, (2) thoracic injury with either cross-clamp or dRS deployed, and (3) recovery, after which the clamp or dRS were removed. Target blood loss was 22% to simulate class II or III hemorrhagic shock. Shed blood was recovered with a Cell Saver and reinfused for resuscitation. Renal artery flow rates were recorded at baseline and during the repair phase and reported as a percentage of cardiac output. Phenylephrine pressor requirements were recorded.

Results

In contrast with cross-clamped animals, dRS animals demonstrated both operative hemostasis and preserved flow beyond the dRS angiographically. Recovery phase mean arterial pressure, cardiac output, and right ventricular end-diastolic volume were significantly higher in dRS animals (P = .033, P = .015, and P = .012, respectively). Whereas distal femoral blood pressures were absent during cross-clamping, among the dRS animals, the carotid and femoral MAPs were not significantly different during the injury phase (P = .504). Cross-clamped animals demonstrated nearly absent renal artery flow, in contrast with dRS animals, which exhibited preserved perfusion (P<.0001). Femoral oxygen levels (partial pressure of oxygen) among a subset of animals further confirmed greater distal oxygenation during dRS deployment compared with cross-clamping (P = .006). After aortic repair and clamp or stent removal, cross-clamped animals demonstrated more significant hypotension, as demonstrated by increased pressor requirements over stented animals (P = .035).

Conclusions

Compared with aortic cross-clamping, the dRS model demonstrated superior distal perfusion, while also facilitating simultaneous hemorrhage control and aortic repair. This study demonstrates a promising alternative to aortic cross-clamping to decrease distal ischemia and avoid the unfavorable hemodynamics that accompany clamp reperfusion. Future studies will assess differences in ischemic injury and physiological outcomes.

Clinical Relevance

Noncompressible aortic hemorrhage remains a high-mortality injury, and current damage control options are limited by ischemic complications. We have previously reported a retrievable stent graft to allow rapid hemorrhage control, preserved distal perfusion, and removal at the primary repair. The prior cylindrical stent graft was limited by the inability to suture the aorta over the stent graft owing to risk of ensnarement. This large animal study explored a dumbbell retrievable stent with a bloodless plane to allow suture placement with the stent in place. This approach improved distal perfusion and hemodynamics over clamp repair and heralds the potential for aortic repair while avoiding complications.

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