Tillman Bryan W, Chun Youngjae, Cho Sung Kwon, Chen Yanfei, Liang Nathan, Maul Timothy, Demetris Anthony, Gu Xinzhu, Wagner William R, Tevar Amit D
Division of Vascular Surgery, University of Pittsburgh Medical Center, Pittsburgh, PA; Department of Surgery, University of Pittsburgh Medical Center, Pittsburgh, PA; McGowan Institute for Regenerative Medicine, University of Pittsburgh, Pittsburgh, PA.
Industrial Engineering, Swanson School of Engineering, University of Pittsburgh, Pittsburgh, PA.
Surgery. 2016 Oct;160(4):892-901. doi: 10.1016/j.surg.2016.06.039. Epub 2016 Aug 11.
The paradigm for donation after cardiac death subjects donor organs to ischemic injury. A dual-chamber organ perfusion stent would maintain organ perfusion without affecting natural cardiac death. A center lumen allows uninterrupted cardiac blood flow, while an external chamber delivers oxygenated blood to the visceral vessels.
A prototype organ perfusion stent was constructed from commercial stents. In a porcine model, the organ perfusion stent was deployed, followed by a simulated agonal period. Oxygenated blood perfused the external stent chamber. Organ perfusion was compared between controls (n = 3) and organ perfusion stent (n = 6). Finally, a custom, nitinol, dual chamber organ perfusion stent was fabricated using a retrievable "petal and stem" design.
Endovascular organ perfusion stent deployment achieved visceral isolation without adverse impact on cardiac parameters. Visceral oxygen delivery was 4.8-fold greater compared with controls. During the agonal period, organs in organ perfusion stent-treated animals appeared well perfused in contrast with the malperfused controls. A custom nitinol and polyurethane organ perfusion stent was recaptured easily with simple sheath advancement.
An organ perfusion stent maintained organ perfusion during the agonal phase in a porcine model of donation after cardiac death organ donation without adversely affecting cardiac function. Ultimately, the custom retrievable design of this study may help resolve the critical shortage of donor organs for transplant.
心脏死亡后器官捐献模式会使供体器官遭受缺血性损伤。双腔器官灌注支架可维持器官灌注而不影响自然心脏死亡。中心腔可使心脏血流不间断,而外部腔室将含氧血液输送至内脏血管。
用商用支架构建了一个器官灌注支架原型。在猪模型中,部署器官灌注支架,随后进行模拟濒死期。含氧血液灌注外部支架腔室。比较对照组(n = 3)和器官灌注支架组(n = 6)的器官灌注情况。最后,采用可回收的“花瓣和茎”设计制作了定制的镍钛诺双腔器官灌注支架。
血管内器官灌注支架的部署实现了内脏隔离,且对心脏参数无不利影响。与对照组相比,内脏氧输送量高出4.8倍。在濒死期,接受器官灌注支架治疗的动物的器官灌注良好,而对照组的器官灌注不良。通过简单推进鞘管,可轻松回收定制的镍钛诺和聚氨酯器官灌注支架。
在心脏死亡后器官捐献的猪模型中,器官灌注支架在濒死期维持了器官灌注,且未对心脏功能产生不利影响。最终,本研究的定制可回收设计可能有助于解决移植供体器官严重短缺的问题。