Arepally Aravind, Karmarkar Parag V, Qian Di, Barnett Brad, Atalar Ergin
Russell H. Morgan Department of Radiology and Radiological Science, The Johns Hopkins Medical Institutions, Blalock 545, 600 North Wolfe Street, Baltimore, MD 21287, USA.
J Vasc Interv Radiol. 2006 Jul;17(7):1165-73. doi: 10.1097/01.RVI.0000228493.07075.FC.
To evaluate three different percutaneous portosystemic shunts created with magnetic resonance (MR) imaging and fluoroscopy guidance in a swine model.
In stage 1 of the experiment, an active MR intravascular needle system was created for needle tracking and extracaval punctures. Twenty inferior vena cava (IVC)/superior mesenteric vein (SMV)/portal vein (PV) punctures were performed in 10 swine (weight, 40-45 kg) in a 1.5-T short-bore interventional MR imager. With use of a real-time MR imaging sequence, the needle was guided through the IVC and into the SMV or PV (N = 20 punctures). After confirmation, a wire was advanced into the portal venous system under MR imaging guidance (N = 20). In stage 2, animals were transferred to the radiographic fluoroscopy suite for deployment of shunts. Three different shunts were evaluated in this study: (i) a commercial stent-graft, (ii) a prototype bridging stent, and (iii) a prototype nitinol vascular anastomotic device. Postprocedural necropsy was performed in all animals.
Successful MR-guided IVC/SMV punctures were performed in all 20 procedures (100%). All three shunts were deployed. Stent-grafts had the poorest mechanism for securing a shunt. The vascular anastomotic device and the bridging stent had more secure anchoring mechanisms but also had higher technical failure rates (50% and 40%, respectively). When deployed successfully, the vascular anastomotic device resulted in no bleeding at the sites of punctures at necropsy.
Percutaneous shunts and vascular anastomoses between the portal mesenteric venous system and IVC were successfully created with use of a combination of MR imaging and conventional fluoroscopy for guidance.
在猪模型中评估在磁共振(MR)成像和荧光透视引导下创建的三种不同的经皮门体分流术。
在实验的第1阶段,创建了一个有源MR血管内针系统用于针追踪和腔外穿刺。在一台1.5-T短孔径介入MR成像仪中,对10头猪(体重40 - 45千克)进行了20次下腔静脉(IVC)/肠系膜上静脉(SMV)/门静脉(PV)穿刺。使用实时MR成像序列,将针引导穿过IVC进入SMV或PV(共20次穿刺)。确认后,在MR成像引导下将导丝推进到门静脉系统(共20次)。在第2阶段,将动物转移到放射荧光透视室进行分流器的植入。本研究评估了三种不同的分流器:(i)一种商用覆膜支架,(ii)一种原型桥接支架,(iii)一种原型镍钛诺血管吻合装置。对所有动物进行术后尸检。
所有20例手术(100%)均成功进行了MR引导下的IVC/SMV穿刺。所有三种分流器均已植入。覆膜支架固定分流的机制最差。血管吻合装置和桥接支架具有更可靠的锚定机制,但技术失败率也更高(分别为50%和40%)。成功植入后,血管吻合装置在尸检时穿刺部位无出血。
结合使用MR成像和传统荧光透视引导,成功创建了门静脉肠系膜静脉系统与IVC之间的经皮分流和血管吻合。