ObjectiveTo summarize clinical experience of total aortic arch reconstruction with triple-branched stent graft placement in elderly patients with Stanford type A aortic dissection (SAAD). MethodsFrom December 2008 to December 2012, 46 elderly SAAD patients underwent total aortic arch reconstruction with triple-branched stent graft placement under deep hypothermic circulatory arrest and selective cerebral perfusion (SCP)in Department of Cardiova-scular Surgery, Henan Provincial Chest Hospital. There were 37 male and 9 female patients with their age of 65-75 (68.2±5.0)years. There were 6 patients undergoing modified David procedure, 1 patient undergoing Bentall procedure, 2 patients undergoing Wheat procedure, and 37 patients undergoing ascending aortic replacement. ResultsThere was no in-hos-pital death. Cardiopulmonary bypass time was 135-183 (131.1±10.5)minutes, aortic cross-clamping time was 81-100 (61.5±18.3)minutes, and SCP time was 19-28 (24.4±5.6)minutes. Postoperative complications included low cardiac output syndrome in 3 patients, acute renal failure in 2 patients, pleural effusion in 5 patients, lung infection in 2 patients, and sternal dehiscence in 1 patient, who were all cured after treatment. All the patients were followed up for 3 to 12 months without complication related to the stent graft. ConclusionTotal aortic arch reconstruction with triple-branched stent graft placement is an easy surgical procedure for SAAD with a high successful rate and low morbidity, and especially suitable for elderly patients who can't bear traditional operation.
ObjectiveTo evaluate the effectiveness of covered Cheatham-platinum (CP) stent for treatment of coarctation of aorta (CoA). MethodsBetween January 2007 and September 2013, 15 patients (16 lesions) with CoA underwent covered CP stent implantation, and the clinical data were analyzed retrospectively. Of 15 cases, 8 were male and 7 were female, aged 13-56 years (mean, 27.7 years). Fifteen lesions located beyond the origin of the left subdavian artery, and 1 lesion located between the origin of the left common carotid artery and the origin of the left subdavian artery. Proper covered CP stent and balloon-in-balloon (BIB) catheter were selected according to the data of computed tomography angiography or digital subtraction angiography examination. Under fluoroscopic guidance, the covered CP stent was placed at lesion accurately by expanding the inner balloon and the outer balloon sequentially. The variation of the systolic pressure gradient across the lesion and the stenosis extent of the aorta before and after the procedure were recorded. ResultsFifteen patients were all treated by covered CP stent implantation successfully. The systolic pressure gradient across the lesion decreased from (58.1±19.5) mm Hg (1 mm Hg=0.133 kPa) at preoperation to (6.2±5.6) mm Hg at immediate after CP stent implantation, and the stenosis extent of the aorta decreased from 73.8%±12.8% at preoperation to 16.7%±5.6% at immediate after CP stent implantation, all showing significant difference (t=12.483, P=0.000; t=15.631, P=0.000). All puncture points healed well with no aortic dissection, pseudoaneurysm, or obvious subcutaneous hematoma. All the patients could walk moderately within 48 hours after procedure. The average hospitalization time was 11.1 days (range, 6-18 days). During a mean follow-up of 29.7 months (range, 1-81 months), the symptom of dizziness and exercise tolerance were improved obviously, and the systolic pressures gradient between upper and lower extremity was below 20 mm Hg. The systolic and diastolic pressures at last follow-up were significantly improved when compared with preoperative values (t=7.725, P=0.000; t=3.651, P=0.000). According to radiography, the location and shape of the stent were good, and no aortic dissection, aneurysm, or recoarctation occurred. ConclusionAccording to the initial and midterm results, the covered CP stent is an effective treatment for CoA in adolescents and adults with a low rate of complication. However, long-term results still require further follow-up.
ObjectiveTo report our clinical experience and outcomes of thoracic endovascular aortic repair (TEVAR) for acute Stanford type A dissection using ascending aorta replacement combined with implantation of a fenestrated stent-graft of the entire aortic arch through a minimally invasive technique. MethodsFrom 2016 to 2020 in our hospital, 24 patients (17 males and 7 females, aged 45-72 years) with complicated Stanford type A aortic dissection, underwent replacement of the proximal ascending aorta with TEVAR. None of the patients with dissection involved the three branches of the superior arch, and all patients were replaced with artificial blood vessels of the ascending aorta under non-hypothermic cardiopulmonary bypass, preserving the arch and the three branches above the arch, and individualized stent graft fenestration. ResultsSurgical technical success rate was 100.0%. There was no intraoperative complication or evidence of endo-leak in 1 month postoperatively. Hospital stay was 10±5 d. During postoperative follow-up, the stent was unobstructed without displacement, the preserved branch of the aortic arch was unobstructed, and the true lumen of the descending aorta was enlarged. Conclusion This hybrid technique by using TEVAR with fenestrated treatment is a minimally invasive and effective method to treat high-risk patients with acute Stanford type A aortic dissection.
Numerical simulation of stent deployment is very important to the surgical planning and risk assess of the interventional treatment for the cardio-cerebrovascular diseases. Our group developed a framework to deploy the braided stent and the stent graft virtually by finite element simulation. By using the framework, the whole process of the deployment of the flow diverter to treat a cerebral aneurysm was simulated, and the deformation of the parent artery and the distributions of the stress in the parent artery wall were investigated. The results provided some information to improve the intervention of cerebral aneurysm and optimize the design of the flow diverter. Furthermore, the whole process of the deployment of the stent graft to treat an aortic dissection was simulated, and the distributions of the stress in the aortic wall were investigated when the different oversize ratio of the stent graft was selected. The simulation results proved that the maximum stress located at the position where the bare metal ring touched the artery wall. The results also can be applied to improve the intervention of the aortic dissection and the design of the stent graft.
Objective To evaluate the feasibility of X-ray guided access to the extrahepatic segment of the main portal vein (PV) to create a transjugular extrahepatic portacaval shunt (TEPS). Methods 5F pigtail catheter was inserted into the main PV as target catheter by percutaneous transhepatic path under ultrasound guidance. The RUPS-100 puncture system was inserted into the inferior vena cava (IVC) by transjugular path under ultrasound guidance. Fluency covered stent was deployed to create the extrahepatic portacaval shunt after puncturing the target catheter from the IVC under the X-ray guidance, then shunt venography was performed. Enhanced CT of the abdomen helped identify and quantify the patency of the shunt and the presence of hemoperitoneum. Results The extrahepatic portacaval shunts were created successfully by only 1 puncture in 6 pigs. No extravasation was observed in shunt venography. One pig died of anesthesia on the day of operation. The extrahepatic portacaval shunts were failed in 2 pigs 3 days after the operation (one was occluded and the other one was narrowed by 80%). The extrahepatic portacaval shunts were occluded 2 weeks after the operation in the remaining 3 pigs. The shunts were out of the liver and no hemoperitoneum was identified at necropsy in the 6 pigs. Conclusion TEPS is technically safe and feasible under the X-ray guidance.
Objective To discuss feasibility and effectivity of intraoperative ultrasound (US) during endovascular aneurysm repair (EVAR) for abdominal aortic aneurysm. Methods A radiographic contrast nephropathy patient of abdominal aortic aneurysm and left internal iliac artery aneurysm was treated by EVAR without iodine contrast media assisted by US. Then summarized the data of this patient. Results The precise placement of the stent-graft was performed for abdominal aortic aneurysm. The left internal iliac artery aneurysm was successfully treatment with the stent-graft and coils. Intraoperative Ⅱ type endoleak from inferior mesenteric artery and Ⅰ b type endoleak from right iliac stent were identified by using US. The operative duration was 120 min and the blood loss was only 20 mL. Ⅱ type endoleak was still detected and the Ⅰ b type of endoleak was loss on postoperative a week. Conclusion Intraoperative US-assisted EVAR in patients with infrarenal abdominal aortic aneurysm represents a new option for intraoperative visualization of aortoiliac segments required as proximal or distal fixation zones and identification of endoleaks, especially in those patients with contraindications for usage of iodine-containing contrast agents.