肝素结合聚四氟乙烯并不能改善血液透析动静脉移植物功能。
Heparin-Bonded Polytetrafluorethylene Does Not Improve Hemodialysis Arteriovenous Graft Function.
作者信息
Zea Nicolas, Menard Grayson, Le Linda, Luo Qingyang, Bazan Hernan A, Sternbergh W Charles, Smith Taylor A
机构信息
Department of Surgery, Section of Vascular and Endovascular Surgery, Ochsner Medical Center, New Orleans, LA.
Department of Surgery, Section of Vascular and Endovascular Surgery, Ochsner Medical Center, New Orleans, LA.
出版信息
Ann Vasc Surg. 2016 Jan;30:28-33. doi: 10.1016/j.avsg.2015.06.071. Epub 2015 Aug 6.
BACKGROUND
Heparin-bonded polytetrafluorethylene (hep PTFE), when compared with standard PTFE, has been shown to have a modest improvement in distal extremity bypass grafts. The data supporting its usage for dialysis access are less clear. We compared the patency rates, number of interventions, and complications between hep PTFE grafts and nonheparin-bonded PTFE (nonhep PTFE) grafts placed for dialysis access.
METHODS
A retrospective review of all dialysis access procedures between January 2013 and March 2014 entered into a prospectively maintained vascular surgery database was performed. Our primary end point was functional graft patency. Secondary end points were primary, primary assisted, and secondary patency, as well as time to graft abandonment, and number of procedures required to maintain or restore graft patency. The number of interventions required to maintain graft patency and graft-related complications were also reviewed. Kaplan-Meier curves were used to compare the 2 groups.
RESULTS
Between January 2013 and March 2014, 301-dialysis access procedures were performed, which included 70 arteriovenous grafts (AVGs) comprised 32 hep PTFE (32, 6-mm straight grafts) and 38 nonhep PTFE (35, 4-7-mm taper and 3, 6-mm straight). Mean follow-up was 7.35 ± 5.15 months. At 1 year, Kaplan-Meier survival curves showed that functional patency between hep PTFE and nonhep PTFE AVG were 60% and 75%, respectively (P = 0.37). Primary and secondary patencies were not significantly different between groups; however, primary-assisted patency was significantly improved at 1 year (hep PTFE versus nonhep PTFE: 50% vs. 80%; P = 0.02). The number of hep PTFE grafts undergoing percutaneous thrombectomy was significantly higher than the nonhep PTFE grafts (11 vs. 2; P = 0.009). The incidence and time to graft abandonment were not statistically different. The same was true for the number of complications between the 2 groups. Multivariate analysis showed nonhep PTFE AVG to be advantageous for primary and primary-assisted patency.
CONCLUSIONS
We did not demonstrate a benefit to the routine use of hep PTFE for AVG creation especially given the higher cost of these grafts. Functional patency rates were not improved, and the rates of reintervention and thrombectomy were higher with hep PTFE AVGs.
背景
与标准聚四氟乙烯(PTFE)相比,肝素结合聚四氟乙烯(hep PTFE)已显示在下肢远端旁路移植术中能有适度改善。支持其用于透析通路的数据尚不清楚。我们比较了用于透析通路的hep PTFE移植物和非肝素结合PTFE(nonhep PTFE)移植物的通畅率、干预次数及并发症情况。
方法
对2013年1月至2014年3月录入前瞻性维护的血管外科数据库的所有透析通路手术进行回顾性分析。我们的主要终点是功能性移植物通畅。次要终点是初次通畅、初次辅助通畅和二次通畅,以及移植物废弃时间和维持或恢复移植物通畅所需的手术次数。还回顾了维持移植物通畅所需的干预次数和与移植物相关的并发症。采用Kaplan-Meier曲线比较两组。
结果
2013年1月至2014年3月期间,共进行了301例透析通路手术,其中包括70例动静脉移植物(AVG),包括32例hep PTFE(32根6毫米直型移植物)和38例nonhep PTFE(35根4 - 7毫米锥形和3根6毫米直型)。平均随访时间为7.35±5.15个月。1年时,Kaplan-Meier生存曲线显示hep PTFE和nonhep PTFE AVG的功能性通畅率分别为60%和75%(P = 0.37)。两组间初次和二次通畅率无显著差异;然而,1年时初次辅助通畅率有显著改善(hep PTFE与nonhep PTFE:50%对80%;P = 0.02)。接受经皮血栓切除术的hep PTFE移植物数量显著高于nonhep PTFE移植物(11例对2例;P = 0.009)。移植物废弃的发生率和时间无统计学差异。两组间并发症数量情况相同。多因素分析显示nonhep PTFE AVG在初次和初次辅助通畅方面具有优势。
结论
我们未证明常规使用hep PTFE进行AVG创建有好处,特别是考虑到这些移植物成本更高。功能性通畅率未提高,hep PTFE AVG的再次干预和血栓切除术发生率更高。
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