Dias Nuno V, Billberg Helen, Sonesson Björn, Törnqvist Per, Resch Tim, Kristmundsson Thórarinn
Vascular Center, Malmö, Skåne University Hospital, Malmö, Sweden.
Vascular Center, Malmö, Skåne University Hospital, Malmö, Sweden.
J Vasc Surg. 2016 May;63(5):1147-55. doi: 10.1016/j.jvs.2015.11.033. Epub 2016 Jan 6.
This study evaluated the effects of a combined imaging protocol using low-frequency pulsed fluoroscopy, fusion imaging, and low-concentration iodine contrast for endovascular aneurysm repair (EVAR) of aortic aneurysms of varying complexity.
The study retrospectively reviewed the data of 103 patients treated between May 2013 and November 2014 with the combined imaging protocol (group A) with low-dose fluoroscopy at 3.75 frames/s, fusion imaging, and iodine contrast of 140 mg iodine/mL. A control group (group B) consisted of 123 consecutive patients who underwent EVAR before the combined imaging protocol was introduced by matching the type of procedure. In group B, low-dose 7.5 frames/s fluoroscopy, no fusion imaging, and 200 mg iodine/mL contrast were used. All patients were reviewed for preoperative, intraoperative, and postoperative variables, with emphasis on intraoperative radiation (dose area product) and iodine exposure, fluoroscopy, and operation times, as well as technical success. Values are presented as median and interquartile range (IQR) when not stated otherwise.
Group A included 22 infrarenal EVARs, 17 iliac branch devices, 10 thoracic endovascular aortic repairs, 21 fenestrated EVARs, and 33 thoracoabdominal branched/fenestrated EVARs. Groups A and B were similar in types of procedure, body mass index (P > .05), and intraoperative technical success (92% and 92%, respectively; P > .05). Operation time (230 [IQR, 138-331] minutes vs 235 [IQR, 158-364] minutes) and fluoroscopy time (66 [IQR, 33-101] minutes vs 72 [IQR, 42-102] minutes) were similar in both groups (P > .05), but radiation exposure (19,934 [IQR, 11,340-30,615] μGym(2) vs 32,856 [IQR, 19,562-55,677] μGym(2); P < .0001), contrast volume usage (63 [IQR, 103-145] mL vs 215 [IQR, 166-280] mL; P < .0001), and iodine dose (14.5 [IQR, 8.8-20.4] g iodine vs 43.0 [IQR, 32.2-56.0] g iodine; P < .0001) were lower in group A than in group B. The differences were uniform throughout the different procedure types, with the exception of fenestrated grafts, where radiation exposure was similar between group A and B; however, group A had a much higher involvement of the superior mesenteric artery in the repairs (81% vs 17%; P < .0001) explaining this finding. Fluoroscopic frame rate reduction contributed to a median reduction of the dose area product by 22%. Only four of the group A patients (3.9%) showed a decrease in the glomerular filtration rate ≥30% after EVAR, although 32% of the entire group had at least moderately impaired renal function preoperatively.
Combining low-frequency pulsed fluoroscopy, fusion imaging, low-concentration, and iodine contrast medium during EVAR reduces the exposure to radiation and iodine.
本研究评估了一种联合成像方案,该方案采用低频脉冲透视、融合成像和低浓度碘造影剂,用于不同复杂程度主动脉瘤的血管内动脉瘤修复术(EVAR)。
本研究回顾性分析了2013年5月至2014年11月期间接受联合成像方案治疗的103例患者的数据(A组),该方案采用3.75帧/秒的低剂量透视、融合成像以及140mg碘/mL的碘造影剂。对照组(B组)由123例连续患者组成,这些患者在联合成像方案引入之前接受了EVAR,通过匹配手术类型进行对照。在B组中,采用7.5帧/秒的低剂量透视、无融合成像以及200mg碘/mL的造影剂。对所有患者的术前、术中和术后变量进行评估,重点关注术中辐射(剂量面积乘积)和碘暴露、透视时间和手术时间以及技术成功率。除非另有说明,数值以中位数和四分位数间距(IQR)表示。
A组包括22例肾下EVAR、17例髂支装置、10例胸主动脉腔内修复术、21例开窗EVAR以及33例胸腹分支/开窗EVAR。A组和B组在手术类型、体重指数(P>.05)和术中技术成功率(分别为92%和92%;P>.05)方面相似。两组的手术时间(230[IQR,138 - 331]分钟 vs 235[IQR,158 - 364]分钟)和透视时间(66[IQR,33 - 101]分钟 vs 72[IQR,42 - 102]分钟)相似(P>.05),但A组的辐射暴露(19,934[IQR,11,340 - 30,615]μGym² vs 32,856[IQR,19,562 - 55,677]μGym²;P<.0001)、造影剂用量(63[IQR,103 - 145]mL vs 215[IQR,166 - 280]mL;P<.0001)和碘剂量(14.5[IQR,8.8 - 20.4]g碘 vs 43.0[IQR,32.2 - 56.0]g碘;P<.0001)均低于B组。除开窗移植物外,不同手术类型的差异均一致,在开窗移植物中,A组和B组的辐射暴露相似;然而,A组在修复过程中肠系膜上动脉的累及程度更高(81% vs 17%;P<.0001),这解释了这一发现。透视帧率降低使剂量面积乘积中位数降低了22%。A组中只有4例患者(3.9%)在EVAR后肾小球滤过率下降≥30%,尽管整个组中有32%的患者术前至少有中度肾功能损害。
在EVAR过程中联合使用低频脉冲透视、融合成像、低浓度碘造影剂可减少辐射和碘暴露。
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