Kaladji Adrien, Vent Pierre-Alexandre, Danvin Aurore, Chaillou Philippe, Costargent Alain, Guyomarch Béatrice, Quillard Thibaut, Gouëffic Yann
Rennes University Hospital, Centre of Cardiothoracic and Vascular Surgery, Rennes, France; INSERM, U1099, Rennes, France; University Rennes 1, Signal and Image Processing Laboratory (LTSI), Rennes, France.
Department of Vascular Surgery, Nantes University Hospital, Thorax Institute, Nantes, France.
Ann Vasc Surg. 2018 Feb;47:170-178. doi: 10.1016/j.avsg.2017.08.043. Epub 2017 Sep 8.
Vascular calcifications (VCs) may be a prognostic factor for outcome after endovascular treatment of peripheral arterial disease (PAD). Semiquantitative analysis with X-ray imaging is the main limiting factor for assessing VCs. The aim of the present study was to find a correlation between the amount of VC with computed tomography (CT) scan quantification and midterm results of endovascular treatment of Trans-Atlantic Inter-Society Consensus C/D femoropopliteal (FP) lesions.
Patients belonging to 2 previously published registries (STELLA and STELLA PTX) and who underwent a preoperative CT scan were retrospectively included in the study. VC quantification was performed with a dedicated workstation (EndoSize, Therenva) on the basis of Hounsfield units (HU). The VC percentage was calculated as the ratio between VC volume and the volume of the region of interest. For the analysis, patients were divided into 3 groups according to VC percentage, from lowest to highest: group 1 (G1) included the first quartile of VCs, group 2 (G2) included the second and third quartiles, and group 3 (G3) included the fourth quartile. Risk of in-stent thrombosis was analysed using a multivariate model.
Thirty-nine patients were included (10 in G1, 19 in G2, and 10 in G3), and mean follow-up duration was 24 ± 14.6 months. Patients in G1 and G3 had, respectively, a VC rate of <1% (no VC) and >20% (severe VC). In G2, VC was considered to be intermediate. There was no statistical difference in the cardiovascular risk factors and preoperative medication. A significant difference was found for the healthy FP diameter between G1 (4.6 ± 0.8 mm) and G3 (6.8 ± 0.8 mm, P < 0.0001) and between G2 (5.2 ± 1 mm) and G3 (P < 0.0001). The rate of drug-eluting stents was similar in all groups. There was no difference between groups concerning the rate of in-stent restenosis, target lesion revascularization, and target extremity revascularization. There was a higher rate of in-stent thrombosis for G1 versus G2 (P = 0.037), and no difference was noted between G1 versus G3 (P = 0.86) or G2 versus G3 (P = 0.12). G3 was associated with early stent thrombosis (<1 month), while G1 was associated with late stent thrombosis (6-24 months). On multivariate analysis, only one predictive factor for stent thrombosis was found: patients with intermediate VC seemed to be protected against in-stent thrombosis (odds ratio = 0.27, 95% confidence interval: 0.1-0.77; P = 0.014).
The study showed that VC quantification with CT imaging is feasible and useful for comparing outcomes following PAD endovascular revascularization. Below a certain threshold, the presence of VC might be necessary for plaque stability and may protect against in-stent thrombosis.
血管钙化(VC)可能是外周动脉疾病(PAD)血管内治疗后预后的一个因素。X线成像的半定量分析是评估VC的主要限制因素。本研究的目的是探讨通过计算机断层扫描(CT)扫描定量评估的VC量与跨大西洋两岸多学会共识C/D级股腘(FP)病变血管内治疗中期结果之间的相关性。
回顾性纳入2个先前发表的注册研究(STELLA和STELLA PTX)中接受术前CT扫描的患者。使用专用工作站(EndoSize,Therenva)基于亨氏单位(HU)进行VC定量。VC百分比计算为VC体积与感兴趣区域体积之比。为进行分析,根据VC百分比将患者分为3组,从低到高:第1组(G1)包括VC的第一个四分位数,第2组(G2)包括第二个和第三个四分位数,第3组(G3)包括第四个四分位数。使用多变量模型分析支架内血栓形成的风险。
纳入39例患者(G1组10例,G2组19例,G3组10例),平均随访时间为24±14.6个月。G1组和G3组患者的VC率分别<1%(无VC)和>20%(严重VC)。在G2组中,VC被认为是中等程度。心血管危险因素和术前用药方面无统计学差异。G1组(4.6±0.8mm)与G3组(6.8±0.8mm,P<0.0001)以及G2组(5.2±1mm)与G3组之间的健康FP直径存在显著差异(P<0.0001)。所有组中药物洗脱支架的使用率相似。各组之间在支架内再狭窄率、靶病变血运重建率和靶肢体血运重建率方面无差异。G1组与G2组相比,支架内血栓形成率更高(P=0.037),G1组与G3组(P=0.86)或G2组与G3组(P=0.12)之间无差异。G3组与早期支架血栓形成(<1个月)相关,而G1组与晚期支架血栓形成(6 - 24个月)相关。多变量分析发现,支架血栓形成的唯一预测因素是:中等VC的患者似乎可预防支架内血栓形成(优势比=0.27,95%置信区间:0.1 - 0.77;P=0.014)。
该研究表明,CT成像进行VC定量对于比较PAD血管内血运重建后的结果是可行且有用的。低于一定阈值时,VC的存在可能对斑块稳定性是必要的,并可预防支架内血栓形成。
