腹主动脉瘤表面扩张的空间分布及其与最大直径和体积增长的相关性
Spatial Distribution of Abdominal Aortic Aneurysm Surface Expansion and Correlation With Maximum Diameter and Volume Growth.
作者信息
Tzirakis Konstantinos, Kontopodis Nikolaos, Metaxa Eleni, Ioannou Christos V, Papaharilaou Yannis
机构信息
Institute of Applied and Computational Mathematics, Foundation for Research and Technology-Hellas, Greece; Biomechanics Laboratory, Department of Mechanical Engineering, Technological Educational Institute of Crete, Estavromenos, Heraklion, Crete, Greece.
Department of Vascular Surgery, University of Crete Medical School, Heraklion, Greece.
出版信息
Ann Vasc Surg. 2019 Jul;58:276-288. doi: 10.1016/j.avsg.2018.12.071. Epub 2019 Feb 16.
BACKGROUND
Abdominal aortic aneurysm (AAA) growth rate, measured as maximum diameter (Dmax) change over time, is used as a surrogate marker of rupture risk. However, AAA expansion presents significant spatial variability. We aim to record the spatial distribution of regional wall surface expansion.
METHODS
Thirty AAAs were retrospectively studied. Each AAA had one baseline and at least one follow-up computed tomography scan. Three-dimensional AAA models were reconstructed, and change in Dmax and total aneurysm volume was recorded to calculate annual growth rates. Regional surface growth was quantified using the VascForm algorithm, which is based on nonrigid point cloud registration and iterative closest point analysis. Maximum and average surface growths were calculated and correlated with the diameter/volume growth rates. Furthermore, to identify potential correlation between maximum thrombus (intraluminal thrombus) thickness and maximum surface growth, as well as between peak wall stress (PWS) and surface growth, their colocalization was examined.
RESULTS
The median average annual surface growth was 6% (0%-28%), and the maximum surface growth 24% (11%-238%). There was strong evidence of a moderate correlation between Dmax and average as well as maximum surface growth. Regarding volumes, there was strong evidence of a very strong association with average surface growth rate and a moderate association with maximum surface growth rate (rho: 0.91, P < 0.001; rho: 0.7, P < 0.001, respectively). In 51.6% of the follow-ups, maximum surface growth occurred away from Dmax site. Sixteen cases presented maximum surface growth away and fifteen at the region of maximum initial intraluminal thrombus thickness. AAAs in the former group had significantly thinner initial intraluminal thrombus thickness (11.3 vs 19.5 mm, P < 0.001) than those in the latter. Apart from a single case, maximum surface growth did not occur at the PWS region.
CONCLUSIONS
More than half of the lesions display maximum growth away from Dmax, suggesting that a more accurate method of analyzing AAA growth needs to be established in clinical practice that will take into account local surface growth.
背景
腹主动脉瘤(AAA)的生长速率以最大直径(Dmax)随时间的变化来衡量,用作破裂风险的替代标志物。然而,AAA的扩张存在显著的空间变异性。我们旨在记录区域壁表面扩张的空间分布。
方法
对30个AAA进行回顾性研究。每个AAA有一次基线和至少一次随访计算机断层扫描。重建三维AAA模型,记录Dmax和总动脉瘤体积的变化以计算年增长率。使用基于非刚性点云配准和迭代最近点分析的VascForm算法对区域表面生长进行量化。计算最大和平均表面生长,并与直径/体积生长速率相关联。此外,为了确定最大血栓(腔内血栓)厚度与最大表面生长之间以及峰值壁应力(PWS)与表面生长之间的潜在相关性,检查了它们的共定位情况。
结果
平均年表面生长中位数为6%(0%-28%),最大表面生长为24%(11%-238%)。有充分证据表明Dmax与平均以及最大表面生长之间存在中度相关性。关于体积,有充分证据表明与平均表面生长速率有非常强的关联,与最大表面生长速率有中度关联(rho分别为0.91,P < 0.001;rho为0.7,P < 0.001)。在51.6%的随访中,最大表面生长发生在远离Dmax的部位。16例最大表面生长发生在远离该部位,15例发生在初始腔内血栓厚度最大的区域。前一组的AAA初始腔内血栓厚度(11.3对19.5 mm,P < 0.001)明显薄于后一组。除1例病例外,最大表面生长未发生在PWS区域。
结论
超过一半的病变显示最大生长远离Dmax,这表明在临床实践中需要建立一种更准确的分析AAA生长的方法,该方法应考虑局部表面生长。
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