动脉瘤扩张情况下腹主动脉的变形及扩张性分布。
Deformation and distensibility distribution along the abdominal aorta in the presence of aneurysmal dilatation.
作者信息
Kontopodis Nikolaos, Metaxa Eleni, Pagonidis Konstantinos, Ioannou Christos, Papaharilaou Yannis
机构信息
Department of Vascular Surgery, University of Crete Medical School, Heraklion, Greece.
Institute of Applied and Computational Mathematics, Foundation for Research and Technology‑Hellas, Heraklion, Greece.
出版信息
J Cardiovasc Surg (Torino). 2017 Feb;58(1):72-79. doi: 10.23736/S0021-9509.16.07737-5. Epub 2013 Dec 10.
BACKGROUND
In order to evaluate the elastic behavior of the abdominal aortic aneurysm (AAA), the distribution of aortic deformation during the cardiac cycle is measured. Moreover, the distensibility of the AAA composite structure consisting of the AAA wall and the intraluminal thrombus (ILT), as well as that of the adjacent non-aneurysmal aortic segment (NAA), are calculated.
METHODS
Ten patients underwent electrocardiographically-gated computed tomography. 3D-surfaces of aortic wall and lumen were reconstructed during peak-systole and end-diastole and cross-sections perpendicular to the centerline were extracted 1 mm apart. Comparison of cross-sectional areas between peak-systole and end-diastole provided the relative area change (RAC). Mean values were calculated for NAA (RACNAA), aneurysmal wall (RACWall), and aneurysmal lumen (RACLumen). Distensibility of aneurysmal and unaffected aorta was calculated using brachial blood pressure measurements (DAAA and DNAA respectively). Normalized distensibility (DNORM) of the AAA was calculated with respect to normal aortic segment distensibility and related to aneurysm size and thrombus content.
RESULTS
A map of aortic deformation during the cardiac cycle was obtained. Differences between RACWall (median=0.7%, range=0.3-2.1%) and both RACNAA (median=2.8%, range=0.9-4.8%) and RACLumen (median=1.8%, range=0.5-3.4%) were statistically significant. DAAA (median=0.30∙10-5 Pa-1, range=0.05-0.64∙10-5 Pa-1) was lower than DNAA (median=0.43∙10-5 Pa-1, range=0.16-0.83∙10-5 Pa-1) but difference was not statistically significant. Median DNORM was 0.73 (range=0.1-3.1) and presented a significant positive correlation with AAA size and thrombus content.
CONCLUSIONS
Aneurysmal wall deforms significantly less than non-aneurysmal wall and aneurysmal lumen, due to altered elastic properties and reduced loading. In large AAAs with larger amounts of ILT, the lumen deformation is comparable or even exceeds that of NAA and subsequently so does the distensibility of the Wall-ILT composite, an observation suggesting a thrombus cushioning effect. DNORM may provide insight in the estimation of AAA evolution and assist in rupture risk assessment.
背景
为了评估腹主动脉瘤(AAA)的弹性行为,测量心动周期中主动脉的变形分布。此外,计算由AAA壁和腔内血栓(ILT)组成的AAA复合结构以及相邻非动脉瘤性主动脉段(NAA)的扩张性。
方法
10例患者接受了心电图门控计算机断层扫描。在收缩末期和舒张末期重建主动脉壁和管腔的三维表面,并每隔1mm提取垂直于中心线的横截面。比较收缩末期和舒张末期的横截面积可得出相对面积变化(RAC)。计算NAA(RACNAA)、动脉瘤壁(RACWall)和动脉瘤管腔(RACLumen)的平均值。使用肱动脉血压测量值分别计算动脉瘤性和未受影响主动脉的扩张性(分别为DAAA和DNAA)。根据正常主动脉段扩张性计算AAA的标准化扩张性(DNORM),并与动脉瘤大小和血栓含量相关。
结果
获得了心动周期中主动脉变形的图谱。RACWall(中位数=0.7%,范围=0.3 - 2.1%)与RACNAA(中位数=2.8%,范围=0.9 - 4.8%)和RACLumen(中位数=1.8%,范围=0.5 - 3.4%)之间的差异具有统计学意义。DAAA(中位数=0.30∙10-5 Pa-1,范围=0.05 - 0.64∙10-5 Pa-1)低于DNAA(中位数=0.43∙10-5 Pa-1,范围=0.16 - 0.83∙10-5 Pa-1),但差异无统计学意义。DNORM中位数为0.73(范围=0.1 - 3.1),与AAA大小和血栓含量呈显著正相关。
结论
由于弹性特性改变和负荷降低,动脉瘤壁的变形明显小于非动脉瘤壁和动脉瘤管腔。在具有大量ILT的大型AAA中,管腔变形与NAA相当甚至超过NAA,随后壁 - ILT复合材料的扩张性也是如此,这一观察结果提示了血栓缓冲作用。DNORM可能有助于深入了解AAA的演变并协助进行破裂风险评估。
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