Three-dimensional characterization of ascending aortic strain, motion and growth in patients undergoing thoracic endovascular aortic repair

IF 2 Q3 Medicine

JVS-vascular science Pub Date : 2025-01-01 DOI:10.1016/j.jvssci.2025.100293

Nicasius Tjahjadi MD , Carlos Campello Jorge MD , Prabhvir S. Marway MD , Taeouk Kim MSc , Timothy Baker PhD , Constantijn Hazenberg MD, PhD , Joost A. van Herwaarden MD, PhD , C. Alberto Figueroa PhD , Himanshu J. Patel MD , Nicholas S. Burris MD

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Abstract

Objective

We utilized vascular deformation mapping (VDM) to assess ascending aortic motion, regional stiffness and growth in patients who underwent zone 2/3 thoracic endovascular aortic repair (TEVAR) to quantify changes in ascending aorta biomechanics after endograft implantation.

Methods

Multi-planar, multi-directional aortic motion, aortic strain, and three-dimensional aortic growth was extracted by VDM from electrocardiography-gated computed tomography angiograms. Aortic displacement and strain were compared between patients who underwent TEVAR (both pre- and post-procedure) and in patients with dilated ascending aorta (>4.0 cm) and a non-dilated control group.

Results

One hundred twenty subjects were included for analysis. Between pre-TEVAR and post-TEVAR, total displacement decreased (4.87 ± 1.52 mm vs 4.13 ± 1.43 mm; P = .03). Ascending aortic cross-sectional area strain at the sinuses (SVS), mid-ascending (MA), and proximal arch (PA) were lower in the pre-TEVAR group (SVS, 8.3% ± 4.7%; MA, 6.2% ± 3.2%; PA, 6.3% ± 3.0%; all P < .001) compared with non-dilated controls (SVS, 14.0% ± 6.6%; MA, 14.9% ± 6.6%; PA, 14.9% ± 6.9%). TEVAR increased aortic strain at the MA (pre-TEVAR, 6.2% ± 3.2%; post-TEVAR, 8.5% ± 4.6%; P < .001) and PA (pre-TEVAR, 6.3% ± 3.0%; post-TEVAR, 9.0% ± 4.6%; P < .001). A moderate, negative correlation (R = −0.57; P = .007) between MA aortic growth rate and aortic strain was observed post-TEVAR.

Conclusions

Zone 2/3 TEVAR introduces changes in ascending aortic biomechanics. Patients with lower post-TEVAR strain, suggesting higher aortic stiffness, may be at highest risk of progressive growth. Imaging-based assessment of aortic biomechanics may help improve risk stratification for long-term outcomes post-TEVAR.

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胸椎血管内主动脉修复术患者升主动脉劳损、运动和生长的三维特征

目的应用血管变形测绘（VDM）技术评估2/3胸椎血管内主动脉修复术（TEVAR）患者的升主动脉运动、区域僵硬和生长情况，量化血管内植入术后升主动脉生物力学的变化。方法利用VDM技术提取心电图门控计算机断层扫描血管图像中的多平面、多向主动脉运动、主动脉应变和主动脉三维生长情况。比较TEVAR患者（术前和术后）、升主动脉扩张患者（4.0 cm）和未扩张对照组的主动脉位移和应变。结果共纳入120名受试者进行分析。tevar前后总位移减小（4.87±1.52 mm vs 4.13±1.43 mm）；P = .03)。tevar前组升主动脉窦（SVS）、中升（MA）和近弓（PA）处的横截面积应变较低(SVS, 8.3%±4.7%；Ma, 6.2%±3.2%；Pa, 6.3%±3.0%；所有P <；.001)，与未扩张对照组相比(SVS, 14.0%±6.6%；Ma, 14.9%±6.6%；Pa, 14.9%±6.9%)。TEVAR增加MA时主动脉应变(TEVAR前，6.2%±3.2%；tevar后，8.5%±4.6%；P & lt;.001)和PA (tevar前，6.3%±3.0%；tevar后，9.0%±4.6%；P & lt;措施)。中度负相关(R = - 0.57；P = .007)，观察tevar后主动脉生长速率与主动脉应变之间的关系。结论2/3区TEVAR引起升主动脉生物力学的改变。tevar后应变较低的患者，表明主动脉僵硬度较高，可能有最高的进行性生长风险。基于成像的主动脉生物力学评估可能有助于改善tevar后长期预后的风险分层。

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