A murine model of aortic regurgitation generated by trans-apical wire destruction of the aortic valve

Q1 Health Professions

Animal models and experimental medicine Pub Date : 2025-02-07 DOI:10.1002/ame2.12558

Xiaoxia Huang, Qiancheng Wang, Dan Han, Hairuo Lin, Zhihong Li, Cankun Zheng, Jianping Bin, Wangjun Liao, Zhanchun Cong, Mengjia Shen, Yulin Liao

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Abstract

Background

The mechanisms underlying cardiac remodeling in aortic valvular (AoV) disease remain poorly understood, partially due to the insufficiency of appropriate preclinical animal models. Here, we present a novel murine model of aortic regurgitation (AR) generated by trans-apical wire destruction of the AoV.

Methods

Directed by echocardiography, apical puncture of the left ventricle (LV) was performed in adult male C57BL/6 mice, and a metal guidewire was used to induce AoV destruction. Echocardiography, invasive LV hemodynamic and histological examination were conducted to assess the degree of AR, LV function and remodeling.

Results

AR mice exhibited rapid aortic regurgitation velocity (424 ± 15.22 mm/s) immediately following successful surgery. Four weeks post-surgery, echocardiography revealed a 54.6% increase in LV diastolic diameter and a 55.1% decrease in LV ejection fraction in AR mice compared to sham mice. Pressure-volume catheterization indicated that AR mice had significantly larger LV end-diastolic volumes (66.2 ± 1.5 μL vs. 41.8 ± 3.4 μL), reduced LV contractility (lower dP/dt_max and Ees), and diminished LV compliance (smaller dP/dt_min and longer Tau) compared to sham mice. Histological examination demonstrated that AR mice had significantly larger cardiomyocyte area and more myocardial fibrosis in LV tissue, as well as a 107% and a 122% increase of heart weight/tibial length and lung weight/tibial length, respectively, relative to sham mice.

Conclusions

The trans-apex wire-induced destruction of the AoV establishes a novel and efficient murine model to develop AR, characterized by significant eccentric LV hypertrophy, heart failure, and pulmonary congestion.

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主动脉瓣经根尖钢丝破坏引起的主动脉反流小鼠模型。

背景：主动脉瓣（AoV）疾病中心脏重构的机制尚不清楚，部分原因是缺乏合适的临床前动物模型。在这里，我们提出了一种新的小鼠主动脉反流（AR）模型，该模型是由主动脉瓣经根尖丝破坏引起的。方法：在超声心动图指导下，对成年雄性C57BL/6小鼠左心室（LV）进行根尖穿刺，用金属导丝诱导AoV破坏。通过超声心动图、有创左室血流动力学及组织学检查，评估AR程度、左室功能及重构情况。结果：手术成功后，AR小鼠主动脉反流速度迅速（424±15.22 mm/s）。术后4周，超声心动图显示，与假手术小鼠相比，AR小鼠左室舒张直径增加54.6%，左室射血分数下降55.1%。压力容积插管显示，与假手术小鼠相比，AR小鼠左室舒张末期容积明显增大（66.2±1.5 μL vs. 41.8±3.4 μL），左室收缩性降低（dP/dtmax和Ees降低），左室顺应性降低（dP/dtmin减小，Tau延长）。组织学检查显示，AR小鼠心肌细胞面积明显增大，左室组织心肌纤维化明显增多，心脏重量/胫骨长度和肺重量/胫骨长度分别比假手术小鼠增加107%和122%。结论：经心尖导线诱导的AoV破坏建立了一种新的、有效的小鼠AR模型，其特征是明显的左室偏心肥厚、心力衰竭和肺充血。

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