Ultrasound imaging for assessing aortic phenotypes: A preclinical tool for measuring cardiac disease model progression and therapeutic effect

WFUMB Ultrasound Open Pub Date : 2024-07-20 DOI:10.1016/j.wfumbo.2024.100060

James Cao , Alex Jayyosi , Jennifer Nietupski , Giulio Tomassy , Ingeborg M. Langohr , Michelle Potter , Srinivas Rao , Dinesh S. Bangari , Xiaoyou Ying

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Abstract

Cardiac dysfunction is a common feature of numerous diseases, ranging from metabolic disorders like Mucopolysaccharidosis Type 1 (MPS I), a.k.a. Hurler syndrome to neuromuscular disorders such as Myotonic Dystrophy type 1 (DM1). The ability to quantify cardiac abnormalities in animal models of these diseases is a valuable translational tool for preclinical testing of novel therapeutic approaches. In contrast to methods that measure the left ventricle (LV) phenotype, we employed ultrasound imaging to assess the ascending aortic diameter and ascending aortic blood velocity.

Methods

We imaged two disease models - MPS I Hurler mouse model and DM1 mouse model (DMSXL) - using the Vevo2100 platform. Ascending aortic diameter in the proximal thoracic aortic region and ascending aortic blood velocity just before the branching point of the brachiocephalic artery were measured as rapid imaging readouts. In addition, histopathology was performed on relevant tissue samples.

Results

The two mouse models demonstrate opposing aorta phenotypes. Hurler mice had a dilated aorta and slightly increased blood velocity with disease progression, while the aorta diameter in DMSXL mice narrowed and had a blood velocity decrease as the disease progressed. In the Hurler model, we demonstrated that a single dose of adeno-associated virus (AAV) delivered gene therapy provides aortic phenotype improvement. In the DMSXL model, we established aortic phenotype criteria at baseline.

Conclusion

Ultrasound imaging of aortic diameter and blood velocity can offer objective and longitudinal assessments of disease progression and treatment efficacy in real time. This method might therefore have noninvasive clinical applicability as phenotype indicator of cardiac dysfunction.

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用于评估主动脉表型的超声波成像：测量心脏病模型进展和治疗效果的临床前工具

心脏功能障碍是许多疾病的共同特征，这些疾病包括 1 型黏多醣症（MPS I）（又称赫勒综合征）等代谢性疾病，以及 1 型肌营养不良症（DM1）等神经肌肉疾病。在这些疾病的动物模型中量化心脏异常的能力是一种宝贵的转化工具，可用于新型治疗方法的临床前测试。与测量左心室（LV）表型的方法不同，我们采用超声成像来评估升主动脉直径和升主动脉血流速度。方法我们使用 Vevo2100 平台对两种疾病模型--MPS I Hurler 小鼠模型和 DM1 小鼠模型（DMSXL）--进行了成像。作为快速成像读数，我们测量了胸主动脉近端区域的升主动脉直径和肱动脉分支点前的升主动脉血流速度。此外，还对相关组织样本进行了组织病理学检查。Hurler小鼠的主动脉扩张，血流速度随病情发展略有增加；而DMSXL小鼠的主动脉直径变窄，血流速度随病情发展而降低。在 Hurler 模型中，我们证明了单剂量腺相关病毒（AAV）递送基因疗法可改善主动脉表型。结论主动脉直径和血流速度的超声成像可对疾病进展和治疗效果进行客观、纵向的实时评估。因此，这种方法作为心功能不全的表型指标可能具有无创临床应用价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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WFUMB Ultrasound Open

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