[Development, techniques, and utility of experimental animal models of thoracic and abdominal aortic aneurysms].

Carlos C Bravo-Reyna, Jacqueline Mejía-Cervantes, Ana T Verduzco-Vázquez, Cristopher Sánchez-Rodríguez, Leonardo Cuervo-Vargas, Luis A Medina-Velázquez, Víctor Gómez-Vergara, Carlos A Hinojosa, Javier E Anaya-Ayala
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引用次数: 0

Abstract

Aneurysms are clinical entities that can develop and affect human aorta; and although in most cases they have an asymptomatic course, these pathological dilatations can lead to a lethal outcome when rupture occurs, thus the establishment of predictors is crucial for death prevention. Essential events that take place in the vessel wall have been identified and described, such as inflammation, proteolysis, smooth muscle cell apoptosis, angiogenesis, and vascular remodeling. Porcine and ovine models have been useful for the development and evaluation of endovascular devices of the aorta. However, since the worldwide introduction and adoption of these minimally invasive techniques for aneurysm repair, there is lesser availability of diseased aortic tissue for molecular, cellular, and histopathological analysis, therefore over the last three decades it has been proposed various small species models that have allowed the focal induction of these lesions for the study of physiopathological mechanisms and possible useful biomarkers as diagnostic and therapeutic targets. The present review article presents and discusses the animal models available as their applications, characteristics, advantages, and limitations for the development of preclinical studies, and their importance in the comprehension of this pathology in humans.

[胸主动脉瘤和腹主动脉瘤实验动物模型的开发、技术和实用性]。
动脉瘤是一种可影响人体主动脉的临床实体,虽然在大多数情况下无症状,但一旦发生破裂,这些病理扩张可导致致命后果,因此建立预测指标对预防死亡至关重要。血管壁中发生的基本事件已被确定和描述,如炎症、蛋白分解、平滑肌细胞凋亡、血管生成和血管重塑。猪和鹅模型一直是开发和评估主动脉血管内装置的有用工具。然而,自从这些微创动脉瘤修复技术在全球范围内被引入和采用以来,可用于分子、细胞和组织病理学分析的病变主动脉组织越来越少,因此在过去的三十年里,人们提出了各种小型物种模型,这些模型可对这些病变进行病灶诱导,以研究生理病理机制和可能作为诊断和治疗目标的有用生物标志物。本综述文章介绍并讨论了现有的动物模型及其在临床前研究中的应用、特点、优势和局限性,以及这些动物模型在理解人类病理方面的重要性。
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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