透视引导下左冠状动脉闭塞猪心肌梗死微创模型的建立。

Cardiology and cardiovascular medicine Pub Date : 2022-01-01 Epub Date: 2022-08-24 DOI:10.26502/fccm.92920284
Finosh G Thankam, Mohamed Radwan, Angelo Keklikian, Manreet Atwal, Taj Rai, Devendra K Agrawal
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引用次数: 1

摘要

背景:尽管心脏再生技术最近取得了进展,但缺乏一个理想的模拟急性心肌梗死(MI)临床环境的转化相关实验模型,阻碍了心脏再生策略的成功。方法:我们通过导管驱动的控制闭塞LCX分支建立了一种改良的尤卡坦微型微创急性心肌梗死模型,用于再生心脏病学。使用球囊导管对3头猪进行血管造影引导下LCX闭塞10-15分钟导致心肌梗死,与基线对照相比,病理ECG变化证实了这一点。结果:与基线相比,术后射血分数明显降低。重要的是,与基线对照组相比,心肌梗死后和随访组中高度敏感的心肌梗死生物标志物肌钙蛋白I以及LDH和CCK显著升高。死后梗死区组织表现出心肌梗死的典型特征,包括ECM紊乱、肥大、炎症和血管新生,在组织水平上证实了心肌梗死。结论:该模型具有死亡率低、模拟临床心肌梗死病理特征、适合于可注射再生治疗的优点,提示在再生心脏病学中的转化意义。
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Fluoroscopy Guided Minimally Invasive Swine Model of Myocardial Infarction by Left Coronary Artery Occlusion for Regenerative Cardiology.

Background: Despite the recent advancements in the cardiac regenerative technologies, the lack of an ideal translationally relevant experimental model simulating the clinical setting of acute myocardial infarction (MI) hurdles the success of cardiac regenerative strategies.

Methods: We developed a modified minimally invasive acute MI model in Yucatan miniswine by catheter-driven controlled occlusion of LCX branches for regenerative cardiology. Using a balloon catheter in three pigs, the angiography guided occlusion of LCX for 10-15 minutes resulted in MI induction which was confirmed by the pathological ECG changes compared to the baseline control.

Results: Ejection fraction was considerably decreased post-procedure compared to the baseline. Importantly, the highly sensitive MI biomarker Troponin I was significantly increased in post-MI and follow-up groups along with LDH and CCK than the baseline control. The postmortem infarct zone tissue displayed the classical features of MI including ECM disorganization, hypertrophy, inflammation, and angiogenesis confirming the MI at the tissue level.

Conclusions: The present model possesses the advantage of minimal mortality, simulating the pathological features of clinical MI and the suitability for injectable regenerative therapies suggesting the translational significance in regenerative cardiology.

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