European Laboratory for Non-Linear Spectroscopy, 50019, Sesto Fiorentino (FI), Italy.
National Institute of Optics, National Research Council, 50125, Florence, Italy.
Prog Biophys Mol Biol. 2020 Aug;154:21-29. doi: 10.1016/j.pbiomolbio.2019.08.012. Epub 2020 Feb 13.
Atrial fibrillation (AF) is the most common cardiac arrhythmia, associated with an increased risk of stroke and heart failure. Acute AF occurs in response to sudden increases of atrial hemodynamic load, leading to atrial stretch. The mechanisms of stretch-induced AF were investigated in large mammals with controversial results. We optimized an approach to monitor rat atrial electrical activity using a red-shifted voltage sensitive dye (VSD). The methodology includes cauterization of the main ventricular coronary arteries, allowing improved atrial staining by the VSD and appropriate atrial perfusion for long experiments. Next, we developed a rat model of acute biatrial dilation (ABD) through the insertion of latex balloons into both atria, which could be inflated with controlled volumes. A chronic model of atrial dilation (spontaneous hypertensive rats; SHR) was used for comparison. ABD was performed on atria from healthy Wistar-Kyoto (WKY) rats (WKY-ABD). The atria were characterized in terms of arrhythmias susceptibility, action potential duration and conduction velocity. The occurrence of arrhythmias in WKY-ABD was significantly higher compared to non-dilated WKY atria. In WKY-ABD we found a reduction of conduction velocity, similar to that observed in SHR atria, while action potential duration was unchanged. Low-dose caffeine was used to introduce a drop of CV in WKY atria (WKY-caff), quantitatively similar to the one observed after ABD, but no increased arrhythmia susceptibility was observed with caffeine only. In conclusion, CV decrease is not sufficient to promote arrhythmias; enlargement of atrial surface is essential to create a substrate for acute reentry-based arrhythmias.
心房颤动(AF)是最常见的心律失常,与中风和心力衰竭的风险增加有关。急性 AF 是对心房血流动力学负荷突然增加的反应,导致心房拉伸。使用大型哺乳动物研究了拉伸诱导 AF 的机制,但结果存在争议。我们优化了一种使用红移电压敏感染料(VSD)监测大鼠心房电活动的方法。该方法包括烧炙主要心室冠状动脉,允许 VSD 更好地对心房进行染色,并为长期实验提供适当的心房灌注。接下来,我们通过将乳胶球插入两个心房中开发了一种急性双心房扩张(ABD)的大鼠模型,该模型可以用控制的体积充气。使用慢性心房扩张模型(自发性高血压大鼠;SHR)进行比较。在健康的 Wistar-Kyoto(WKY)大鼠(WKY-ABD)的心房上进行 ABD。从心律失常易感性、动作电位持续时间和传导速度等方面对心房进行了特征描述。与非扩张的 WKY 心房相比,WKY-ABD 中心律失常的发生明显更高。在 WKY-ABD 中,我们发现传导速度降低,与 SHR 心房中观察到的相似,而动作电位持续时间不变。使用低剂量咖啡因在 WKY 心房中引入 CV 下降(WKY-caff),与 ABD 后观察到的下降定量相似,但仅使用咖啡因时并未观察到心律失常易感性增加。总之,CV 下降不足以引起心律失常;心房表面的扩大对于创建基于急性折返的心律失常的基质是必要的。
