Abstract 13324: Impact of Chronic Electronic Cigarette Vapor Exposure on the Recovery of Cardiovascular Function in Experimental Rat Myocardial Ischemia/Reperfusion Model

Abstract

Background: The impact of long-term electronic cigarettes (E-cig) vaping on cardiovascular function in rats were investigated. Methods: Sprague Dawley rats (both sex, 6 weeks old) were randomly exposed to filtered air (n=32), E-cig with nicotine (E-cig Nic + , n=26), E-cig without nicotine (E-cig Nic - , n=26), or standard cigarette smoke (n=31). After exposure to inhalation exposure for 8 weeks, the rats were subjected to 30 minutes of left coronary artery occlusion followed by 3 hours of reperfusion. Cardiovascular function was measured with intracavitary Millar catheters and echocardiography during the surgical procedure. Results: As the data shown in the Table, at 2.5 hours after coronary artery reperfusion, heart rate, cardiac output and positive/negative LV dp/dt were lower in the E-cig Nic + group compared to the air and/or cigarette group. LVFS in the cigarette group was higher than compared to E-cig Nic + or air group. There was a significantly higher systemic arterial resistance in the E-cig Nic + group compared to the cigarette group. Conclusions: Chronic E-cig Nic + exposure impairs the cardiovascular function recovery during the phase of coronary artery reperfusion after heart attack, indicated by reductions of heart rate, cardiac output, LV positive and negative dp/dt (suggesting a reduction in contractility and relaxation); and increase in systemic arterial resistance in the setting of experimental acute myocardial infarction compared to air and/or standard cigarette smoke.