Abstract 454: Plasticizer Interaction With the Heart: Chemicals Used in Plastic Medical Devices Can Interfere With Cardiac Electrophysiology

Abstract

Background: Phthalates are employed as plasticizers in the manufacturing of flexible, plastic medical products. Patients can be subjected to high phthalate exposure through contact with plastic medical devices. We aimed to investigate the cardiac safety and biocompatibility of mono-2-ethylhexyl phthalate (MEHP), a phthalate with documented exposure in intensive care patients. Methods and Results: Optical mapping of transmembrane voltage and pacing studies were performed on isolated, Langendorff-perfused rat hearts to assess cardiac electrophysiology after MEHP exposure compared with controls. MEHP dose was chosen based on reported blood concentrations following an exchange transfusion procedure. 30-min exposure to MEHP increased the atrioventricular node (147 vs. 107msec) and ventricular (117 vs. 77.5msec) effective refractory periods, compared with controls. Optical mapping revealed prolonged action potential duration (APD) at slower pacing cycle lengths, akin to reverse use-dependence. The plateau phase of the APD restitution curve steepened and became monophasic in MEHP-exposed hearts (0.18 vs. 0.06 slope). APD lengthening occurred during late-phase repolarization resulting in triangulation (70.3 vs. 56.6 msec). MEHP-exposure also slowed epicardial conduction velocity (35 vs. 60 cm/sec), which may be partly explained by inhibition of Na v 1.5 (874 μM and 231 μM IC50, fast and late sodium current). Conclusions: This study highlights the impact of acute MEHP exposure, using a clinically-relevant dose, on cardiac electrophysiology in the intact heart. Heightened clinical exposure to plasticized medical products may have cardiac safety implications – given that action potential triangulation and electrical restitution modifications are a risk factor for early after depolarizations and cardiac arrhythmias.