Format
Scientific article
Publication Date
Published by / Citation
Wang, Z., Wang, L., Tapa, S., Pinkerton, K. E., Chen, C. Y., & Ripplinger, C. M. (2018). Exposure to Secondhand Smoke and Arrhythmogenic Cardiac Alternans in a Mouse Model. Environmental Health Perspectives, 126(12), 127001.
Original Language

English

Country
United States
Keywords
second-hand smoke
second-hand effects
second-hand harm
secondhand smoke
arrythmogenic cardiac effect

Exposure to Secondhand Smoke and Arrhythmogenic Cardiac Alternans in a Mouse Model

Abstract

Background:

Epidemiological evidence suggests that a majority of deaths attributed to secondhand smoke (SHS) exposure are cardiovascular related. However, to our knowledge, the impact of SHS on cardiac electrophysiology, Ca2+Ca2+ handling, and arrhythmia risk has not been studied.

Objectives:

The purpose of this study was to investigate the impact of an environmentally relevant concentration of SHS on cardiac electrophysiology and indicators of arrhythmia.

Methods:

Male C57BL/6 mice were exposed to SHS [total suspended particles (THS): 3.0±0.1  mg/m33.0±0.1  mg/m3, nicotine: 0.4±0.2 mg/m30.4±0.2 mg/m3, carbon monoxide: 12.4±1.6 ppm12.4±1.6 ppm, or filtered air (FA) for 4, 8, or 12 wk (n=4–5/groupn=4–5/group]. Hearts were excised and Langendorff perfused for dual optical mapping with voltage- and Ca2+Ca2+-sensitive dyes.

Results:

At slow pacing rates, SHS exposure did not alter baseline electrophysiological parameters. With increasing pacing frequency, action potential duration (APD), and intracellular Ca2+Ca2+ alternans magnitude progressively increased in all groups. At 4 and 8 wk, there were no statistical differences in APD or Ca2+Ca2+ alternans magnitude between SHS and FA groups. At 12 wk, both APD and Ca2+Ca2+ alternans magnitude were significantly increased in the SHS compared to FA group (p<0.05p<0.05). SHS exposure did not impact the time constant of Ca2+Ca2+ transient decay (ττ) at any exposure time point. At 12 wk exposure, the recovery of Ca2+Ca2+ transient amplitude with premature stimuli was slightly (but nonsignificantly) delayed in SHS compared to FA hearts, suggesting that Ca2+Ca2+ release via ryanodine receptors may be impaired.

Conclusions:

In male mice, chronic exposure to SHS at levels relevant to social situations in humans increased their susceptibility to cardiac alternans, a known precursor to ventricular arrhythmia. https://doi.org/10.1289/EHP3664