Affiliation:
1. Lisbon School of Health Technology Polytechnic Institute of Lisbon Lisbon Portugal
2. School of Mathematics and Statistics The University of Sheffield Sheffield UK
3. School of Biosciences The University of Sheffield Sheffield UK
4. Biomolecular Sciences Research Centre Sheffield Hallam University Sheffield UK
Abstract
AbstractIntroductionCarbon monoxide (CO) is a toxic gas that can be lethal in large doses and may also cause physiological damage in lower doses. Epidemiological studies suggest that CO in lower doses over time may impact on embryo development, in particular cardiac development, however other studies have not observed this association.MethodsHere, we exposed chick embryos in ovo to CO at three different concentrations (3, 9, 18 ppm) plus air control (4 protocols in total) for the first 9 days of development, at which point we assessed egg and embryo weight, ankle length, developmental stage, heart weight, ventricular wall thickness, ventricular‐septal thickness and atrial wall thickness.ResultsWe found that heart weight was reduced for the low and moderate exposures compared to air, that atrial wall and ventricular wall thickness was increased for the moderate and high exposures compared to air and that ventricular septal thickness was increased for low, moderate and high exposures compared to air. Ventricular wall thickness was also significantly positively correlated with absolute CO exposures across all protocols.ConclusionsThis intervention study thus suggests that CO even at very low levels may have a significant impact on cardiac development.