Title: | Physiological modeling of isoprene dynamics in exhaled breath |
Author(s): | King J; Koc H; Unterkofler K; Mochalski P; Kupferthaler A; Teschl G; Teschl S; Hinterhuber H; Amann A; |
Address: | "Breath Research Institute, Austrian Academy of Sciences, Rathausplatz 4, A-6850 Dornbirn, Austria" |
DOI: | 10.1016/j.jtbi.2010.09.028 |
ISSN/ISBN: | 1095-8541 (Electronic) 0022-5193 (Linking) |
Abstract: | "Human breath contains a myriad of endogenous volatile organic compounds (VOCs) which are reflective of ongoing metabolic or physiological processes. While research into the diagnostic potential and general medical relevance of these trace gases is conducted on a considerable scale, little focus has been given so far to a sound analysis of the quantitative relationships between breath levels and the underlying systemic concentrations. This paper is devoted to a thorough modeling study of the end-tidal breath dynamics associated with isoprene, which serves as a paradigmatic example for the class of low-soluble, blood-borne VOCs. Real-time measurements of exhaled breath under an ergometer challenge reveal characteristic changes of isoprene output in response to variations in ventilation and perfusion. Here, a valid compartmental description of these profiles is developed. By comparison with experimental data it is inferred that the major part of breath isoprene variability during exercise conditions can be attributed to an increased fractional perfusion of potential storage and production sites, leading to higher levels of mixed venous blood concentrations at the onset of physical activity. In this context, various lines of supportive evidence for an extrahepatic tissue source of isoprene are presented. Our model is a first step towards new guidelines for the breath gas analysis of isoprene and is expected to aid further investigations regarding the exhalation, storage, transport and biotransformation processes associated with this important compound" |
Keywords: | "Adult Breath Tests Butadienes/*analysis Computer Simulation Ergometry Exercise/physiology Exhalation/*physiology Hemiterpenes/*analysis Humans Male *Models, Biological Pentanes/*analysis Pulmonary Gas Exchange Reproducibility of Results;" |
Notes: | "MedlineKing, Julian Koc, Helin Unterkofler, Karl Mochalski, Pawel Kupferthaler, Alexander Teschl, Gerald Teschl, Susanne Hinterhuber, Hartmann Amann, Anton eng Research Support, Non-U.S. Gov't England 2010/09/28 J Theor Biol. 2010 Dec 21; 267(4):626-37. doi: 10.1016/j.jtbi.2010.09.028. Epub 2010 Sep 29" |