Verhagen Justus V
The John B. Pierce Laboratory, 209 Congress Avenue, New Haven, CT 06519, USA ; Department of Neurobiology, Yale University School of Medicine, New Haven, CT, USA.
Chemosens Percept. 2015 Aug 1;8(2):78-84. doi: 10.1007/s12078-015-9181-z. Epub 2015 May 10.
In olfaction, odors typically engage the lungs on the way to the nose to evoke retronasal smell. This is most notable when the lung has a first pass effect during smoking/vaping, but also upon exhaling after sniffing an odor. The lungs act as a sink for odors, which can both reduce the retronasal odor concentration and the odor mixture makeup. Lung retention is a simple measure that quantifies the effectiveness of the sink. Lung retention has been studied in the context of environmental toxicology and is known for many volatile organic compounds. Available data on human lung retention suggests that the lungs may have a large impact on odor perception, and that this may depend heavily on the specifics of active sampling such as sniffing, smoking and vaping. Suggestions are included for transient measures and models of lung retention.
在嗅觉过程中,气味通常在进入鼻腔的途中经过肺部,从而引发鼻后嗅觉。这在吸烟/吸电子烟时肺部产生首过效应时最为明显,在嗅闻一种气味后呼气时也会出现这种情况。肺部充当气味的汇聚处,这既能降低鼻后气味浓度,也能改变气味混合物的组成。肺部滞留是一种量化汇聚处有效性的简单指标。肺部滞留已在环境毒理学背景下得到研究,并且许多挥发性有机化合物都有相关数据。关于人类肺部滞留的现有数据表明,肺部可能对气味感知有很大影响,而且这可能在很大程度上取决于主动采样的具体情况,如嗅闻、吸烟和吸电子烟。文中还给出了关于肺部滞留的瞬时测量方法和模型的建议。