Reconstruction and Morphometric Analysis of the Nasal Airway of the Dog (Canis familiaris) and Implications Regarding Olfactory Airflow

BA Craven, T Neuberger, EG Paterson… - … Record: Advances in …, 2007 - Wiley Online Library
BA Craven, T Neuberger, EG Paterson, AG Webb, EM Josephson, EE Morrison, GS Settles
The Anatomical Record: Advances in Integrative Anatomy and …, 2007Wiley Online Library
The canine nasal airway is an impressively complex anatomical structure, having many
functional roles. The complicated branching and intricate scrollwork of the nasal conchae
provide large surface area for heat, moisture, and odorant transfer. Of the previous
anatomical studies of the canine nasal airway, none have included a detailed rendering of
the maxilloturbinate and ethmoidal regions of the nose. Here, we present a high‐resolution
view of the nasal airway of a large dog, using magnetic resonance imaging scans …
Abstract
The canine nasal airway is an impressively complex anatomical structure, having many functional roles. The complicated branching and intricate scrollwork of the nasal conchae provide large surface area for heat, moisture, and odorant transfer. Of the previous anatomical studies of the canine nasal airway, none have included a detailed rendering of the maxilloturbinate and ethmoidal regions of the nose. Here, we present a high‐resolution view of the nasal airway of a large dog, using magnetic resonance imaging scans. Representative airway sections are shown, and a three‐dimensional surface model of the airway is reconstructed from the image data. The resulting anatomic structure and detailed morphometric data of the airway provide insight into the functional nature of canine olfaction. A complex airway network is revealed, wherein the branched maxilloturbinate and ethmoturbinate scrolls appear structurally distinct. This is quantitatively confirmed by considering the fractal dimension of each airway, which shows that the maxilloturbinate airways are more highly contorted than the ethmoidal airways. Furthermore, surface areas of the maxilloturbinate and ethmoidal airways are shown to be much different, despite having analogous physiological functions. Functionally, the dorsal meatus of the canine nasal airway is shown to be a bypass for odorant‐bearing inspired air around the complicated maxilloturbinate during sniffing for olfaction. Finally, nondimensional analysis is used to show that the airflow within both the maxilloturbinate and ethmoturbinate regions must be laminar. This work has direct relevance to biomimetic sniffer design, chemical trace detector development, intranasal drug delivery, and inhalation toxicology. Anat Rec, 290:1325–1340, 2007. © 2007 Wiley‐Liss, Inc.
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