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Peer-reviewed veterinary case report

Upper airway pressure and airflow in dog breeds with different skull

By Fernández-Parra, R et al.·Published in Veterinary journal (London, England : 1997)·2019·Department of Small Animal Clinical Science, Canada·View original on PubMed

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Original publication title: Use of computational fluid dynamics to compare upper airway pressures and airflow resistance in brachycephalic, mesocephalic, and dolichocephalic dogs.

Species:
dog

Plain-English summary

A group of nine dogs, including brachycephalic breeds like English Bulldogs, were studied to understand their breathing problems due to their unique head shapes. Researchers looked at how air flows through their upper airways and found that brachycephalic dogs had higher pressure and airflow resistance compared to other breeds. This means they may struggle more with breathing difficulties. The study suggests that understanding these airflow characteristics could help improve treatments for brachycephalic obstructive airway syndrome, a common issue in these breeds.

People also search for: brachycephalic dog breathing problems · English Bulldog airway issues · dog breathing difficulties treatment

Abstract

Brachycephalic dog breeds are prone to breathing difficulties because of their upper airway anatomy. Several surgical techniques exist to correct anatomical pathologies and common surgical approaches aim to correct functional abnormalities in the nares and/or the soft palate. However, further research is needed to improve clinical outcomes. This study evaluated air pressure and airflow resistance in the upper airways and trachea in nine sedated, sternally recumbent dogs of different skull types (dolichocephalic, n=3; mesocephalic, n=3; brachycephalic, n=3). CT images were acquired from the nostrils to the caudal border of the lungs and geometrical reconstruction of the upper airway and trachea was performed. Analysis of computational fluid dynamics was performed using inspiratory flow adapted to bodyweight for each dog. Flow (L/min) and pressure (cmHO) were computed for the entire upper airway and trachea. Resistance (cmHO/L/min) was calculated using pressure differences between the nose, larynx, and trachea. In this pilot study, statistical comparisons were not performed. Pressure maps, airflow, and resistance were similar in dolichocephalic and mesocephalic breeds. Median pressure difference (3.76cmHO) and resistance (0.154cmHO/L/min) between the nose and larynx were numerically higher in brachycephalic dogs than in other breeds (0.45cmHO and 0.016cmHO/L/min, respectively). Median pressure difference (0.205cmHO) and resistance (0.009cmHO/L/min) between the larynx and trachea was numerically similar in all dogs, except for the English bulldog. The methodology used in this preliminary study to quantify airflow characteristics such as pressure and resistance could improve the understanding of brachycephalic obstruction airway syndrome.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/31685131/