Abstract
Although many parametric studies have been conducted in developing standardized nasal geometry and analysing associated airflow dynamics, most of them are based on symmetrical nasal chambers assumption, while the inter-chamber variations due to the morphological asymmetry of the two nasal chambers are much less investigated. To address this issue, this paper presents an inter-chamber anatomical variability study by developing a shape comparison method to quantify inter-chamber anatomical differences. Then the anatomical deviation is correlated with the flow apportionment and the associated nanoparticle deposition patterns using CFD method. Results show that noticeable inter-chamber difference is observed especially in the inferior and middle passages where most inhaled flow is distributed to. Additionally, the shape of vestibule notch and septum deviation contributes to the discrepancy flow behaviour between two chambers. Consequently, these differences lead to variations in regional nanoparticle deposition, especially for 1 nm particles in the olfactory region, where the inter-chamber differences can reach up to 400%. Our results suggest that the inter-chamber anatomical variation should be considered when developing standardized nasal models.
Highlights
Engineered nanomaterials are widely manufactured and applied in various industrial, agricultural and medical fields
It is shocking that a survey examining 2589 adult patients with ear, nose and throat (ENT) disease found that 89.2% of them struggled with nasal septum deviation [4]
Many parametric studies have been conducted in developing standardized nasal geometry and analysing associated airflow dynamics, the majority of them are based on symmetrical nasal chambers assumption, while the inter-chamber variations due to the morphological asymmetry of the two nasal chambers are much less investigated
Summary
Engineered nanomaterials are widely manufactured and applied in various industrial, agricultural and medical fields. Many parametric studies have been conducted in developing standardized nasal geometry and analysing associated airflow dynamics, the majority of them are based on symmetrical nasal chambers assumption, while the inter-chamber variations due to the morphological asymmetry of the two nasal chambers are much less investigated. To address this issue, this paper presents an inter-chamber anatomical variability study through developing a shape comparison method to quantify inter-chamber anatomical differences. The continuous inhalation path started from nostril, passing through nasal cavities which separated from the middle by septum wall, and extended to the end of phar-
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