Add to ORKGDistribution patterns of odorant molecules in the rat nasal olfactory region depend in large part on the detailed airflow patterns in the nasal cavity, which in turn depend on the anatomical structure. To investigate these flow patterns, we constructed an anatomically accurate finite element model of the right nasal cavity of the Sprague-Dawley rat based on horizontal (anterior– posterior) nasal cast cross sections. By numerically solving the fluid mechanical momentum and continuity equations using the finite element method, we studied the flow distribution and the complete velocity field for both inspiration and expiration throughout the nasal cavity under physiological flow rates of resting breathing and sniffing. Detailed velocity profil...
Micron-sized particle deposition in anatomically realistic models of a rat and human nasal cavity wa...
Flow in the human nasal cavity varies when the body is under various physical activities. However, i...
This thesis is mainly focused on applying modern fluid dynamics analysis techniques to airflow and m...
The airflow pattern in the rat and bullfrog nasal passages is determined by their complex anatomical...
The sense of smell is largely dependent on the airflow and odorant transport in the nasal cavity, wh...
The sense of smell is largely dependent on the airflow and odorant transport in the nasal cavity, wh...
An anatomically accurate 3-dimensional numerical model of the right rat nasal cavity was developed a...
The nasal physiological functions of pollutant filtration and olfaction are dependent on airflow and...
Human sniffing behavior usually involves bouts of short, high flow rate inhalation (>300 ml/s thr...
An anatomically correct, 20X enlarged scale model of the right healthy human nasal cavity was constr...
Toxicology studies often use laboratory animals as surrogates for human subjects because of the rela...
Human breathing behaviour varies from quiet breathing to forceful sniffing but can, in general, be m...
Nasal physiology is dependent on the physical structure of the nose. Individual aspects of the nasal...
Nasal physiology is dependent on the physical structure of the nose. Individual aspects of the nasal...
Rats have been widely used as surrogates for evaluating the health effects of inhaled airborne parti...
Micron-sized particle deposition in anatomically realistic models of a rat and human nasal cavity wa...
Flow in the human nasal cavity varies when the body is under various physical activities. However, i...
This thesis is mainly focused on applying modern fluid dynamics analysis techniques to airflow and m...
The airflow pattern in the rat and bullfrog nasal passages is determined by their complex anatomical...
The sense of smell is largely dependent on the airflow and odorant transport in the nasal cavity, wh...
The sense of smell is largely dependent on the airflow and odorant transport in the nasal cavity, wh...
An anatomically accurate 3-dimensional numerical model of the right rat nasal cavity was developed a...
The nasal physiological functions of pollutant filtration and olfaction are dependent on airflow and...
Human sniffing behavior usually involves bouts of short, high flow rate inhalation (>300 ml/s thr...
An anatomically correct, 20X enlarged scale model of the right healthy human nasal cavity was constr...
Toxicology studies often use laboratory animals as surrogates for human subjects because of the rela...
Human breathing behaviour varies from quiet breathing to forceful sniffing but can, in general, be m...
Nasal physiology is dependent on the physical structure of the nose. Individual aspects of the nasal...
Nasal physiology is dependent on the physical structure of the nose. Individual aspects of the nasal...
Rats have been widely used as surrogates for evaluating the health effects of inhaled airborne parti...
Micron-sized particle deposition in anatomically realistic models of a rat and human nasal cavity wa...
Flow in the human nasal cavity varies when the body is under various physical activities. However, i...
This thesis is mainly focused on applying modern fluid dynamics analysis techniques to airflow and m...