Add to ORKGA nasal-sinus cavity model was created in order to determine if any nanoparticles (NPs) would deposit within the maxillary sinuses at a steady inhalation flow rate of 10L/min. The computational model was simulated in Fluent v12.1using the Brownian diffusion model. Airflow contour patterns and streamlines showed very low flow (<0.006% of the inhaled flow rate) were present in the maxillary sinuses
Chronic rhinosinusitis is a common disease worldwide, and the frequently prescribed nasal sprays do ...
Optimal management of chronic rhinosinusitis (CRS) endotypes includes post-operative application of ...
In this dissertation, the deposition of particles in human airway models is studied. The dissertatio...
Ultrafine particle deposition studies in the human nasal cavity regions often omit the paranasal sin...
This paper summarises current studies related to numerical gas-particle flows in the human nasal cav...
Recent advances in nanotechnology have seen the manufacture of engineered nanoparticles for many com...
A human nasal cavity was reconstructed from CT scans to make a Computational Fluid Dynamics (CFD) mo...
Knowledge regarding particle deposition processes in the nasal cavity is important in aerosol therap...
Validated computer simulations of the airflow and particle dynamics in human nasal cavities are impo...
The nasal physiological functions of pollutant filtration and olfaction are dependent on airflow and...
Based on the CT scanned images, a realistic geometric model from nasal cavity to upper six-generatio...
Micron-sized particle deposition in anatomically realistic models of a rat and human nasal cavity wa...
To gain a better understanding of nanoparticle exposure in human nasal cavities, laboratory animals ...
Olfactory pathway, susceptible for direct translocation of inhaled nanoparticles into the brain, has...
The breathing region connects the nasal cavity with the outside environmental air where flow is acce...
Chronic rhinosinusitis is a common disease worldwide, and the frequently prescribed nasal sprays do ...
Optimal management of chronic rhinosinusitis (CRS) endotypes includes post-operative application of ...
In this dissertation, the deposition of particles in human airway models is studied. The dissertatio...
Ultrafine particle deposition studies in the human nasal cavity regions often omit the paranasal sin...
This paper summarises current studies related to numerical gas-particle flows in the human nasal cav...
Recent advances in nanotechnology have seen the manufacture of engineered nanoparticles for many com...
A human nasal cavity was reconstructed from CT scans to make a Computational Fluid Dynamics (CFD) mo...
Knowledge regarding particle deposition processes in the nasal cavity is important in aerosol therap...
Validated computer simulations of the airflow and particle dynamics in human nasal cavities are impo...
The nasal physiological functions of pollutant filtration and olfaction are dependent on airflow and...
Based on the CT scanned images, a realistic geometric model from nasal cavity to upper six-generatio...
Micron-sized particle deposition in anatomically realistic models of a rat and human nasal cavity wa...
To gain a better understanding of nanoparticle exposure in human nasal cavities, laboratory animals ...
Olfactory pathway, susceptible for direct translocation of inhaled nanoparticles into the brain, has...
The breathing region connects the nasal cavity with the outside environmental air where flow is acce...
Chronic rhinosinusitis is a common disease worldwide, and the frequently prescribed nasal sprays do ...
Optimal management of chronic rhinosinusitis (CRS) endotypes includes post-operative application of ...
In this dissertation, the deposition of particles in human airway models is studied. The dissertatio...