The effect of body size on nasal doses from inhaled aerosols has not been measured directly in people. Two basic types of computational models are used to calculate inhaled particle deposition in adults. One type uses an impaction parameter that incorporates particle aerodynamic diameter and the average airflow rate. The second type uses the nasal pressure drop and particle aerodynamic diameter. Although both types of models have been adjusted to give reasonably accurate deposition efficiencies for adults, they predict very different deposition efficiencies when they are applied to young children. This is not surprising because the airflow-type model has no body-size-dependent parameters, unlike the pressure-drop-type model. The objective o...
Validated computer simulations of the airflow and particle dynamics in human nasal cavities are impo...
International audiencePurposeIntranasal deposition of aerosols is often studied using in vitro nasal...
It is believed that the regional deposition patterns for inhaled particles can be mathematically pre...
The effect of body size on nasal doses from inhaled aerosols has not been measured directly in peopl...
Exposure to airborne particulate matter is associated with a number of negative health effects rangi...
Regional deposition of inhaled aerosols in the respiratory tract is a significant factor in assessin...
Up to now only few experimental data for total deposition of inhaled aerosol particles are available...
Abstract Background Exposure to airborne particles has a major impact on global health. The probabil...
Aerosol deposition in the novel, "Carleton-Civic" standardized geometry of the human nasal cavity wa...
Airborne particulate matter has caused growing public concerns with regard to their effect on human ...
Mathematical predictions of inhaled particle deposition patterns are widely used for evaluating haza...
Background: Exposure to airborne particles has a major impact on global health. The probability of t...
The purpose of this paper is to review the application of mathematical models of inhaled particle de...
Studies of aerosol deposition in the nasal airways play a significant role in developing our underst...
During the award period, a number of studies have been carried out related to the overall objective ...
Validated computer simulations of the airflow and particle dynamics in human nasal cavities are impo...
International audiencePurposeIntranasal deposition of aerosols is often studied using in vitro nasal...
It is believed that the regional deposition patterns for inhaled particles can be mathematically pre...
The effect of body size on nasal doses from inhaled aerosols has not been measured directly in peopl...
Exposure to airborne particulate matter is associated with a number of negative health effects rangi...
Regional deposition of inhaled aerosols in the respiratory tract is a significant factor in assessin...
Up to now only few experimental data for total deposition of inhaled aerosol particles are available...
Abstract Background Exposure to airborne particles has a major impact on global health. The probabil...
Aerosol deposition in the novel, "Carleton-Civic" standardized geometry of the human nasal cavity wa...
Airborne particulate matter has caused growing public concerns with regard to their effect on human ...
Mathematical predictions of inhaled particle deposition patterns are widely used for evaluating haza...
Background: Exposure to airborne particles has a major impact on global health. The probability of t...
The purpose of this paper is to review the application of mathematical models of inhaled particle de...
Studies of aerosol deposition in the nasal airways play a significant role in developing our underst...
During the award period, a number of studies have been carried out related to the overall objective ...
Validated computer simulations of the airflow and particle dynamics in human nasal cavities are impo...
International audiencePurposeIntranasal deposition of aerosols is often studied using in vitro nasal...
It is believed that the regional deposition patterns for inhaled particles can be mathematically pre...
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