Because the initial deposition pattern of inhaled particles of various toxic agents determines their future clearance and insult to tissue, respiratory tract deposition is important in assessing the potential toxicity of inhaled aerosols. Factors influencing the deposition of inhaled particles can be classified into three main areas: (1) the physics of aerosols, (2) the anatomy of the respiratory tract and (3) the airflow patterns in the lung airways. In the physics of aerosols, the forces acting on a particle and its physical and chemical properties, such as particle size or size distribution, density, shape, hygroscopic or hydrophobic character, and chemical reactions of the particle will affect the deposition. With respect to the anatomy...
BACKGROUND: Aerosol particles have, since the antiquity, been linked to adverse effects on human hea...
AbstractThe behavior of bioaerosol particles with various size and shape in the human respiratory tr...
Aerosols of five different sizes varying from about 0.05 micron to 3 micron in aerodynamic equivalen...
Because the initial deposition pattern of inhaled particles of various toxic agents determines their...
While filtration occurs in a fixed system at a steady flow rate, respiratory deposition occurs in a ...
Thoracic airway calibers were estimated in 15 healthy subjects from gravitational losses during resp...
Animal models are essential for understanding the fates and effects of inhaled materials, because in...
Size distributions were determined of particles generated by two types of aerosol inhalers, using t...
Knowledge of particle deposition is important in clinical settings or when discussing environmental ...
Airborne particulate matter has caused growing public concerns with regard to their effect on human ...
The behavior of bioaerosol particles with various size and shape in the human respiratory tract was ...
Models for the deposition of aerosol particles in the human respiratory tract have been described in...
Abstract Background Exposure to airborne particles has a major impact on global health. The probabil...
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...
BACKGROUND: Aerosol particles have, since the antiquity, been linked to adverse effects on human hea...
AbstractThe behavior of bioaerosol particles with various size and shape in the human respiratory tr...
Aerosols of five different sizes varying from about 0.05 micron to 3 micron in aerodynamic equivalen...
Because the initial deposition pattern of inhaled particles of various toxic agents determines their...
While filtration occurs in a fixed system at a steady flow rate, respiratory deposition occurs in a ...
Thoracic airway calibers were estimated in 15 healthy subjects from gravitational losses during resp...
Animal models are essential for understanding the fates and effects of inhaled materials, because in...
Size distributions were determined of particles generated by two types of aerosol inhalers, using t...
Knowledge of particle deposition is important in clinical settings or when discussing environmental ...
Airborne particulate matter has caused growing public concerns with regard to their effect on human ...
The behavior of bioaerosol particles with various size and shape in the human respiratory tract was ...
Models for the deposition of aerosol particles in the human respiratory tract have been described in...
Abstract Background Exposure to airborne particles has a major impact on global health. The probabil...
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...
BACKGROUND: Aerosol particles have, since the antiquity, been linked to adverse effects on human hea...
AbstractThe behavior of bioaerosol particles with various size and shape in the human respiratory tr...
Aerosols of five different sizes varying from about 0.05 micron to 3 micron in aerodynamic equivalen...