Add to ORKGThe intrapulmonary deposition of airborne particles (aerosol) in the size range of 0.5 to 5 microns is primarily due to gravitational sedimentation. In the microgravity (muG) environment, sedimentation is no longer active, and thus there should be marked changes in the amount and site of the deposition of these aerosol. We propose to study the total intrapulmonary deposition of aerosol spanning the range 0.5 to 5 microns in the KC-135 at both muG and at 1.8-G. This will be followed by using boli of 1.0 micron aerosol, inhaled at different points in a breath to study aerosol dispersion and deposition as a function of inspired depth. The results of these studies will have application in better understanding of pulmonary diseases related to in...
As an indicator of health risk, the deposition of microparticles in terminal pulmonary acini is of g...
The effects of various distributions of regional ventilation, influenced by posture, respiratory rat...
Assessment of regional deposition of inhaled particles in human lungs by serial bolus delivery metho...
Deposition and dispersion of 1-µm aerosol boluses in the human lung: effect of micro- and hypergravi...
Dispersion of 0.5- to 2-µm aerosol in µG and hypergravity as a probe of convective inhomogeneity in ...
Prisk. Effect of gravity on aerosol dispersion and deposition in the human lung after periods of bre...
International audienceWhile it is well recognizedthat pulmonary deposition of inhaled particles is l...
While it is well recognized that pulmonary deposition of inhaled particles is lowered in microgravit...
To investigate lung clearance from the human tracheo-bronchial tree, W. Stahlhofen et al. performed ...
The deposition and short term clearance characteristics of monodisperse aerosol particles (size ran...
Small volumes of aerosols (boluses) were inspired predominantly into the conducting airways of human...
An aerosol with particles aerodynamically larger than 0.5 μm inspired through the nose is partial...
Inhalation medicinal aerosol and biological aerosol risk assessment are the current motivation for d...
In most inhaled drug delivery applications, aerosol deposition in the upper airways occurs primarily...
The experimental techniques and the results of inhalation studies with radioaerosols on normal non-s...
As an indicator of health risk, the deposition of microparticles in terminal pulmonary acini is of g...
The effects of various distributions of regional ventilation, influenced by posture, respiratory rat...
Assessment of regional deposition of inhaled particles in human lungs by serial bolus delivery metho...
Deposition and dispersion of 1-µm aerosol boluses in the human lung: effect of micro- and hypergravi...
Dispersion of 0.5- to 2-µm aerosol in µG and hypergravity as a probe of convective inhomogeneity in ...
Prisk. Effect of gravity on aerosol dispersion and deposition in the human lung after periods of bre...
International audienceWhile it is well recognizedthat pulmonary deposition of inhaled particles is l...
While it is well recognized that pulmonary deposition of inhaled particles is lowered in microgravit...
To investigate lung clearance from the human tracheo-bronchial tree, W. Stahlhofen et al. performed ...
The deposition and short term clearance characteristics of monodisperse aerosol particles (size ran...
Small volumes of aerosols (boluses) were inspired predominantly into the conducting airways of human...
An aerosol with particles aerodynamically larger than 0.5 μm inspired through the nose is partial...
Inhalation medicinal aerosol and biological aerosol risk assessment are the current motivation for d...
In most inhaled drug delivery applications, aerosol deposition in the upper airways occurs primarily...
The experimental techniques and the results of inhalation studies with radioaerosols on normal non-s...
As an indicator of health risk, the deposition of microparticles in terminal pulmonary acini is of g...
The effects of various distributions of regional ventilation, influenced by posture, respiratory rat...
Assessment of regional deposition of inhaled particles in human lungs by serial bolus delivery metho...