The Effect of Lung Function and Mode of Inhalation on Penetration of Aerosol into the Human Lung

Abstract: . Effect of lung function and mode of inhalation on penetration of aerosol into the human lung. The method using radioactive tracer particles has been applied to study the effect of the mode of inhalation of aerosols on the depth of deposition in the lungs of 50 patients with airways obstruction. The findings show that the penetration of particles is directly related to: (1) volume inspired per breath (VI); (2) forced expiratory volume in one second (FEVY); and inversely related to (3) flow rate during inhalat… Show more

“…RYAN et al [15] reported that aerosols deposit more peripherally during tidal breathing than with a single deep breath. There have been reports that once the aerosol has entered the lungs, deposition by impaction in large bronchi is more likely in patients with COPD, whose airways may be narrowed by a combination of bronchospasm, oedema and mucous hypersecretion [3,4,7], and that the penetration of particles is inversely related to flow rate during inspiration [3]. In the present study, inspiratory flow rate during inhalation tended to be lower in COPD patients than in normals.…”

“…It has been reported that the aerosol deposition within the lung in patients with COPD observed in a rectilinear scan is decreased compared with normal subjects [3,4]. In these studies, subjects inhaled aerosol with tidal breathing [4] or a limited inspiratory volume of <1 L [3].…”

“…In these studies, subjects inhaled aerosol with tidal breathing [4] or a limited inspiratory volume of <1 L [3]. In the present study, subjects inhaled powder from residual volume to total lung capacity.…”

“…Aerosols have been used therapeutically to treat diseased lungs and the deposition of inhaled radioparticles in the lung has been studied by gamma camera in normal subjects with or without bronchoconstriction [2], and in patients with chronic obstructive pulmonary disease (COPD) [3,4] or bronchial asthma [5,6]. The distribution in the central and peripheral lung zones between control and narrowed airways is not consistent.…”

Deposition and clearance of inhaled 18FDG powder in patients with chronic obstructive pulmonary disease

“…RYAN et al [15] reported that aerosols deposit more peripherally during tidal breathing than with a single deep breath. There have been reports that once the aerosol has entered the lungs, deposition by impaction in large bronchi is more likely in patients with COPD, whose airways may be narrowed by a combination of bronchospasm, oedema and mucous hypersecretion [3,4,7], and that the penetration of particles is inversely related to flow rate during inspiration [3]. In the present study, inspiratory flow rate during inhalation tended to be lower in COPD patients than in normals.…”

“…It has been reported that the aerosol deposition within the lung in patients with COPD observed in a rectilinear scan is decreased compared with normal subjects [3,4]. In these studies, subjects inhaled aerosol with tidal breathing [4] or a limited inspiratory volume of <1 L [3].…”

“…In these studies, subjects inhaled aerosol with tidal breathing [4] or a limited inspiratory volume of <1 L [3]. In the present study, subjects inhaled powder from residual volume to total lung capacity.…”

“…Aerosols have been used therapeutically to treat diseased lungs and the deposition of inhaled radioparticles in the lung has been studied by gamma camera in normal subjects with or without bronchoconstriction [2], and in patients with chronic obstructive pulmonary disease (COPD) [3,4] or bronchial asthma [5,6]. The distribution in the central and peripheral lung zones between control and narrowed airways is not consistent.…”

Deposition and clearance of inhaled 18FDG powder in patients with chronic obstructive pulmonary disease

“…The inhaled volume is increased and the aerosol penetrates deeply into the lung parenchyma. 103,104 To overcome the problem of actuationinhalation, coordination breath-actuated pressurized MDIs were introduced to the market. 105 Nevertheless, improved peripheral deposition was observed if patients did not hold their breath on completion of inhalation in comparison with pressurized MDIs that are not breath-actuated.…”

Inhaled chemotherapy in lung cancer: future concept of nanomedicine

Improvement of Insulin Absorption from Intratracheally Administrated Dry Powder Prepared by Supercritical Carbon Dioxide Process