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Human Lung Deposition of Particles Suspended in Air or in Helium/Oxygen Mixture

Magnus SvartengrenDepartment of Environmental Hygiene, Karolinska Institute, Stockholm, SwedenMartin AndersonDepartment of Environmental Hygiene, Karolinska Institute, Stockholm, Sweden; Section of Lung Medicine, Unit of Environmental Hygiene, National Institute of Environmental Medicine, Stockholm, SwedenKlas PhilipsonDepartment of Environmental Hygiene, Karolinska Institute, Stockholm, Sweden; Section of Lung Medicine, Unit of Environmental Hygiene, National Institute of Environmental Medicine, Stockholm, SwedenPer CamnerDepartment of Environmental Hygiene, Karolinska Institute, Stockholm, Sweden; Section of Lung Medicine, Unit of Environmental Hygiene, National Institute of Environmental Medicine, Stockholm, Sweden
1989en
ABI

Annotatsiya

Deposition in mouth and throat and the fraction of alveolarly deposited particles in the lung of 3.6- to 3.8-microns Teflon particles labeled with 99mTc were estimated in nine healthy subjects. The particles were inhaled in air or helium/oxygen mixture with a flow of 0.5 l/s by subjects with or without induced bronchoconstriction. The bronchoconstriction (two- to threefold increase in airway resistance) was induced by an aerosol of methacholine bromide. As the Reynolds number is three times lower for the helium/oxygen mixture than for air, and the sedimentation rate of the particles is about the same in both, a different regional deposition between particles suspended in air and helium/oxygen mixture should be due to turbulence. Deposition in mouth and throat did not differ significantly between air and the helium/oxygen mixture. The alveolarly deposited fraction tended to be larger for unconstricted airways and was significantly larger for constricted airways for inhalations in the helium/oxygen mixture compared to air. In real life, air pollutants and therapeutic aerosols may be inhaled with larger flow rates and broncho-constriction may be more pronounced in patients, so that deposition of particles due to turbulence can be important.

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