Deposition of Thoron Progeny in Human Head Airways

Radon and thoron progeny are ultrafine particles in the size range of 1-200 nm, depending on whether or not they are attached to other aerosol particles. The diffusion coefficient of radon progeny is a critical parameter in determining its dynamics while airborne. Depending on their diffusion coeffi...

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Published in	Aerosol science and technology Vol. 18; no. 4; pp. 359 - 375
Main Authors	Cheng, Yung-Sung, Su, Yin-Fong, Yeh, Hsu-Chi, Swift, David L.
Format	Journal Article
Language	English
Published	United States Taylor & Francis Group 1993
Subjects	07 ISOTOPES AND RADIATION SOURCES 070500 - Isotope & Radiation Source Technology- Health & Safety- (1990-) 540130 - Environment, Atmospheric- Radioactive Materials Monitoring & Transport- (1990-) AEROSOLS ALPHA DECAY RADIOISOTOPES BETA DECAY RADIOISOTOPES BETA-MINUS DECAY RADIOISOTOPES COLLOIDS DATA DAUGHTER PRODUCTS DEPOSITION DIFFUSION DISPERSIONS DOSIMETRY ENVIRONMENTAL SCIENCES EVEN-EVEN NUCLEI EXPERIMENTAL DATA HEAVY NUCLEI HOURS LIVING RADIOISOTOPES INFORMATION INHALATION INTAKE ISOTOPES LEAD 212 LEAD ISOTOPES NUCLEI NUMERICAL DATA RADIOISOTOPES RADON 220 RADON ISOTOPES RESPIRATORY SYSTEM SECONDS LIVING RADIOISOTOPES SOLS
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Abstract	Radon and thoron progeny are ultrafine particles in the size range of 1-200 nm, depending on whether or not they are attached to other aerosol particles. The diffusion coefficient of radon progeny is a critical parameter in determining its dynamics while airborne. Depending on their diffusion coefficient and the breathing pattern of the subject, ultrafine particles have been shown to deposit in the nasal or oral airways. Substantial deposition in the head airways reduces the amount of radioactivity that deposits in the tracheobronchial tree. Thus, for accurate dosimetric calculations, it is important to know the deposition fraction of radon progeny in the head airways. Several adult head airway models were used to study the radon progeny deposition in human nasal and oral airways. Radon-220 progeny ( 212 Pb) were used in the study. The particle size as measured by a graded screen diffusion battery was between 1.2 and 1.7 nm, indicating that the particles were molecular clusters. Deposition was measured by collecting filter samples before and after the model and gamma counting the 212 Pb. Experiments were performed under the constant flow rates of 4-20 L/min. Deposition efficiences were between 63% and 85% in the nasal airway and 48% and 78% in the oral airway. Previously reported deposition data in the same airway model for ultrafine particles between 4.6 and 200 nm and the deposition data of radon progeny were used to establish a turbulent deposition equation covering particle sizes from 1 to 200 nm, the entire size range for attached and unattached radon progeny.
AbstractList	Radon and thoron progeny are ultrafine particles in the size range of 1-200 nm, depending on whether or not they are attached to other aerosol particles. The diffusion coefficient of radon progeny is a critical parameter in determining its dynamics while airborne. Depending on their diffusion coefficient and the breathing pattern of the subject, ultrafine particles have been shown to deposit in the nasal or oral airways. Substantial deposition in the head airways reduces the amount of radioactivity that deposits in the tracheobronchial tree. Thus, for accurate dosimetric calculations, it is important to know the deposition fraction of radon progeny in the head airways. Several adult head airway models were used to study the radon progeny deposition in human nasal and oral airways. Radon-220 progeny ([sup 212]Pb) were used in the study. The particle size as measured by a graded screen diffusion battery was between 1.2 and 1.7 nm, indicating that the particles were molecular clusters. Deposition was measured by collecting filter samples before and after the model and gamma counting the [sup 212]Pb. Experiments were performed under the constant flow rates of 4-20 L/min. Deposition efficiencies were between 63% and 85% in the nasal airway and 48% and 78% in the oral airway. Previously reported deposition data in the same airway model for ultrafine particles between 4.6 and 200 nm and the deposition data of radon progeny were used to establish a turbulent deposition equation covering particle sizes from 1 to 200 nm, the entire size range for attached and unattached radon progeny. 23 refs., 10 figs., 6 tabs. Radon and thoron progeny are ultrafine particles in the size range of 1-200 nm, depending on whether or not they are attached to other aerosol particles. The diffusion coefficient of radon progeny is a critical parameter in determining its dynamics while airborne. Depending on their diffusion coefficient and the breathing pattern of the subject, ultrafine particles have been shown to deposit in the nasal or oral airways. Substantial deposition in the head airways reduces the amount of radioactivity that deposits in the tracheobronchial tree. Thus, for accurate dosimetric calculations, it is important to know the deposition fraction of radon progeny in the head airways. Several adult head airway models were used to study the radon progeny deposition in human nasal and oral airways. Radon-220 progeny ( 212 Pb) were used in the study. The particle size as measured by a graded screen diffusion battery was between 1.2 and 1.7 nm, indicating that the particles were molecular clusters. Deposition was measured by collecting filter samples before and after the model and gamma counting the 212 Pb. Experiments were performed under the constant flow rates of 4-20 L/min. Deposition efficiences were between 63% and 85% in the nasal airway and 48% and 78% in the oral airway. Previously reported deposition data in the same airway model for ultrafine particles between 4.6 and 200 nm and the deposition data of radon progeny were used to establish a turbulent deposition equation covering particle sizes from 1 to 200 nm, the entire size range for attached and unattached radon progeny.
Author	Swift, David L. Su, Yin-Fong Cheng, Yung-Sung Yeh, Hsu-Chi
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Cites_doi	10.1080/02786829008959417 10.1097/00004032-198902000-00006 10.1097/00004032-198903000-00005 10.1097/00004032-196907000-00012 10.1002/aic.690180533 10.1016/0041-008X(90)90242-M 10.1016/0021-8502(92)90005-G 10.1016/0021-8502(85)90007-2 10.1016/0021-8502(85)90005-9 10.1016/0022-1902(67)80312-9 10.1007/BF02460796 10.1016/0021-8502(89)90035-9 10.1093/oxfordjournals.rpd.a081070 10.1016/0021-8502(88)90009-2 10.1093/oxfordjournals.rpd.a080322 10.1093/oxfordjournals.rpd.a083030 10.1089/jam.1989.2.365
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SubjectTerms	07 ISOTOPES AND RADIATION SOURCES 070500 - Isotope & Radiation Source Technology- Health & Safety- (1990-) 540130 - Environment, Atmospheric- Radioactive Materials Monitoring & Transport- (1990-) AEROSOLS ALPHA DECAY RADIOISOTOPES BETA DECAY RADIOISOTOPES BETA-MINUS DECAY RADIOISOTOPES COLLOIDS DATA DAUGHTER PRODUCTS DEPOSITION DIFFUSION DISPERSIONS DOSIMETRY ENVIRONMENTAL SCIENCES EVEN-EVEN NUCLEI EXPERIMENTAL DATA HEAVY NUCLEI HOURS LIVING RADIOISOTOPES INFORMATION INHALATION INTAKE ISOTOPES LEAD 212 LEAD ISOTOPES NUCLEI NUMERICAL DATA RADIOISOTOPES RADON 220 RADON ISOTOPES RESPIRATORY SYSTEM SECONDS LIVING RADIOISOTOPES SOLS
Title	Deposition of Thoron Progeny in Human Head Airways
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