Controlled, parametric, individualized, 2D and 3D imaging measurements of aerosol deposition in the respiratory tract of healthy human volunteers: in vivo data analysis
Controlled, parametric, individualized, 2D and 3D imaging measurements of aerosol deposition in the respiratory tract of healthy human volunteers: in vivo data analysis
Background: To provide a validation dataset for aerosol deposition modeling, a clinical trial was performed in which the inhalation parameters and the inhaled aerosol were controlled or characterized.
Methods: Eleven, healthy, never-smokers, male participants completed the study. Each participant performed two inhalations of 99mTc-labeled aerosol from a vibrating mesh nebulizer, which differed by a single controlled parameter (aerosol particle size: “small” or “large”; inhalation: “deep” or “shallow”; carrier gas: air or a helium–oxygen mix). The deposition measurements were made by planar imaging, and single photon emission computed tomography–computed tomography (SPECT-CT).
Results: The difference between the mean activity measured by two-dimensional imaging and that delivered from the nebulizer was 2.7%, which was not statistically significant. The total activity deposited was significantly lower in the left lung than in the right lung (p<0.0001) with a mean ratio (left/right) of 0.87±0.1 standard deviation (SD). However, when normalized to lung air volume, the left lung deposition was significantly higher (p=0.0085) with a mean ratio of 1.08±0.12 SD. A comparison of the three-dimensional central-to-peripheral (nC/P3D) ratio showed that it was significantly higher for the left lung (p<0.0001) with a mean ratio (left/right) of 1.36±0.20 SD. The effect of particle size was statistically significant on the nC/P3D ratio (p=0.0014), extrathoracic deposition (p=0.0037), and 24-hr clearance (p<0.0001), contrary to the inhalation parameters, which showed no effect.
Conclusions: This article presents the results of an analysis of the in vivo deposition data, obtained in a clinical study designed to provide data for model validation. This study has demonstrated the value of SPECT imaging over planar, the influence of particle size on regional distribution within the lung, and differences in deposition between the left and right lungs.
349-362
Majoral, Caroline
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Fleming, John
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Conway, Joy
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Katz, Ira
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Tossici-Bolt, Livia
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Pichelin, Marine
8beabdf7-5053-4032-a651-60e03c3e6654
Montesantos, Spyridon
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Caillibotte, Georges
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October 2014
Majoral, Caroline
ada299c6-e2be-4020-a612-71605863f2c3
Fleming, John
9dfe6059-3383-4621-9ef4-4ea221640b55
Conway, Joy
bbe9a2e4-fb85-4d4a-a38c-0c1832c32d06
Katz, Ira
249570b4-914e-44b7-9515-896a827dbb77
Tossici-Bolt, Livia
a9bd79ee-18c7-40c0-a1a8-2d826e4be759
Pichelin, Marine
8beabdf7-5053-4032-a651-60e03c3e6654
Montesantos, Spyridon
0c631220-2d39-4e60-a493-efb89a7ad67c
Caillibotte, Georges
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Majoral, Caroline, Fleming, John, Conway, Joy, Katz, Ira, Tossici-Bolt, Livia, Pichelin, Marine, Montesantos, Spyridon and Caillibotte, Georges
(2014)
Controlled, parametric, individualized, 2D and 3D imaging measurements of aerosol deposition in the respiratory tract of healthy human volunteers: in vivo data analysis.
Journal of Aerosol Medicine and Pulmonary Drug Delivery, 27 (5), .
(doi:10.1089/jamp.2013.1065).
(PMID:24400875)
Abstract
Background: To provide a validation dataset for aerosol deposition modeling, a clinical trial was performed in which the inhalation parameters and the inhaled aerosol were controlled or characterized.
Methods: Eleven, healthy, never-smokers, male participants completed the study. Each participant performed two inhalations of 99mTc-labeled aerosol from a vibrating mesh nebulizer, which differed by a single controlled parameter (aerosol particle size: “small” or “large”; inhalation: “deep” or “shallow”; carrier gas: air or a helium–oxygen mix). The deposition measurements were made by planar imaging, and single photon emission computed tomography–computed tomography (SPECT-CT).
Results: The difference between the mean activity measured by two-dimensional imaging and that delivered from the nebulizer was 2.7%, which was not statistically significant. The total activity deposited was significantly lower in the left lung than in the right lung (p<0.0001) with a mean ratio (left/right) of 0.87±0.1 standard deviation (SD). However, when normalized to lung air volume, the left lung deposition was significantly higher (p=0.0085) with a mean ratio of 1.08±0.12 SD. A comparison of the three-dimensional central-to-peripheral (nC/P3D) ratio showed that it was significantly higher for the left lung (p<0.0001) with a mean ratio (left/right) of 1.36±0.20 SD. The effect of particle size was statistically significant on the nC/P3D ratio (p=0.0014), extrathoracic deposition (p=0.0037), and 24-hr clearance (p<0.0001), contrary to the inhalation parameters, which showed no effect.
Conclusions: This article presents the results of an analysis of the in vivo deposition data, obtained in a clinical study designed to provide data for model validation. This study has demonstrated the value of SPECT imaging over planar, the influence of particle size on regional distribution within the lung, and differences in deposition between the left and right lungs.
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e-pub ahead of print date: 8 January 2014
Published date: October 2014
Organisations:
Faculty of Health Sciences
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Local EPrints ID: 378868
URI: http://eprints.soton.ac.uk/id/eprint/378868
ISSN: 1941-2711
PURE UUID: 05c1ded8-5cd7-4e68-8498-c323805825ff
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Date deposited: 16 Jul 2015 13:51
Last modified: 14 Mar 2024 20:30
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Author:
Caroline Majoral
Author:
John Fleming
Author:
Joy Conway
Author:
Ira Katz
Author:
Livia Tossici-Bolt
Author:
Marine Pichelin
Author:
Spyridon Montesantos
Author:
Georges Caillibotte
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