Planar gamma scintigraphy—points to consider when quantifying pulmonary dry powder aerosol deposition

Methodological aspects of planar gamma scintigraphy used to quantify pulmonary aerosol deposition were investigated using an experimental dry powder formulation. Particles of micronized salbutamol sulphate were labelled with technetium-99m and admixed to an ordered mixture of unlabelled micronized s...

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Veröffentlicht in:	International journal of pharmaceutics 2003-06, Vol.258 (1), p.227-240
Hauptverfasser:	Bondesson, Eva, Bengtsson, Thomas, Borgström, Lars, Nilsson, Lars-Erik, Norrgren, Kristina, Trofast, Eva, Wollmer, Per
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Sprache:	eng
Schlagworte:	Administration Administration, Inhalation Adolescent Adult Aerosols Albuterol - administration & dosage Albuterol - pharmacokinetics Biological Availability Charcoal - pharmacology Humans Image Processing, Computer-Assisted Inhalation Lung - diagnostic imaging Lung - metabolism Male Middle Aged Nebulizers and Vaporizers Powder inhaler Powders Radioactive aerosol Radionuclide Imaging Technetium Technetium-99m
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creator	Bondesson, Eva Bengtsson, Thomas Borgström, Lars Nilsson, Lars-Erik Norrgren, Kristina Trofast, Eva Wollmer, Per
description	Methodological aspects of planar gamma scintigraphy used to quantify pulmonary aerosol deposition were investigated using an experimental dry powder formulation. Particles of micronized salbutamol sulphate were labelled with technetium-99m and admixed to an ordered mixture of unlabelled micronized salbutamol sulphate and larger carrier particles of lactose. The radioaerosol was administered to 24 healthy subjects, 12 in each of two consecutive, similarly designed studies. Pulmonary deposition was determined using two methods: repeated planar imaging, and pharmacokinetic assessments following charcoal co-administration to prevent gastrointestinal salbutamol absorption. After due consideration had been taken to ensure appropriate radiolabelling, image acquisition and processing procedures, a scintigraphic estimate of 26.2% (with 95% confidence interval of 24.2–28.4%) was obtained, which did not significantly differ from the pharmacokinetic estimate of 26.4% (24.4–28.7%). In summary, pre-study validation of the radiolabelling technique, quality control of radioaerosols produced during the study, correction for re-distribution of radiolabel from the lungs, selection of regions of interest, assessment of lung contours, correction for tissue attenuation of gamma rays and establishment of the actual recovery of radioactivity in the scintigraphic measurements could potentially affect the accuracy of the scintigraphic estimate of pulmonary deposition and, thus, should be carefully considered in the design or evaluation of any such study.
doi_str_mv	10.1016/S0378-5173(03)00148-0
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Particles of micronized salbutamol sulphate were labelled with technetium-99m and admixed to an ordered mixture of unlabelled micronized salbutamol sulphate and larger carrier particles of lactose. The radioaerosol was administered to 24 healthy subjects, 12 in each of two consecutive, similarly designed studies. Pulmonary deposition was determined using two methods: repeated planar imaging, and pharmacokinetic assessments following charcoal co-administration to prevent gastrointestinal salbutamol absorption. After due consideration had been taken to ensure appropriate radiolabelling, image acquisition and processing procedures, a scintigraphic estimate of 26.2% (with 95% confidence interval of 24.2–28.4%) was obtained, which did not significantly differ from the pharmacokinetic estimate of 26.4% (24.4–28.7%). 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subjects	Administration Administration, Inhalation Adolescent Adult Aerosols Albuterol - administration & dosage Albuterol - pharmacokinetics Biological Availability Charcoal - pharmacology Humans Image Processing, Computer-Assisted Inhalation Lung - diagnostic imaging Lung - metabolism Male Middle Aged Nebulizers and Vaporizers Powder inhaler Powders Radioactive aerosol Radionuclide Imaging Technetium Technetium-99m
title	Planar gamma scintigraphy—points to consider when quantifying pulmonary dry powder aerosol deposition
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