A research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models

BACKGROUND: Nebulised antibiotics are frequently used for the prevention or treatment of ventilator-associated pneumonia. Many factors may influence pulmonary drug concentrations with inaccurate dosing schedules potentially leading to therapeutic failure and/or the emergence of antibiotic resistance...

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Autores principales: Dhanani, Jayesh A., Cohen, Jeremy, Parker, Suzanne L., Chan, Hak-Kim, Tang, Patricia, Ahern, Benjamin J., Khan, Adeel, Bhatt, Manoj, Goodman, Steven, Diab, Sara, Chaudhary, Jivesh, Lipman, Jeffrey, Wallis, Steven C., Barnett, Adrian, Chew, Michelle, Fraser, John F., Roberts, Jason A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer International Publishing 2018
Materias:
Methodology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6041222/
https://www.ncbi.nlm.nih.gov/pubmed/29998357
http://dx.doi.org/10.1186/s40635-018-0180-7
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author Dhanani, Jayesh A.
Cohen, Jeremy
Parker, Suzanne L.
Chan, Hak-Kim
Tang, Patricia
Ahern, Benjamin J.
Khan, Adeel
Bhatt, Manoj
Goodman, Steven
Diab, Sara
Chaudhary, Jivesh
Lipman, Jeffrey
Wallis, Steven C.
Barnett, Adrian
Chew, Michelle
Fraser, John F.
Roberts, Jason A.
author_facet Dhanani, Jayesh A.
Cohen, Jeremy
Parker, Suzanne L.
Chan, Hak-Kim
Tang, Patricia
Ahern, Benjamin J.
Khan, Adeel
Bhatt, Manoj
Goodman, Steven
Diab, Sara
Chaudhary, Jivesh
Lipman, Jeffrey
Wallis, Steven C.
Barnett, Adrian
Chew, Michelle
Fraser, John F.
Roberts, Jason A.
author_sort Dhanani, Jayesh A.
collection PubMed
description BACKGROUND: Nebulised antibiotics are frequently used for the prevention or treatment of ventilator-associated pneumonia. Many factors may influence pulmonary drug concentrations with inaccurate dosing schedules potentially leading to therapeutic failure and/or the emergence of antibiotic resistance. We describe a research pathway for studying the pharmacokinetics of a nebulised antibiotic during mechanical ventilation using in vitro methods and ovine models, using tobramycin as the study antibiotic. METHODS: In vitro studies using a laser diffractometer and a bacterial-viral filter were used to measure the effect of the type and size of tracheal tubes and antibiotic concentration on the particle size distribution of the tobramycin 400 mg (4 ml; 100 mg/ml) and 160 mg (4 ml, 40 mg/ml) aerosol and nebulised mass delivered. To compare the regional drug distribution in the lung of two routes (intravenous and nebulised) of drug administration of tobramycin 400 mg, technetium-99m-labelled tobramycin 400 mg with planar nuclear medicine imaging was used in a mechanically ventilated ovine model. To measure tobramycin concentrations by intravenous and nebulised tobramycin 400 mg (4 ml, 100 mg/ml) administration in the lung interstitial space (ISF) fluid and blood of mechanically ventilated sheep, the microdialysis technique was used over an 8-h duration. RESULTS: Tobramycin 100 mg/ml achieved a higher lung dose (121.3 mg) compared to 40 mg/ml (41.3 mg) solution. The imaging study with labelled tobramycin indicated that nebulised tobramycin distributed more extensively into each lung zone of the mechanically ventilated sheep than intravenous administration. A higher lung ISF peak concentration of tobramycin was observed with nebulised tobramycin (40.8 mg/l) compared to intravenous route (19.0 mg/l). CONCLUSIONS: The research methods appear promising to describe lung pharmacokinetics for formulations intended for nebulisation during mechanical ventilation. These methods need further validation in an experimental pneumonia model to be able to contribute toward optimising dosing regimens to inform clinical trials and/or clinical use.
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spelling pubmed-60412222018-07-30 A research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models Dhanani, Jayesh A. Cohen, Jeremy Parker, Suzanne L. Chan, Hak-Kim Tang, Patricia Ahern, Benjamin J. Khan, Adeel Bhatt, Manoj Goodman, Steven Diab, Sara Chaudhary, Jivesh Lipman, Jeffrey Wallis, Steven C. Barnett, Adrian Chew, Michelle Fraser, John F. Roberts, Jason A. Intensive Care Med Exp Methodology BACKGROUND: Nebulised antibiotics are frequently used for the prevention or treatment of ventilator-associated pneumonia. Many factors may influence pulmonary drug concentrations with inaccurate dosing schedules potentially leading to therapeutic failure and/or the emergence of antibiotic resistance. We describe a research pathway for studying the pharmacokinetics of a nebulised antibiotic during mechanical ventilation using in vitro methods and ovine models, using tobramycin as the study antibiotic. METHODS: In vitro studies using a laser diffractometer and a bacterial-viral filter were used to measure the effect of the type and size of tracheal tubes and antibiotic concentration on the particle size distribution of the tobramycin 400 mg (4 ml; 100 mg/ml) and 160 mg (4 ml, 40 mg/ml) aerosol and nebulised mass delivered. To compare the regional drug distribution in the lung of two routes (intravenous and nebulised) of drug administration of tobramycin 400 mg, technetium-99m-labelled tobramycin 400 mg with planar nuclear medicine imaging was used in a mechanically ventilated ovine model. To measure tobramycin concentrations by intravenous and nebulised tobramycin 400 mg (4 ml, 100 mg/ml) administration in the lung interstitial space (ISF) fluid and blood of mechanically ventilated sheep, the microdialysis technique was used over an 8-h duration. RESULTS: Tobramycin 100 mg/ml achieved a higher lung dose (121.3 mg) compared to 40 mg/ml (41.3 mg) solution. The imaging study with labelled tobramycin indicated that nebulised tobramycin distributed more extensively into each lung zone of the mechanically ventilated sheep than intravenous administration. A higher lung ISF peak concentration of tobramycin was observed with nebulised tobramycin (40.8 mg/l) compared to intravenous route (19.0 mg/l). CONCLUSIONS: The research methods appear promising to describe lung pharmacokinetics for formulations intended for nebulisation during mechanical ventilation. These methods need further validation in an experimental pneumonia model to be able to contribute toward optimising dosing regimens to inform clinical trials and/or clinical use. Springer International Publishing 2018-07-11 /pmc/articles/PMC6041222/ /pubmed/29998357 http://dx.doi.org/10.1186/s40635-018-0180-7 Text en © The Author(s). 2018 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
spellingShingle Methodology
Dhanani, Jayesh A.
Cohen, Jeremy
Parker, Suzanne L.
Chan, Hak-Kim
Tang, Patricia
Ahern, Benjamin J.
Khan, Adeel
Bhatt, Manoj
Goodman, Steven
Diab, Sara
Chaudhary, Jivesh
Lipman, Jeffrey
Wallis, Steven C.
Barnett, Adrian
Chew, Michelle
Fraser, John F.
Roberts, Jason A.
A research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models
title A research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models
title_full A research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models
title_fullStr A research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models
title_full_unstemmed A research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models
title_short A research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models
title_sort research pathway for the study of the delivery and disposition of nebulised antibiotics: an incremental approach from in vitro to large animal models
topic Methodology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6041222/
https://www.ncbi.nlm.nih.gov/pubmed/29998357
http://dx.doi.org/10.1186/s40635-018-0180-7
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