A robust protocol for regional evaluation of methacholine challenge in mouse models of allergic asthma using hyperpolarized 3He MRI

Hyperpolarized (HP) 3He magnetic resonance imaging has been recently used to produce high‐resolution images of pulmonary ventilation after methacholine (MCh) challenge in mouse models of allergic inflammation. This capability presents an opportunity to gain new insights about these models and to mor...

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Bibliographic Details
Published in:NMR in biomedicine 2009-06, Vol.22 (5), p.502-515
Main Authors: Thomas, Abraham C., Potts, Erin N., Chen, Ben T., Slipetz, Deborah M., Foster, W. Michael, Driehuys, Bastiaan
Format: Article
Language:English
Subjects:
3He MRI
Animals
asthma
Asthma - pathology
Asthma - physiopathology
Bronchoalveolar Lavage Fluid - cytology
bronchoconstriction
Bronchoconstriction - drug effects
Cell Count
Disease Models, Animal
Drug Delivery Systems
Heart Rate - drug effects
Helium - chemistry
hyperpolarized
Imaging, Three-Dimensional
Infusion Pumps
Lung - drug effects
Lung - pathology
Magnetic Resonance Imaging - methods
methacholine
Methacholine Chloride - administration & dosage
Methacholine Chloride - pharmacology
Mice
ovalbumin
Ovalbumin - administration & dosage
Pulmonary Ventilation - drug effects
Reproducibility of Results
Time Factors
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Summary:Hyperpolarized (HP) 3He magnetic resonance imaging has been recently used to produce high‐resolution images of pulmonary ventilation after methacholine (MCh) challenge in mouse models of allergic inflammation. This capability presents an opportunity to gain new insights about these models and to more sensitively evaluate new drug treatments in the pre‐clinical setting. In the current study, we present our initial experience using two‐dimensional (2D), time‐resolved 3He MRI of MCh challenge‐induced airways hyperreactivity (AHR) to compare ovalbumin‐sensitized and challenged (N = 8) mice to controls (N = 8). Imaging demonstrated that ovalbumin‐sensitized and challenged animals exhibited many large ventilation defects even prior to MCh challenge (four out of eight) compared to no defects in the control animals. Additionally, the ovalbumin‐sensitized and challenged animals experienced a greater number of ventilation defects (4.5 ± 0.4) following MCh infusion than did controls (3.3 ± 0.6). However, due to variability in MCh delivery that was specific to the small animal MRI environment, the difference in mean defect number was not statistically significant. These findings are reviewed in detail and a comprehensive solution to the variability problem is presented that has greatly enhanced the magnitude and reproducibility of the MCh response. This has permitted us to develop a new imaging protocol consisting of a baseline 3D image, a time‐resolved 2D series during MCh challenge, and a post‐MCh 3D image that reveals persistent ventilation defects. Copyright © 2009 John Wiley & Sons, Ltd. Hyperpolarized 3He MRI can produce high‐resolution images of pulmonary ventilation after methacholine challenge in mouse models of allergic inflammation. In the current study, we present our initial experience using two‐dimensional, time‐resolved 3He MRI of methacholine challenge‐induced airways hyperreactivity to compare ovalbumin‐sensitized and challenged (N = 8) mice to controls (N = 8). 3He image findings are discussed in addition to a means to provide robust and reliable methacholine delivery in the MRI environment.
ISSN:0952-3480
1099-1492
DOI:10.1002/nbm.1362