<sup>19</sup>F MRI of the Lungs Using Inert Fluorinated Gases: Challenges and New Developments

Couch, Marcus J.; Ball, Iain; Li, Tao; Fox, Matthew S.; Biman, Birubi; Albert, Mitchell S.

doi:10.1002/jmri.26292

Cited by 43 publications

(41 citation statements)

References 64 publications

(177 reference statements)

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“…This is also supported by the measured SNR in the aortic arch next to the plaques, which was below the Rose criterion of SNR = 4, meaning that it cannot be distinguished from noise 30 . Moreover, when isoflurane is in- and exhaled through the lungs, it is in a gas phase and its apparent relaxation times are too short to be detected with a TSE pulse sequence 31 , which means that there will be no confounding signal in the lungs. Isoflurane was used in this study because of the need for relatively long anesthesia and the unfeasibility of re-injection during scans, but future studies that aim to maximize specificity and have a limited total anesthesia duration should consider an injected anesthetic such as ketamine-xylazine.…”

Section: Discussionmentioning

confidence: 99%

Towards Quantification of Inflammation in Atherosclerotic Plaque in the Clinic – Characterization and Optimization of Fluorine-19 MRI in Mice at 3 T

Darçot

Colotti

Pellegrin³

et al. 2019

Sci Rep

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Fluorine-19 (19F) magnetic resonance imaging (MRI) of injected perfluorocarbons (PFCs) can be used for the quantification and monitoring of inflammation in diseases such as atherosclerosis. To advance the translation of this technique to the clinical setting, we aimed to 1) demonstrate the feasibility of quantitative 19F MRI in small inflammation foci on a clinical scanner, and 2) to characterize the PFC-incorporating leukocyte populations and plaques. To this end, thirteen atherosclerotic apolipoprotein-E-knockout mice received 2 × 200 µL PFC, and were scanned on a 3 T clinical MR system. 19F MR signal was detected in the aortic arch and its branches in all mice, with a signal-to-noise ratio of 11.1 (interquartile range IQR = 9.5–13.1) and a PFC concentration of 1.15 mM (IQR = 0.79–1.28). Imaging flow cytometry was used on another ten animals and indicated that PFC-labeled leukocytes in the aortic arch and it branches were mainly dendritic cells, macrophages and neutrophils (ratio 9:1:1). Finally, immunohistochemistry analysis confirmed the presence of those cells in the plaques. We thus successfully used 19F MRI for the noninvasive quantification of PFC in atherosclerotic plaque in mice on a clinical scanner, demonstrating the feasibility of detecting very small inflammation foci at 3 T, and advancing the translation of 19F MRI to the human setting.

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Section: Discussionmentioning

confidence: 99%

Towards Quantification of Inflammation in Atherosclerotic Plaque in the Clinic – Characterization and Optimization of Fluorine-19 MRI in Mice at 3 T

Darçot

Colotti

Pellegrin³

et al. 2019

Sci Rep

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“…A series of ventilation imaging approaches have been used to evaluate the ventilation status of COPD, including the static imaging, dynamic imaging, hyperpolarized inert gas imaging, oxygen enhanced imaging and fluorinated gas imaging [29][30][31][32][33]; which focused on subjective and semiquantitative evaluation, such as ventilation defect, homogeneity and so on. At present, objective and regional evaluation come true.…”

Section: Ventilation Imagingmentioning

confidence: 99%

Progress in the imaging of COPD: quantitative and functional evaluation

Fan

Zhou

et al. 2019

Chin J Acad Radiol

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Chronic obstructive pulmonary disease (COPD) is a common, preventable, and treatable disease, which has caused serious social and economic burden. The main characteristic of COPD is the heterogeneity of disease, manifesting as emphysema, functional small airways disease (fSAD) and large airway diseases. Imaging plays an important role in the evaluation of COPD. In this article, we summarized the recent advances in the imaging of COPD, especially in the quantitative and functional evaluations of the disease. Imaging provides the detailed anatomical, quantitative and function information, illustrates regional heterogeneity and spatial distribution, as well as provides microstructural assessment on the alveolar level. Especially, air trapping index (ATI), parametric response mapping (PRM), gas exchange and texture analysis facilitate the early diagnosis, phenotype classification, severity and therapeutic effect evaluation.

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“…7 Magnetic resonance imaging of fluorinated gases may provide a low-cost alternative to hyperpolarized noble gas MRI. 8,9 Due to its large gyromagnetic ratio and the rapid signal recovery, fluorinated gas ( 19 F) imaging is feasible at thermal polarization. Fluorinated gases (eg, SF 6 , C 2 F 6 , C 3 F 8 [perfluoropropane], C 4 F 8 10,11 ) are nontoxic, chemically inert, and can be inhaled over several minutes in a mixture with oxygen.…”

Section: Introductionmentioning

confidence: 99%

¹H‐guided reconstruction of ¹⁹F gas MRI in COPD patients

Obert

Gutberlet

Kern

et al. 2020

Magnetic Resonance in Med

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Purpose:To reduce acquisition time and improve image quality and robustness of ventilation assessment in a single breath-hold using 1 H-guided reconstruction of fluorinated gas ( 19 F) MRI. Methods: Reconstructions constraining total variation in the image domain, L1 norm in the wavelet domain, and directional total variation between 19 F and 1 H images were compared in order to accelerate 19 F ventilation imaging using retrospectively undersampled data from a healthy volunteer. Using the optimal constrained reconstruction in 8 patients with chronic obstructive pulmonary disease (16-seconds breath-hold), ventilation maps of various acceleration factors (2-fold to 13-fold) were compared with maps of the full data set using the Dice coefficient, difference in volume defect percentage and overlap percentage, as well as hyperpolarized 129 Xe gas MRI. Results: The reconstruction constraining total variation and directional total variation simultaneously performed best in the healthy volunteer (RMS error = 0.07, structural similarity index = 0.77) for a measurement time of 2 seconds. Using the same reconstruction in the patients with chronic obstructive pulmonary disease, the Dice coefficient of defect volumes was 0.86 ± 0.05, the mean difference in volume defect percentage was −1.0 ± 1.7 percentage points, and the overlap percentage was 87% ± 2% for a measurement time of 6 seconds. Between volume defect percentage of 19 F and 129 Xe, a linear correlation (r = 0.75; P = .03) was found, with 19 F volume defect percentage being significantly higher (mean difference = 11%; P = .04). Conclusion: 1 H-guided reconstruction of pulmonary 19 F gas MRI enables reduction of acquisition time while maintaining image quality and robustness of functional parameters.

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¹⁹F MRI of the Lungs Using Inert Fluorinated Gases: Challenges and New Developments

Cited by 43 publications

References 64 publications

Towards Quantification of Inflammation in Atherosclerotic Plaque in the Clinic – Characterization and Optimization of Fluorine-19 MRI in Mice at 3 T

Towards Quantification of Inflammation in Atherosclerotic Plaque in the Clinic – Characterization and Optimization of Fluorine-19 MRI in Mice at 3 T

Progress in the imaging of COPD: quantitative and functional evaluation

¹H‐guided reconstruction of ¹⁹F gas MRI in COPD patients

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19F MRI of the Lungs Using Inert Fluorinated Gases: Challenges and New Developments

Cited by 43 publications

References 64 publications

Towards Quantification of Inflammation in Atherosclerotic Plaque in the Clinic – Characterization and Optimization of Fluorine-19 MRI in Mice at 3 T

Towards Quantification of Inflammation in Atherosclerotic Plaque in the Clinic – Characterization and Optimization of Fluorine-19 MRI in Mice at 3 T

Progress in the imaging of COPD: quantitative and functional evaluation

1H‐guided reconstruction of 19F gas MRI in COPD patients

Contact Info

Product

Resources

About

¹⁹F MRI of the Lungs Using Inert Fluorinated Gases: Challenges and New Developments

¹H‐guided reconstruction of ¹⁹F gas MRI in COPD patients