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Protocols for multi‐site trials using hyperpolarized 129 Xe MRI for imaging of ventilation, alveolar‐airspace size, and gas exchange: A position paper from the 129 Xe MRI clinical trials consortium

Authors :
Jonathan H. Rayment
Bastiaan Driehuys
Chase S. Hall
G. Wilson Miller
Zackary I. Cleveland
Sarah Svenningsen
Rachel L. Eddy
Jim M. Wild
John P. Mugler
Ho-Fung Chan
Peter Niedbalski
Mario Castro
Neil J. Stewart
Sean B. Fain
Giles E. Santyr
Brandon Zanette
Jason C. Woods
Guilhem Collier
Grace Parraga
Robert P. Thomen
Matthew M. Willmering
Jaime F. Mata
Source :
Magnetic Resonance in Medicine. 86:2966-2986
Publication Year :
2021
Publisher :
Wiley, 2021.

Abstract

Hyperpolarized (HP) 129 Xe MRI uniquely images pulmonary ventilation, gas exchange, and terminal airway morphology rapidly and safely, providing novel information not possible using conventional imaging modalities or pulmonary function tests. As such, there is mounting interest in expanding the use of biomarkers derived from HP 129 Xe MRI as outcome measures in multi-site clinical trials across a range of pulmonary disorders. Until recently, HP 129 Xe MRI techniques have been developed largely independently at a limited number of academic centers, without harmonizing acquisition strategies. To promote uniformity and adoption of HP 129 Xe MRI more widely in translational research, multi-site trials, and ultimately clinical practice, this position paper from the 129 Xe MRI Clinical Trials Consortium (https://cpir.cchmc.org/XeMRICTC) recommends standard protocols to harmonize methods for image acquisition in HP 129 Xe MRI. Recommendations are described for the most common HP gas MRI techniques-calibration, ventilation, alveolar-airspace size, and gas exchange-across MRI scanner manufacturers most used for this application. Moreover, recommendations are described for 129 Xe dose volumes and breath-hold standardization to further foster consistency of imaging studies. The intention is that sites with HP 129 Xe MRI capabilities can readily implement these methods to obtain consistent high-quality images that provide regional insight into lung structure and function. While this document represents consensus at a snapshot in time, a roadmap for technical developments is provided that will further increase image quality and efficiency. These standardized dosing and imaging protocols will facilitate the wider adoption of HP 129 Xe MRI for multi-site pulmonary research.

Details

ISSN :
15222594 and 07403194
Volume :
86
Database :
OpenAIRE
Journal :
Magnetic Resonance in Medicine
Accession number :
edsair.doi...........254ae9d7a3c16d38ef28e7871205c525