Simultaneous multiple breath washout and oxygen-enhanced magnetic resonance imaging in healthy adults - 06/06/23
, Orso Pusterla c, d, Grzegorz Bauman c, d, Francesco Santini c, d, Florian Wyler a, Marion S. Curdy a, C.Corin Willers a, e, Oliver Bieri c, d, Philipp Latzin a, Kathryn A. Ramsey aHighlights |
• | The multiple-breath washout technique assesses global ventilation distribution. |
• | Oxygen-enhanced magnetic resonance imaging shows regional lung function alterations. |
• | Both techniques can be performed simultaneous with a customised equipment. |
• | Washout curves from both techniques showed agreement. |
• | Simultaneous measurements were challenging and test tolerability was low. |
Abstract |
Lung function testing and lung imaging are commonly used techniques to monitor respiratory diseases, such as cystic fibrosis (CF). The nitrogen (N2) multiple-breath washout technique (MBW) has been shown to detect ventilation inhomogeneity in CF, but the underlying pathophysiological processes that are altered are often unclear. Dynamic oxygen-enhanced magnetic resonance imaging (OE-MRI) could potentially be performed simultaneously with MBW because both techniques require breathing of 100% oxygen (O2) and may allow for visualisation of alterations underlying impaired MBW outcomes. However, simultaneous MBW and OE-MRI has never been assessed, potentially as it requires a magnetic resonance (MR) compatible MBW equipment. In this pilot study, we assessed whether MBW and OE-MRI can be performed simultaneously using a commercial MBW device that has been modified to be MR-compatible.
We performed simultaneous measurements in five healthy volunteers aged 25–35 years. We obtained O2 and N2 concentrations from both techniques, and generated O2 wash-in time constant and N2 washout maps from OE-MRI data.
We obtained good quality simultaneous measurements in two healthy volunteers due to technical challenges related to the MBW equipment and poor tolerance. Oxygen and N2 concentrations from both techniques, as well as O2 wash-in time constant maps and N2 washout maps could be obtained, suggesting that simultaneous measurements may have the potential to allow for comparison and visualization of regional differences in ventilation underlying impaired MBW outcomes.
Simultaneous MBW and OE-MRI measurements can be performed with a modified MBW device and may help to understand MBW outcomes, but the measurements are challenging and have poor feasibility.
Le texte complet de cet article est disponible en PDF.Keywords : Cystic fibrosis, Lung function, Lung imaging, oxygen-enhanced MRI, Ventilation inhomogeneity, Diagnostics
Plan
| Notation of prior abstract publication/ presentation: Part of this work was presented at the ISMRM/SMRT annual meeting 2021 on 19.05.2021 (online) and the European Respiratory Society (ERS) Congress 2021 on 07.09.2021 (online) [1]. |
Vol 83
Article 100993- juin 2023 Retour au numéro
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