Objective: Blood oxygenation can be measured using magnetic resonance using the paramagnetic effect of deoxy-haemoglobin, which decreases the T2 relaxation time of blood. This T2 contrast has been well characterised at the B fields used in MRI (1.5 T and above). However, few studies have characterised this effect at lower magnetic fields. Here, the feasibility of blood oximetry at low field based on T2 changes that are within a physiological relevant range is explored. This study could be used for specifying requirements for construction of a monitoring device based on low field permanent magnet systems. Methods: A continuous flow circuit was used to control parameters such as oxygen saturation and temperature in a sample of blood. It flowed through a variable field magnet, where CPMG experiments were performed to measure its T2. In addition, the oxygen saturation was monitored by an optical sensor for comparison with the T2 changes. Results: These results show that at low B fields, the change in blood T2 due to oxygenation is small, but still detectable. The data measured at low fields are also in agreement with theoretical models for the oxy-deoxy T2 effect. Conclusion: T2 changes in blood due to oxygenation were observed at fields as low as 0.1 T. These results suggest that low field NMR relaxometry devices around 0.3 T could be designed to detect changes in blood oxygenation.
Funding
Portable NMR Sensor Technology for Brain Oxygenation Monitoring | Funder: UNIVERSITY OF OTAGO
Medical Device for Comprehensive Brain Monitoring using Portable Magnetic Resonance Technology | Funder: UNIVERSITY OF OTAGO
Real-time Brain Health Measures in Clinically Relevant Ovine Stroke Models | Funder: WELLINGTON MEDICAL RESEARCH FOUNDATION
History
Preferred citation
Thomas, D., Teal, P., Galvosas, P., Wright, G., Harrison, F., Tzeng, Y. -C. & Obruchkov, S. (2019, May). Oxygen saturation dependent effects on blood transverse relaxation at low fields. In Magnetic Resonance Materials in Physics, Biology and Medicine Int. Soc. Mag. Res. Medicine, 27th annual meeting, Montréal (pp. 1-11). Springer Science and Business Media LLC. https://doi.org/10.1007/s10334-021-00993-2