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Repeatability and Reproducibility of in-vivo Brain Temperature Measurements

Ayushe A. Sharma, Rodolphe Nenert, Christina Mueller, Andrew A. Maudsley, Jarred Younger, Jerzy P. Szaflarski

2020Frontiers in Human Neuroscience25 citationsDOIOpen Access PDF

Abstract

Background: Magnetic resonance spectroscopic imaging (MRSI) is a neuroimaging technique that may be useful for non-invasive mapping of brain temperature (i.e., thermometry) over a large brain volume. To date, intra-subject reproducibility of MRSI-based brain temperature (MRSI-t) has not been investigated. The objective of this repeated measures MRSI-t study was to establish intra-subject reproducibility and repeatability of brain temperature, as well as typical brain temperature range. Methods: Healthy participants aged 23–46 years ( N = 18; 7 females) were scanned at two time points ~12-weeks apart. Volumetric MRSI data were processed by reconstructing metabolite and water images using parametric spectral analysis. Brain temperature was derived using the frequency difference between water and creatine (T CRE ) for 47 regions of interest (ROIs) delineated by the modified Automated Anatomical Labeling (AAL) atlas. Reproducibility was measured using the coefficient of variation for repeated measures (COVrep), and repeatability was determined using the standard error of measurement (SEM). For each region, the upper and lower bounds of Minimal Detectable Change (MDC) were established to characterize the typical range of T CRE values. Results: The mean global brain temperature over all subjects was 37.2°C with spatial variations across ROIs. There was a significant main effect for time [ F (1, 1,591) = 37.0, p < 0.0001] and for brain region [ F (46, 1,591) = 2.66, p < 0.0001]. The time * brain region interaction was not significant [ F (46, 1,591) = 0.80, p = 0.83]. Participants' T CRE was stable for each ROI across both time points, with ROIs' COVrep ranging from 0.81 to 3.08% (mean COVrep = 1.92%); majority of ROIs had a COVrep <2.0%. Conclusions: Brain temperature measurements were highly consistent between both time points, indicating high reproducibility and repeatability of MRSI-t. MRSI-t may be a promising diagnostic, prognostic, and therapeutic tool for non-invasively monitoring brain temperature changes in health and disease. However, further studies of healthy participants with larger sample size(s) and numerous repeated acquisitions are imperative for establishing a reference range of typical brain T CRE , as well as the threshold above which T CRE is likely pathological.

Topics & Concepts

ReproducibilityRepeatabilityNuclear medicineNeuroimagingMagnetic resonance imagingCoefficient of variationStatistical parametric mappingNuclear magnetic resonanceBiomedical engineeringMedicineRadiologyChemistryPhysicsPsychiatryChromatographyThermal Regulation in MedicineInfrared Thermography in MedicineOptical Imaging and Spectroscopy Techniques
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