Absolute thermometry of human brown adipose tissue by magnetic resonance with laser polarized 129Xe

Background Absolute temperature measurements of tissues inside the human body are difficult to perform non-invasively. Yet, for brown adipose tissue (BAT), these measurements would enable direct monitoring of its thermogenic activity and its association with metabolic health.Methods Here, we report direct measurement of absolute BAT temperature in humans during cold exposure by magnetic resonance (MR) with laser polarized xenon gas. This methodology, which leverages on the sensitivity of the chemical shift of the Xe-129 isotope to temperature-induced changes in fat density, is first calibrated in vitro and then tested in vivo in rodents. Finally, it is used in humans along with positron emission tomography (PET) scans with fluorine-18-fluorodeoxyglucose to detect BAT thermogenic activity during cold exposure.Results Absolute temperature measurements, obtained in rodents with an experimental error of 0.5 C-degrees, show only a median deviation of 0.12(degrees)C against temperature measurements made using a pre-calibrated optical temperature probe. In humans, enhanced uptake of Xe-129 in BAT during cold exposure leads to background-free detection of this tissue by MR. Global measurements of supraclavicular BAT temperature, made over the course of four seconds and with an experimental error ranging from a minimum of 0.4 C-degrees to more than 2 C-degrees, in case of poor shimming, reveal an average BAT temperature of 38.8(degrees) +/- 0.8 C-degrees, significantly higher (p < 0.02 two-sided t test) than 37.7 C-degrees. Hot BAT is also detected in participants with a PET scan negative for BAT.Conclusions Non-invasive, radiation-free measurements of BAT temperature by MRI with hyperpolarized Xe-129 may enable longitudinal monitoring of human BAT activity under various stimulatory conditions.