AI Article Synopsis
- Proton magnetic resonance spectroscopy (1H MRS) was used to measure brain temperature in healthy volunteers, focusing on different gray and white matter areas.
- The study found that brain temperature was consistently about 0.5 degrees Celsius cooler than temperatures measured at various body sites, indicating a possible temperature gradient between the brain and body.
- Regional temperature measurements using (1)H MRS imaging (MRSI) showed differences compared to single-voxel MRS results, which may have implications for monitoring brain temperature in medical conditions like brain trauma.
Article Abstract
Proton magnetic resonance spectroscopy ((1)H MRS) was used to determine brain temperature in healthy volunteers. Partially water-suppressed (1)H MRS data sets were acquired at 3T from four different gray matter (GM)/white matter (WM) volumes. Brain temperatures were determined from the chemical-shift difference between the CH(3) of N-acetyl aspartate (NAA) at 2.01 ppm and water. Brain temperatures in (1)H MRS voxels of 2 x 2 x 2 cm(3) showed no substantial heterogeneity. The volume-averaged temperature from single-voxel spectroscopy was compared with body temperatures obtained from the oral cavity, tympanum, and temporal artery regions. The mean brain parenchyma temperature was 0.5 degrees C cooler than readings obtained from three extra-brain sites (P < 0.01). (1)H MRS imaging (MRSI) data were acquired from a slice encompassing the single-voxel volumes to assess the ability of spectroscopic imaging to determine regional brain temperature within the imaging slice. Brain temperature away from the center of the brain determined by MRSI differed from that obtained by single-voxel MRS in the same brain region, possibly due to a poor line width (LW) in MRSI. The data are discussed in the light of proposed brain-body temperature gradients and the use of (1)H MRSI to monitor brain temperature in pathologies, such as brain trauma.
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| http://dx.doi.org/10.1002/mrm.21100 | DOI Listing |
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