Dose-dependent effects of transcranial photobiomodulation on brain temperature in patients with major depressive disorder: a spectroscopy study.

This study aimed to evaluate the dose-dependent brain temperature effects of transcranial photobiomodulation (t-PBM). Thirty adult subjects with major depressive disorder were randomized to three t-PBM sessions with different doses (low: 50 mW/cm², medium: 300 mW/cm², high: 850 mW/cm²) and a sham treatment. The low and medium doses were administered in continuous wave mode, while the high dose was administered in pulsed wave mode. A 3T MRI scanner was used to perform proton magnetic resonance spectroscopy (¹H-MRS). A voxel with a volume of 30 × 30 × 15 mm³ was placed on the left prefrontal region. Brain temperature (°C) was derived by analyzing ¹H-MRS spectrum chemical shift differences between the water (~ 4.7 ppm) and N-acetyl aspartate (NAA) (~ 2.01 ppm) peaks. After quality control of the data, the following group numbers were available for both pre- and post-temperature estimations: sham (n = 10), low (n = 11), medium (n = 10), and high (n = 8). We did not detect significant temperature differences for any t-PBM-active or sham groups post-irradiation (p-value range = 0.105 and 0.781). We also tested for potential differences in the pre-post variability of brain temperature in each group. As for t-PBM active groups, the lowest fluctuation (variance) was observed for the medium dose (σ² = 0.29), followed by the low dose (σ² = 0.47), and the highest fluctuation was for the high dose (σ² = 0.67). t-PBM sham condition showed the overall lowest fluctuation (σ² = 0.11). Our ¹H-MRS thermometry results showed no significant brain temperature elevations during t-PBM administration.