Background and purposeTo provide a systematic measure of changes of brain perfusion in healthy tissue following a fractionated radiotherapy of brain tumors. Materials and methodsPerfusion was assessed before and after radiochemotherapy using arterial spin labeling in a group of 24 patients (mean age 54.3±14.1years) with glioblastoma multiforme. Mean relative perfusion change in gray matter in the hemisphere contralateral to the tumor was obtained for the whole hemisphere and also for six regions created by thresholding the individual dose maps at 10Gy steps. ResultsA significant decrease of perfusion of −9.8±20.9% (p=0.032) compared to the pre-treatment baseline was observed 3months after the end of radiotherapy. The decrease was more pronounced for high-dose regions above 50Gy (−16.8±21.0%, p=0.0014) than for low-dose regions below 10Gy (−2.3±20.0%, p=0.54). No further significant decrease compared to the post-treatment baseline was observed 6months (−0.4±18.4%, p=0.94) and 9months (2.0±15.4%, p=0.74) after the end of radiotherapy. ConclusionsPerfusion decreased significantly during the course of radiochemotherapy. The decrease was higher in regions receiving a higher dose of radiation. This suggests that the perfusion decrease is at least partly caused by radiotherapy. Our results suggest that the detrimental effects of radiochemotherapy on perfusion occur early rather than later.