Objective: To investigate the role of sea-level cerebral blood flow (CBF) in predicting acute mountain sickness (AMS) using three-dimensional pseudo-continuous arterial spin labeling (3D-pCASL).
Methods: Forty-eight healthy volunteers reached an altitude of 3,650 m by air after undergoing a head magnetic resonance imaging (MRI) including 3D-pCASL at sea level. The CBF values of the bilateral anterior cerebral artery (ACA), middle cerebral artery (MCA), posterior cerebral artery (PCA), and posterior inferior cerebellar artery (PICA) territories and the laterality index (LI) of CBF were compared between the AMS and non-AMS groups. Statistical analyses were performed to determine the relationship between CBF and AMS, and the predictive performance was assessed using receiver operating characteristic (ROC) curves.
Results: The mean cortical CBF in women (81.65 ± 2.69 mL/100 g/min) was higher than that in men (74.35 ± 2.12 mL/100 g/min) ( < 0.05). In men, the cortical CBF values in the bilateral ACA, PCA, PICA, and right MCA were higher in patients with AMS than in those without. Cortical CBF in the right PCA best predicted AMS (AUC = 0.818). In women, the LI of CBF in the ACA was different between the AMS and non-AMS groups and predicted AMS with an AUC of 0.753.
Conclusion: Although the mechanism and prediction of AMS are quite complicated, higher cortical CBF at sea level, especially the CBF of the posterior circulatory system, may be used for prediction in male volunteers using non-invasive 3D-pCASL.
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