Participation in ultra-endurance events has increased in recent years and requires extreme levels of moderate to vigorous physical activity(MVPA).Moderate levels of MVPA have been associated with increased brain volum...Participation in ultra-endurance events has increased in recent years and requires extreme levels of moderate to vigorous physical activity(MVPA).Moderate levels of MVPA have been associated with increased brain volume but the effects of extreme levels of MVPA on brain volume is unknown.As a result,we sought to compare the brains of those who engage in extremely high levels of MVPA with those who are sedentary using magnetic resonance imaging.We performed whole brain volumetric analyses and voxel-based morphometry on 12 ultraendurance athletes(1078.75±407.86 min of MVPA/week)and 9 sedentary persons(18.0±56.9 min of MVPA/week).Whole-brain analyses revealed that those who participate in ultra-endurance training have increased grey(p<0.0001),white(p=0.031),and total matter volume(p<0.0001),while regional analyses revealed that ultra-endurance athletes have smaller regional grey matter volume in the right primary sensory and motor cortex,inferior and middle frontal gyrus,and left thalamus.Future research is warranted to determine why ultra-endurance athletes have lower regional volumes in these areas despite having overall increased grey and white matter volumes.展开更多
文摘Participation in ultra-endurance events has increased in recent years and requires extreme levels of moderate to vigorous physical activity(MVPA).Moderate levels of MVPA have been associated with increased brain volume but the effects of extreme levels of MVPA on brain volume is unknown.As a result,we sought to compare the brains of those who engage in extremely high levels of MVPA with those who are sedentary using magnetic resonance imaging.We performed whole brain volumetric analyses and voxel-based morphometry on 12 ultraendurance athletes(1078.75±407.86 min of MVPA/week)and 9 sedentary persons(18.0±56.9 min of MVPA/week).Whole-brain analyses revealed that those who participate in ultra-endurance training have increased grey(p<0.0001),white(p=0.031),and total matter volume(p<0.0001),while regional analyses revealed that ultra-endurance athletes have smaller regional grey matter volume in the right primary sensory and motor cortex,inferior and middle frontal gyrus,and left thalamus.Future research is warranted to determine why ultra-endurance athletes have lower regional volumes in these areas despite having overall increased grey and white matter volumes.