Abstract
Actual and imagined movement speed increases from early morning until mid-afternoon. Here, we investigated the neural correlates of these daily changes. Fifteen subjects performed actual and imagined right finger opposition movement sequences at 8 am and 2 pm. Both actual and imagined movements were significantly faster at 2 pm than 8 am. In the morning, actual movements significantly activated the left primary somatosensory and motor areas, and bilaterally the cerebellum; in the afternoon activations were similar but reduced. Contrast analysis revealed greater activity in the cerebellum, the left primary sensorimotor cortex and parietal lobe in the morning than in the afternoon. Imagined movements in the morning significantly activated the parietal association cortices bilaterally, the left supplementary and premotor areas, and the right orbitofrontal cortex and cerebellum. In the afternoon, the frontal lobe was significantly activated with the right cerebellum. Contrast analysis revealed increased activity in the left parietal lobe in the morning than in the afternoon. For both tasks, speed in the morning was significantly related to the BOLD signal in the brain areas resulted more active. These findings suggest that motor performance is continuously updated on a daily basis with a predominant role of the frontoparietal cortex and cerebellum.
Highlights
It is well established that movement prevention, via arm immobilization, severely affects motor performance[16,17]
We found that the duration of a finger motor task significantly decreased in the afternoon with respect to the morning for both actual and imagined movement performance, as effect of daily activity[12]
These differences were accompanied by a reduction of functional activation in the frontoparietal cortex and cerebellum, supporting the role of these areas in updating motor performance on a daily basis
Summary
It is well established that movement prevention, via arm immobilization, severely affects motor performance[16,17]. The daily fluctuation of physical and mental motor performance is well described, the neural substrates of this phenomenon are not yet elucidated. To investigate these neural substrates, we conducted an fMRI study on a group of fifteen healthy subjects, each participating to two different sessions, in the morning (8 am) and in the afternoon (2 pm). Since frontoparietal cortex might play a significant role in storing and accessing motor representation, we hypothesized significant changes in the activity of this network related to the improvement of actual and motor performance throughout the day
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