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Dynamic Office Environments Improve Brain Activity and Attentional Performance Mediated by Increased Motor Activity
Conclusion The results of the present study reveal short- and mid-term effects on attentional and vigilance performance, and EEG brain activity when working in a dynamic versus a static environment. During working in a dynamic office, attentional and vigilance performance increased compared to working in a static office. Brain activities show increased alpha, beta and gamma power in the frontal and central areas in the attentional task with increased theta, alpha, and beta activity in the vigilance task. These findings suggest that working in a dynamic office environment stimulates the brain towards an optimum psychophysi...
Source: Frontiers in Human Neuroscience - April 11, 2019 Category: Neuroscience Source Type: research

Fast Intracortical Sensory-Motor Integration: A Window Into the Pathophysiology of Parkinson ’s Disease
Conclusion and Outlook In this review, we have discussed the possible contributions of the fast-afferent somatosensory pathway, the intracortical integrative component and the fast-efferent corticomotor pathway to alterations of SAI in PD. We concluded that PD-related changes in SAI are most likely caused at the cortical level, where sensory input is rapidly integrated into a motor output. This makes SAI a useful tool to probe how PD impacts on the sensorimotor integration processing at the cortical level. Studies performed on PD patients have shown variable results, ranging from reduced to normal or even enhanced SAI fi...
Source: Frontiers in Human Neuroscience - April 7, 2019 Category: Neuroscience Source Type: research