Neural Substrates of Real and Imagined Sensorimotor Coordination

doi:10.1093/cercor/bhh198

Cerebral Cortex Advance Access originally published online on November 24, 2004
Cerebral Cortex 2005 15(7):975-985; doi:10.1093/cercor/bhh198

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Neural Substrates of Real and Imagined Sensorimotor Coordination

O. Oullier¹, K.J. Jantzen¹, F.L. Steinberg¹^,2 and J.A.S. Kelso¹

¹ Center for Complex Systems and Brain Sciences, Florida Atlantic University, Boca Raton, FL, USA and ² University MRI and Diagnostic Imaging Centers, Boca Raton, FL, USA

Address correspondence to Olivier Oullier, Center for Complex Systems and Brain Sciences, Florida Atlantic University, 777 Glades Road, Boca Raton, FL 33431, USA. Email: oullier{at}ccs.fau.edu.

Much debate in the behavioral literature focuses on the relativecontribution of motor and perceptual processes in mediatingcoordinative stability. To a large degree, such debate has proceededindependently of what is going on in the brain. Here, usingblood oxygen level-dependent measures of neural activation,we compare physically executed and imagined rhythmic coordinationin order to better assess the relative contribution of hypothesizedneuromusculoskeletal mechanisms in modulating behavioral stability.The executed tasks were to coordinate index finger to thumbopposition movements of the right hand with an auditory metronomein either a synchronized (on the beat) or syncopated (off thebeat) pattern. Imagination involved the same tasks, except withoutphysical movement. Thus, the sensory stimulus and coordinationconstraints were the same in both physical and imagination tasks,but the motoric requirements were not. Results showed that neuraldifferences between executed synchronization and syncopationfound in premotor cortex, supplementary motor area, basal gangliaand lateral cerebellum persist even when the coordinative patternswere only imagined. Neural indices reflecting behavioral stabilitywere not abolished by the absence of overt movement suggestingthat coordination phenomena are not exclusively rooted in purelymotoric constraints. On the other hand, activity in the superiortemporal gyrus was modulated by both the presence of movementand the nature of the coordination, attesting to the intimacybetween perceptual and motoric processes in coordination dynamics.

Key Words: coordination dynamics • fMRI • imagery • perception–action • synchronization

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