Jeff Summers scite author profile

Studies on drawing circles with both hands in the horizontal plane have shown that this task is easy to perform across a wide range of movement frequencies under the symmetrical mode of coordination, whereas under the asymmetrical mode (both limbs moving clockwise or counterclockwise) increases in movement frequency have a disruptive effect on trajectory control and hand coordination. To account for these interference effects, we propose a simplified computer model for bimanual circle drawing based on the assumptions that (1) circular trajectories are generated from two orthogonal oscillations coupled with a phase delay, (2) the trajectories are organized on two levels, "intention" and "motor execution", and (3) the motor systems controlling each hand are prone to neural cross-talk. The neural cross-talk consists in dispatching some fraction of any force command sent to one limb as a mirror image to the other limb. Assuming predominating coupling influences from the dominant to the nondominant limb, the simulations successfully reproduced the main characteristics of performance during asymmetrical bimanual circle drawing with increasing movement frequencies, including disruption of the circular form drawn with the nondominant hand, increasing dephasing of the hand movements, increasing variability of the phase difference, and occasional reversals of the movement direction in the nondominant limb. The implications of these results for current theories of bimanual coordination are discussed.

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Changes to somatosensory detection and pain thresholds following high frequency repetitive TMS of the motor cortex in individuals suffering from chronic pain

Johnson

Summers

Pridmore

2006

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Research has shown that transcranial magnetic stimulation (TMS) results in a transient reduction in the experience of chronic pain. The present research aimed to investigate whether a single session of high frequency TMS is able to change the sensory thresholds of individuals suffering from chronic pain. Detection and pain thresholds for cold and heat sensations were measured before and after 20Hz repetitive TMS (rTMS) administered over the motor cortex. A significant decrease in temperature for cold detection and pain thresholds and a significant increase in temperature for heat pain thresholds were evident following a single session of rTMS. In contrast, no change in detection and pain thresholds was obtained following sham rTMS. The finding that rTMS can have a direct effect on sensory thresholds in individuals suffering from chronic pain has implications for the therapeutic use of rTMS in the relief of chronic pain.

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Cognitive multiplicity in polyrhythmic pattern performance.

Pressing¹,

Summers²,

Magill³

1996

Journal of Experimental Psychology: Human Perception and Perfor

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The performance of 4 forms of a 4:3 polyrhythm by 3 experienced percussionists using a synchronous protocol was examined. The percussionists were able to selectively apply different production models to their performance, and the authors show that these can be systematically elaborated in cognitive terms using structural equation modeling. All models were found to be variants of a general hierarchical standard model, which is based on a clock pulse, motor delay variables, subdivision variables, and certain basic covariance assumptions. Size of cognitive ground (fundamental clock pulse) was the primary variable affecting production; control processes were predominantly hand independent. The ground-associated hand showed better accuracy and consistency than the nonground (figure) hand for withinhand intervals. In contrast, ground hand motor delay variances were larger than corresponding figure hand variances.

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Changes to cold detection and pain thresholds following low and high frequency transcranial magnetic stimulation of the motor cortex

Summers

Johnson

Pridmore

et al. 2004

Neuroscience Letters

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Instabilities during antiphase bimanual movements: are ipsilateral pathways involved?

Kagerer

Summers

Semjén

2003

Experimental Brain Research

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The spatial and temporal coupling between the hands is known to be very robust during movements which use homologous muscles (in-phase or symmetric movements). In contrast, movements using nonhomologous muscles (antiphase or asymmetric movements) are less stable and exhibit a tendency to undergo a phase transition to in-phase movements as movement frequency increases. The instability during antiphase movements has been modeled in terms of signal interference mediated by the ipsilateral corticospinal pathways. In this study we report that participants in whom distal ipsilateral motor-evoked potentials could be elicited with transcranial magnetic stimulation (TMS), exhibited higher variability during a bimanual circling task than participants whose ipsilateral pathways could not be transcranially activated. These results suggest that ipsilateral control of the limb affects the level of bimanual coupling, and may contribute to uncoupling phenomena observed during asymmetric coordination.

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Jeff Summers

Simulating a neural cross-talk model for between-hand interference during bimanual circle drawing

Changes to somatosensory detection and pain thresholds following high frequency repetitive TMS of the motor cortex in individuals suffering from chronic pain

Cognitive multiplicity in polyrhythmic pattern performance.

Changes to cold detection and pain thresholds following low and high frequency transcranial magnetic stimulation of the motor cortex

Instabilities during antiphase bimanual movements: are ipsilateral pathways involved?

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