P.A. Atul Gopal scite author profile

P.A. Atul Gopal

2Publications

74Citation Statements Received

144Citation Statements Given

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National Brain Research Centre, Advanced Neural Dynamics (United States)

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A common control signal and a ballistic stage can explain the control of coordinated eye-hand movements

Gopal

Murthy

2016

Journal of Neurophysiology

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Gopal A, Murthy A. A common control signal and a ballistic stage can explain the control of coordinated eye-hand movements. J Neurophysiol 115: 2470 -2484, 2016. First published February 17, 2016 doi:10.1152/jn.00910.2015.-Voluntary control has been extensively studied in the context of eye and hand movements made in isolation, yet little is known about the nature of control during eye-hand coordination. We probed this with a redirect task. Here subjects had to make reaching/pointing movements accompanied by coordinated eye movements but had to change their plans when the target occasionally changed its position during some trials. Using a race model framework, we found that separate effector-specific mechanisms may be recruited to control eye and hand movements when executed in isolation but when the same effectors are coordinated a unitary mechanism to control coordinated eye-hand movements is employed. Specifically, we found that performance curves were distinct for the eye and hand when these movements were executed in isolation but were comparable when they were executed together. Second, the time to switch motor plans, called the target step reaction time, was different in the eye-alone and hand-alone conditions but was similar in the coordinated condition under assumption of a ballistic stage of ϳ40 ms, on average. Interestingly, the existence of this ballistic stage could predict the extent of eye-hand dissociations seen in individual subjects. Finally, when subjects were explicitly instructed to control specifically a single effector (eye or hand), redirecting one effector had a strong effect on the performance of the other effector. Taken together, these results suggest that a common control signal and a ballistic stage are recruited when coordinated eye-hand movement plans require alteration. eye-hand coordination; race model; inhibitory control; ballistic stage; reaction times THE ABILITY TO INHIBIT or change a planned movement is a critical feature that characterizes all voluntary movements. Such control is typically studied by assessing a subject's ability to stop or change his/her planned movement to an original target after presentation of a STOP/CHANGE signal delivered at successively increasing delays, producing a performance function or an inhibition/compensation function, respectively. Performance is typically modeled as an independent stochastic race between processes that initiate and inhibit the old motor plan (Hanes and Carpenter

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Eye-hand coordination during a double-step task: evidence for a common stochastic accumulator

Gopal

Murthy

2015

Journal of Neurophysiology

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Many studies of reaching and pointing have shown significant spatial and temporal correlations between eye and hand movements. Nevertheless, it remains unclear whether these correlations are incidental, arising from common inputs (independent model); whether these correlations represent an interaction between otherwise independent eye and hand systems (interactive model); or whether these correlations arise from a single dedicated eye-hand system (common command model). Subjects were instructed to redirect gaze and pointing movements in a double-step task in an attempt to decouple eye-hand movements and causally distinguish between the three architectures. We used a drift-diffusion framework in the context of a race model, which has been previously used to explain redirect behavior for eye and hand movements separately, to predict the pattern of eye-hand decoupling. We found that the common command architecture could best explain the observed frequency of different eye and hand response patterns to the target step. A common stochastic accumulator for eye-hand coordination also predicts comparable variances, despite significant difference in the means of the eye and hand reaction time (RT) distributions, which we tested. Consistent with this prediction, we observed that the variances of the eye and hand RTs were similar, despite much larger hand RTs (∼90 ms). Moreover, changes in mean eye RTs, which also increased eye RT variance, produced a similar increase in mean and variance of the associated hand RT. Taken together, these data suggest that a dedicated circuit underlies coordinated eye-hand planning.

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P.A. Atul Gopal

A common control signal and a ballistic stage can explain the control of coordinated eye-hand movements

Eye-hand coordination during a double-step task: evidence for a common stochastic accumulator

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