Abstract.
In preparation for performing task specific ballistic movements, subjects may choose among different possibilities for setting up their motor apparatus, ranging from quiet resting to different types of muscle activation. In the study presented here, we investigated whether differences in the motor set modify either the reaction time or the kinematic characteristics of the movement. Subjects wearing surface EMG recording electrodes in the wrist extensor (WE) and wrist flexor (WF) muscles were requested to react to the presentation of a visual stimulus by performing a ballistic wrist extension movement of an amplitude of about 50° in the following experimental conditions: resting quietly, which was considered as the control condition (CC); isometric contraction (IC), in which subjects were required to activate WE and WF muscles isometrically; rapid oscillations (RO), in which subjects were requested to make a fast oscillatory wrist movement; and slow oscillations (SO), in which subjects were maintaining a slow oscillatory motion of the wrist. To constrain the movement to the wrist joint and limit the action of postural muscles, the subject’s forearm and hand were attached to joined non-resistive metallic platforms, allowing for free non-frictional displacement. In the EMG recordings, we measured the size of the EMG bursts in agonist and antagonist muscles, and the inter-burst intervals. In movement recordings, we measured movement onset latency and the velocity profile. Movement onset was delayed in SO with respect to all other conditions. Conversely, peak velocity was larger in all test conditions in comparison to CC. There were no differences in the size of the first EMG burst of the agonist muscle, but significant changes occurred in the subsequent bursts recorded in the agonist and antagonist muscles. Our study indicates that the motor program used to execute a ballistic voluntary movement is influenced by the conditions of the motor system. The configuration of the motor set should be specifically considered in the search for improving the speed of the reaction and the kinematics of ballistic movements.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Berardelli A, Hallett M, Rothwell JC, Agostino R, Manfredi M, Thompson PD, Marsden CD (1996) Single-joint rapid arm movements in normal subjects and in patients with motor disorders. Brain 119:661–674
Britton TC, Thompson PD, Day BL, Rothwell JC, Findley LJ, Marsden CD (1994) Rapid wrist movements in patients with essential tremor. The critical role of the second agonist burst. Brain 117:39–47
Close RI (1972) The relations between sarcomere length and characteristics of isometric twitch contractions of frog sartorius muscle. J Physiol 220:745–762
Collet C (1999) Strategic aspects of reaction time in world-class sprinters. Percept Mot Skills 88:65–75
Collins DF, Cameron T, Gillard DM, Prochazka A (1998) Muscular sense is attenuated when humans move. J Physiol 508:635–643
Conway BA, Biswas P, Halliday DM, Farmer SF, Rosenberg JR (1997) Task-dependent changes in rhythmic motor output during voluntary elbow movement in man. J Physiol 501P:48P
Conway BA, Farmer SF, Halliday DM, Rosenberg JR (1998) Rhythmicity and synchronization in neural systems and its relation to human motor control. J Physiol 509P:31S
Cooke JD, Brown SH (1994) Movement-related phasic muscle activation III. The duration of phasic agonist activity initiating movement. Exp Brain Res 99:473–482
Dreisbach G, Haider H, Kluwe RH (2002) Preparatory processes in the task-switching paradigm: evidence from the use of probability cues. J Exp Psychol Learn Mem Cogn 28:468–483
Gordon AM, Huxley AF, Julian FJ (1966) The variation in isometric tension with sarcomere length in vertebrate muscle fibres. J Physiol 184:170–192
Gottlieb GL, Chen CH, Corcos DM (1995) Relations between joint torque, motion, and electromyographic patterns at the human elbow. Exp Brain Res 103:164–167
Hallett M, Shahani BT, Young RR (1975) EMG analysis of stereotyped voluntary movements in man. J Neurol Neurosurg Psychiatry 38:1154–1162
Henderson L, Dittrich WH (1998) Preparing to react in the absence of uncertainty: I New perspectives on simple reaction time. Br J Psychol 89:531–554
Imaruoka T, Yanagida T, Miyauchi S (2003) Attentional set for external information activates the right intraparietal area. Brain Res Cogn Brain Res 16:199–209
Kimura K, Imanaka K, Kita I (2002) The effects of different instructions for preparatory muscle tension on simple reaction time. Hum Mov Sci 21:947–960
Lakie M, Combes N (2000) There is no simple temporal relationship between the initiation of rapid reactive hand movements and the phase of an enhanced physiological tremor in man. J Physiol 523:515–522
Lalonde R, Botez-Marquard T (1997) The neurobiological basis of movement initiation. Rev Neurosci 8:35–54
MacKinnon CD, Rothwell JC (2000) Time-varying changes in corticospinal excitability accompanying the triphasic EMG pattern in humans. J Physiol 528:633–45
Pashler H (1994) Dual-task interference in simple tasks: data and theory. Psychol Bull 116:220–244
Ruegg, DG, Bongioanni F (1989) Superposition of ballistic on steady contractions in man. Exp Brain Res 77:412–420
Rushworth MF, Paus T, Sipila PK (2001) Attention systems and the organization of the human parietal cortex. J Neurosci 21:5262–5271
Author information
Authors and Affiliations
Corresponding author
Additional information
JMC and MTS were funded by the Spanish Ministry of Education, Culture and Sport, with grant numbers PR 2003-0212 and AP2000-0913
Rights and permissions
About this article
Cite this article
Castellote, J.M., Valls-Solé, J. & Sanegre, M.T. Ballistic reactions under different motor sets. Exp Brain Res 158, 35–42 (2004). https://doi.org/10.1007/s00221-004-1866-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00221-004-1866-5