Initial information prior to movement onset influences kinematics of upward arm pointing movements

To elaborate a motor plan and perform online control in the gravity field, the brain relies on priors and multisensory integration of information. In particular, afferent and efferent inputs related to the initial state are thought to convey sensorimotor information to plan the upcoming action. Yet...

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Published in	Journal of neurophysiology Vol. 116; no. 4; pp. 1673 - 1683
Main Authors	Rousseau, Célia, Papaxanthis, Charalambos, Gaveau, Jérémie, Pozzo, Thierry, White, Olivier
Format	Journal Article
Language	English
Published	United States American Physiological Society 01.10.2016
Subjects	Adult Arm - physiology Biomechanical Phenomena Control of Movement Electromyography Female Gravitation Humans Life Sciences Male Middle Aged Motor Activity - physiology Movement - physiology Muscle Contraction - physiology Muscle, Skeletal - physiology Neurons and Cognition Proprioception Shoulder - physiology Torque Visual Perception Young Adult gravitational force motor planning arm movement initial information energy-expenditure electromechanical delay limb movements motor commands representation position sense reaching movements gravity hand
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Abstract	To elaborate a motor plan and perform online control in the gravity field, the brain relies on priors and multisensory integration of information. In particular, afferent and efferent inputs related to the initial state are thought to convey sensorimotor information to plan the upcoming action. Yet it is still unclear to what extent these cues impact motor planning. Here we examined the role of initial information on the planning and execution of arm movements. Participants performed upward arm movements around the shoulder at three speeds and in two arm conditions. In the first condition, the arm was outstretched horizontally and required a significant muscular command to compensate for the gravitational shoulder torque before movement onset. In contrast, in the second condition the arm was passively maintained in the same position with a cushioned support and did not require any muscle contraction before movement execution. We quantified differences in motor performance by comparing shoulder velocity profiles. Previous studies showed that asymmetric velocity profiles reflect an optimal integration of the effects of gravity on upward movements. Consistent with this, we found decreased acceleration durations in both arm conditions. However, early differences in kinematic asymmetries and EMG patterns between the two conditions signaled a change of the motor plan. This different behavior carried on through trials when the arm was at rest before movement onset and may reveal a distinct motor strategy chosen in the context of uncertainty. Altogether, we suggest that the information available online must be complemented by accurate initial information.
AbstractList	To elaborate a motor plan and perform online control in the gravity field, the brain relies on priors and multisensory integration of information. In particular, afferent and efferent inputs related to the initial state are thought to convey sensorimotor information to plan the upcoming action. Yet it is still unclear to what extent these cues impact motor planning. Here we examined the role of initial information on the planning and execution of arm movements. Participants performed upward arm movements around the shoulder at three speeds and in two arm conditions. In the first condition, the arm was outstretched horizontally and required a significant muscular command to compensate for the gravitational shoulder torque before movement onset. In contrast, in the second condition the arm was passively maintained in the same position with a cushioned support and did not require any muscle contraction before movement execution. We quantified differences in motor performance by comparing shoulder velocity profiles. Previous studies showed that asymmetric velocity profiles reflect an optimal integration of the effects of gravity on upward movements. Consistent with this, we found decreased acceleration durations in both arm conditions. However, early differences in kinematic asymmetries and EMG patterns between the two conditions signaled a change of the motor plan. This different behavior carried on through trials when the arm was at rest before movement onset and may reveal a distinct motor strategy chosen in the context of uncertainty. Altogether, we suggest that the information available online must be complemented by accurate initial information. We show that information coming from the initial state of the sensorimotor system is determinant to planning movements in the gravity field. When the muscular command necessary to counteract the gravitational shoulder torque was replaced with a support, we observed that the central nervous system changed motor planning in a way suggesting that the forthcoming dynamics was not reliably estimated. We suggest that the brain then adopts a more general strategy in the context of uncertainty . To elaborate a motor plan and perform online control in the gravity field, the brain relies on priors and multisensory integration of information. In particular, afferent and efferent inputs related to the initial state are thought to convey sensorimotor information to plan the upcoming action. Yet it is still unclear to what extent these cues impact motor planning. Here we examined the role of initial information on the planning and execution of arm movements. Participants performed upward arm movements around the shoulder at three speeds and in two arm conditions. In the first condition, the arm was outstretched horizontally and required a significant muscular command to compensate for the gravitational shoulder torque before movement onset. In contrast, in the second condition the arm was passively maintained in the same position with a cushioned support and did not require any muscle contraction before movement execution. We quantified differences in motor performance by comparing shoulder velocity profiles. Previous studies showed that asymmetric velocity profiles reflect an optimal integration of the effects of gravity on upward movements. Consistent with this, we found decreased acceleration durations in both arm conditions. However, early differences in kinematic asymmetries and EMG patterns between the two conditions signaled a change of the motor plan. This different behavior carried on through trials when the arm was at rest before movement onset and may reveal a distinct motor strategy chosen in the context of uncertainty. Altogether, we suggest that the information available online must be complemented by accurate initial information.
Author	Papaxanthis, Charalambos Rousseau, Célia Gaveau, Jérémie Pozzo, Thierry White, Olivier
Author_xml	– sequence: 1 givenname: Célia surname: Rousseau fullname: Rousseau, Célia email: celiarousseau.rousseau@gmail.com organization: Université de Bourgogne Franche-Comté (UBFC), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; Institut National de Santé et de Recherche Médicale (INSERM U1093), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; and celiarousseau.rousseau@gmail.com – sequence: 2 givenname: Charalambos orcidid: 0000-0003-1955-8269 surname: Papaxanthis fullname: Papaxanthis, Charalambos organization: Université de Bourgogne Franche-Comté (UBFC), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; Institut National de Santé et de Recherche Médicale (INSERM U1093), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; and – sequence: 3 givenname: Jérémie orcidid: 0000-0001-8827-1486 surname: Gaveau fullname: Gaveau, Jérémie organization: Université de Bourgogne Franche-Comté (UBFC), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; Institut National de Santé et de Recherche Médicale (INSERM U1093), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; and – sequence: 4 givenname: Thierry surname: Pozzo fullname: Pozzo, Thierry organization: Université de Bourgogne Franche-Comté (UBFC), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; Institut National de Santé et de Recherche Médicale (INSERM U1093), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; and Institut Universitaire de France (IUF), Paris, France – sequence: 5 givenname: Olivier surname: White fullname: White, Olivier organization: Université de Bourgogne Franche-Comté (UBFC), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; Institut National de Santé et de Recherche Médicale (INSERM U1093), Cognition Action et Plasticité Sensorimotrice (CAPS) UMR1093, Dijon, France; and
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Keywords	gravitational force motor planning arm movement initial information energy-expenditure electromechanical delay limb movements motor commands representation position sense reaching movements gravity hand
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Snippet	To elaborate a motor plan and perform online control in the gravity field, the brain relies on priors and multisensory integration of information. In... We show that information coming from the initial state of the sensorimotor system is determinant to planning movements in the gravity field. When the muscular...
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SubjectTerms	Adult Arm - physiology Biomechanical Phenomena Control of Movement Electromyography Female Gravitation Humans Life Sciences Male Middle Aged Motor Activity - physiology Movement - physiology Muscle Contraction - physiology Muscle, Skeletal - physiology Neurons and Cognition Proprioception Shoulder - physiology Torque Visual Perception Young Adult
Title	Initial information prior to movement onset influences kinematics of upward arm pointing movements
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