Prospective organization of neonatal arm movements: A motor foundation of embodied agency, disrupted in premature birth

Prospective organization of neonatal arm movements: A motor foundation of embodied agency, disrupted in premature birth

Prospective motor control moves the body into the future, from where one is to where one wants to be. It is a hallmark of intentionality. But its origin in development is uncertain. In this study, we tested whether or not the arm movements of newborn infants were prospectively controlled. We measure...

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Veröffentlicht in:Developmental science 2018-11, Vol.21 (6), p.e12693-n/a
Hauptverfasser: Delafield‐Butt, Jonathan T., Freer, Yvonne, Perkins, Jon, Skulina, David, Schögler, Ben, Lee, David N.
Format: Artikel
Sprache:eng
Schlagworte:
agency
Arm
Arm - physiology
embodiment
Feedback, Sensory
Human-computer interaction
Humans
Infant
Infant, Newborn
Infants
Intention
intentionality
motor control
Motor task performance
Movement - physiology
neonate
Neonates
Neurodevelopmental disorders
Premature birth
Premature Birth - physiopathology
prospectivity
Sensorimotor system
Term Birth - physiology
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container_issue 6
container_start_page e12693
container_title Developmental science
container_volume 21
creator Delafield‐Butt, Jonathan T.
Freer, Yvonne
Perkins, Jon
Skulina, David
Schögler, Ben
Lee, David N.
description Prospective motor control moves the body into the future, from where one is to where one wants to be. It is a hallmark of intentionality. But its origin in development is uncertain. In this study, we tested whether or not the arm movements of newborn infants were prospectively controlled. We measured the spatiotemporal organization of 480 full‐term neonatal arm movements and 384 arm movements of prematurely born infants at‐risk for neurodevelopmental disorder. We found 75% of healthy term‐birth neonatal movements and 68% of prematurely born infant movements conformed to the τG‐coupling model of prospective sensorimotor control. Prospective coupling values were significantly reduced in the latter (p = .010, r = .087). In both cases prospectively controlled movements were tightly organized by fixed‐duration units with a base duration of 218 ms and additional temporal units of 145 ms. Yet distances remained constant. Thus, we demonstrate for the first time a precise prospective spatiotemporal organization of neonatal arm movements and demonstrate that at‐risk infants exhibit reduced sensorimotor control. Prospective motor control is a hallmark of primary sensorimotor intentionality and gives a strong embodied foundation to conscious motor agency. Neonatal arm movements were found to be prospectively organised, a hallmark of primary intentionality. Prospective organisation of movement was significantly reduced in infants born premature and at‐risk for neurodevelopmental disorder. This paper reveals an intrinsic intentional structure in newborn movement, suitable as a possible biomarker of developmental concern.
doi_str_mv 10.1111/desc.12693
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subjects agency
Arm
Arm - physiology
embodiment
Feedback, Sensory
Human-computer interaction
Humans
Infant
Infant, Newborn
Infants
Intention
intentionality
motor control
Motor task performance
Movement - physiology
neonate
Neonates
Neurodevelopmental disorders
Premature birth
Premature Birth - physiopathology
prospectivity
Sensorimotor system
Term Birth - physiology
title Prospective organization of neonatal arm movements: A motor foundation of embodied agency, disrupted in premature birth
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