Your search keyword '"Lloyd-Fox S"' showing total 103 results

101. Early cortical specialization for face-to-face communication in human infants.

Author

Grossmann T, Johnson MH, Lloyd-Fox S, Blasi A, Deligianni F, Elwell C, and Csibra G

Subjects

Brain Mapping, Electroencephalography, Female, Hemodynamics, Humans, Infant, Male, Spectroscopy, Near-Infrared, Cerebral Cortex physiology, Face, Facial Expression, Visual Perception physiology

Abstract

This study examined the brain bases of early human social cognitive abilities. Specifically, we investigated whether cortical regions implicated in adults' perception of facial communication signals are functionally active in early human development. Four-month-old infants watched two kinds of dynamic scenarios in which a face either established mutual gaze or averted its gaze, both of which were followed by an eyebrow raise with accompanying smile. Haemodynamic responses were measured by near-infrared spectroscopy, permitting spatial localization of brain activation (experiment 1), and gamma-band oscillatory brain activity was analysed from electroencephalography to provide temporal information about the underlying cortical processes (experiment 2). The results revealed that perceiving facial communication signals activates areas in the infant temporal and prefrontal cortex that correspond to the brain regions implicated in these processes in adults. In addition, mutual gaze itself, and the eyebrow raise with accompanying smile in the context of mutual gaze, produce similar cortical activations. This pattern of results suggests an early specialization of the cortical network involved in the perception of facial communication cues, which is essential for infants' interactions with, and learning from, others.

Published

2008

102. Editorial: Do we study what parents want us to?

Author

Johnson MH and Lloyd-Fox S

Subjects

Child, Humans, Parents, Surveys and Questionnaires, Child Development physiology, Research Design statistics & numerical data

Published

2008

103. Spatial localization of touch in the first year of life: early influence of a visual spatial code and the development of remapping across changes in limb position.

Author

Bremner AJ, Mareschal D, Lloyd-Fox S, and Spence C

Subjects

Female, Humans, Infant, Male, Reaction Time, Extremities, Posture, Space Perception, Touch, Visual Perception

Abstract

Two experiments investigated infants' ability to localize tactile sensations in peripersonal space. Infants aged 10 months (Experiment 1) and 6.5 months (Experiment 2) were presented with vibrotactile stimuli unpredictably to either hand while they adopted either a crossed- or uncrossed-hands posture. At 6.5 months, infants' responses were predominantly manual, whereas at 10 months, visual orienting behavior was more evident. Analyses of the direction of the responses indicated that (a) both age groups were able to locate tactile stimuli, (b) the ability to remap visual and manual responses to tactile stimuli across postural changes develops between 6.5 and 10 months of age, and (c) the 6.5-month-olds were biased to respond manually in the direction appropriate to the more familiar uncrossed-hands posture across both postures. The authors argue that there is an early visual influence on tactile spatial perception and suggest that the ability to remap visual and manual directional responses across changes in posture develops between 6.5 and 10 months, most likely because of the experience of crossing the midline gained during this period., (PsycINFO Database Record (c) 2008 APA, all rights reserved.)

Published

2008