The development of peak alpha frequency from infancy to adolescence and its role in visual temporal processing: A meta-analysis

While it has been shown that alpha frequency increases over development (Stroganova et al., 1999), a precise trajectory has not yet been specified, making it challenging to constrain theories linking alpha rhythms to perceptual development. We conducted a comprehensive review of studies measuring re...

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Published in	Developmental cognitive neuroscience Vol. 57; p. 101146
Main Authors	Freschl, Julie, Azizi, Lina Al, Balboa, Lilyann, Kaldy, Zsuzsa, Blaser, Erik
Format	Journal Article
Language	English
Published	Netherlands Elsevier Ltd 01.10.2022 Elsevier
Subjects	Adolescent Adult Alpha Rhythm Child, Preschool Children Development Electroencephalography Humans Infant Peak alpha frequency Review Sensation Time Perception Visual Perception Visual temporal processing Peak alpha frequency Development Alpha rhythm Visual temporal processing Children
Online Access	Get full text
ISSN	1878-9293 1878-9307 1878-9307
DOI	10.1016/j.dcn.2022.101146

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Abstract	While it has been shown that alpha frequency increases over development (Stroganova et al., 1999), a precise trajectory has not yet been specified, making it challenging to constrain theories linking alpha rhythms to perceptual development. We conducted a comprehensive review of studies measuring resting-state occipital peak alpha frequency (PAF, the frequency exhibiting maximum power) from birth to 18 years of age. From 889 potentially relevant studies, we identified 40 reporting PAF (109 samples; 3882 subjects). A nonlinear regression revealed that PAF increases quickly in early childhood (from 6.1 Hz at 6 months to 8.4 Hz at 5 years) and levels off in adolescence (9.7 Hz at 13 years), with an asymptote at 10.1 Hz. We found no effect of resting state procedure (eyes-open versus eyes-closed) or biological sex. PAF has been implicated as a clock on visual temporal processing, with faster frequencies associated with higher visual temporal resolution. Psychophysical studies have shown that temporal resolution reaches adult levels by 5 years of age (Freschl et al., 2019, 2020). The fact that PAF reaches the adult range of 8–12 Hz by that age strengthens the link between PAF and temporal resolution. •Determined the developmental trajectory of Peak Alpha Frequency (PAF).•PAF increases from 6 Hz in early infancy and asymptotes at 10 Hz by adolescence.•PAF increase is consistent with the age-related increase in visual temporal resolution.•No effect of resting state EEG methodology (eyes-closed vs. eyes-open) or sex on PAF.
AbstractList	While it has been shown that alpha frequency increases over development ( Stroganova et al., 1999 ), a precise trajectory has not yet been specified, making it challenging to constrain theories linking alpha rhythms to perceptual development. We conducted a comprehensive review of studies measuring resting-state occipital peak alpha frequency (PAF, the frequency exhibiting maximum power) from birth to 18 years of age. From 889 potentially relevant studies, we identified 40 reporting PAF (109 samples; 3882 subjects). A nonlinear regression revealed that PAF increases quickly in early childhood (from 6.1 Hz at 6 months to 8.4 Hz at 5 years) and levels off in adolescence (9.7 Hz at 13 years), with an asymptote at 10.1 Hz. We found no effect of resting state procedure (eyes-open versus eyes-closed) or biological sex. PAF has been implicated as a clock on visual temporal processing, with faster frequencies associated with higher visual temporal resolution. Psychophysical studies have shown that temporal resolution reaches adult levels by 5 years of age ( Freschl et al., 2019 , Freschl et al., 2020 ). The fact that PAF reaches the adult range of 8–12 Hz by that age strengthens the link between PAF and temporal resolution. • Determined the developmental trajectory of Peak Alpha Frequency (PAF). • PAF increases from 6 Hz in early infancy and asymptotes at 10 Hz by adolescence. • PAF increase is consistent with the age-related increase in visual temporal resolution. • No effect of resting state EEG methodology (eyes-closed vs. eyes-open) or sex on PAF. While it has been shown that alpha frequency increases over development (Stroganova et al., 1999), a precise trajectory has not yet been specified, making it challenging to constrain theories linking alpha rhythms to perceptual development. We conducted a comprehensive review of studies measuring resting-state occipital peak alpha frequency (PAF, the frequency exhibiting maximum power) from birth to 18 years of age. From 889 potentially relevant studies, we identified 40 reporting PAF (109 samples; 3882 subjects). A nonlinear regression revealed that PAF increases quickly in early childhood (from 6.1 Hz at 6 months to 8.4 Hz at 5 years) and levels off in adolescence (9.7 Hz at 13 years), with an asymptote at 10.1 Hz. We found no effect of resting state procedure (eyes-open versus eyes-closed) or biological sex. PAF has been implicated as a clock on visual temporal processing, with faster frequencies associated with higher visual temporal resolution. Psychophysical studies have shown that temporal resolution reaches adult levels by 5 years of age (Freschl et al., 2019, 2020). The fact that PAF reaches the adult range of 8–12 Hz by that age strengthens the link between PAF and temporal resolution. While it has been shown that alpha frequency increases over development (Stroganova et al., 1999), a precise trajectory has not yet been specified, making it challenging to constrain theories linking alpha rhythms to perceptual development. We conducted a comprehensive review of studies measuring resting-state occipital peak alpha frequency (PAF, the frequency exhibiting maximum power) from birth to 18 years of age. From 889 potentially relevant studies, we identified 40 reporting PAF (109 samples; 3882 subjects). A nonlinear regression revealed that PAF increases quickly in early childhood (from 6.1 Hz at 6 months to 8.4 Hz at 5 years) and levels off in adolescence (9.7 Hz at 13 years), with an asymptote at 10.1 Hz. We found no effect of resting state procedure (eyes-open versus eyes-closed) or biological sex. PAF has been implicated as a clock on visual temporal processing, with faster frequencies associated with higher visual temporal resolution. Psychophysical studies have shown that temporal resolution reaches adult levels by 5 years of age (Freschl et al., 2019, 2020). The fact that PAF reaches the adult range of 8–12 Hz by that age strengthens the link between PAF and temporal resolution. •Determined the developmental trajectory of Peak Alpha Frequency (PAF).•PAF increases from 6 Hz in early infancy and asymptotes at 10 Hz by adolescence.•PAF increase is consistent with the age-related increase in visual temporal resolution.•No effect of resting state EEG methodology (eyes-closed vs. eyes-open) or sex on PAF. While it has been shown that alpha frequency increases over development (Stroganova et al., 1999), a precise trajectory has not yet been specified, making it challenging to constrain theories linking alpha rhythms to perceptual development. We conducted a comprehensive review of studies measuring resting-state occipital peak alpha frequency (PAF, the frequency exhibiting maximum power) from birth to 18 years of age. From 889 potentially relevant studies, we identified 40 reporting PAF (109 samples; 3882 subjects). A nonlinear regression revealed that PAF increases quickly in early childhood (from 6.1 Hz at 6 months to 8.4 Hz at 5 years) and levels off in adolescence (9.7 Hz at 13 years), with an asymptote at 10.1 Hz. We found no effect of resting state procedure (eyes-open versus eyes-closed) or biological sex. PAF has been implicated as a clock on visual temporal processing, with faster frequencies associated with higher visual temporal resolution. Psychophysical studies have shown that temporal resolution reaches adult levels by 5 years of age (Freschl et al., 2019, 2020). The fact that PAF reaches the adult range of 8-12 Hz by that age strengthens the link between PAF and temporal resolution.While it has been shown that alpha frequency increases over development (Stroganova et al., 1999), a precise trajectory has not yet been specified, making it challenging to constrain theories linking alpha rhythms to perceptual development. We conducted a comprehensive review of studies measuring resting-state occipital peak alpha frequency (PAF, the frequency exhibiting maximum power) from birth to 18 years of age. From 889 potentially relevant studies, we identified 40 reporting PAF (109 samples; 3882 subjects). A nonlinear regression revealed that PAF increases quickly in early childhood (from 6.1 Hz at 6 months to 8.4 Hz at 5 years) and levels off in adolescence (9.7 Hz at 13 years), with an asymptote at 10.1 Hz. We found no effect of resting state procedure (eyes-open versus eyes-closed) or biological sex. PAF has been implicated as a clock on visual temporal processing, with faster frequencies associated with higher visual temporal resolution. Psychophysical studies have shown that temporal resolution reaches adult levels by 5 years of age (Freschl et al., 2019, 2020). The fact that PAF reaches the adult range of 8-12 Hz by that age strengthens the link between PAF and temporal resolution.
ArticleNumber	101146
Author	Kaldy, Zsuzsa Azizi, Lina Al Blaser, Erik Balboa, Lilyann Freschl, Julie
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Keywords	Peak alpha frequency Development Alpha rhythm Visual temporal processing Children
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Snippet	While it has been shown that alpha frequency increases over development (Stroganova et al., 1999), a precise trajectory has not yet been specified, making it... While it has been shown that alpha frequency increases over development ( Stroganova et al., 1999 ), a precise trajectory has not yet been specified, making it...
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SubjectTerms	Adolescent Adult Alpha Rhythm Child, Preschool Children Development Electroencephalography Humans Infant Peak alpha frequency Review Sensation Time Perception Visual Perception Visual temporal processing
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Title	The development of peak alpha frequency from infancy to adolescence and its role in visual temporal processing: A meta-analysis
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