Long-term memory formation for voices during sleep in three-month-old infants

[Display omitted] •Long-term memories are already formed at the age of three months.•Recall of these memories activate a frontal cortex mismatch response (MMR).•The formation of these memories is associated with sleep spindle activity. The ability to form long-term memories begins in early infancy....

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Veröffentlicht in:	Neurobiology of learning and memory 2024-11, Vol.215, p.107987, Article 107987
Hauptverfasser:	Bastian, Lisa, Kurz, Eva-Maria, Näher, Tim, Zinke, Katharina, Friedrich, Manuela, Born, Jan
Format:	Artikel
Sprache:	eng
Schlagworte:	Auditory Perception - physiology Brain - physiology Child Development - physiology Early infancy Electroencephalography Event related potential (ERP) Female Humans Infant Long-term memory Male Memory, Long-Term - physiology Mismatch response (MMR) Sleep Sleep - physiology Voice - physiology
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container_title	Neurobiology of learning and memory
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creator	Bastian, Lisa Kurz, Eva-Maria Näher, Tim Zinke, Katharina Friedrich, Manuela Born, Jan
description	[Display omitted] •Long-term memories are already formed at the age of three months.•Recall of these memories activate a frontal cortex mismatch response (MMR).•The formation of these memories is associated with sleep spindle activity. The ability to form long-term memories begins in early infancy. However, little is known about the specific mechanisms that guide memory formation during this developmental stage. We demonstrate the emergence of a long-term memory for a novel voice in three-month-old infants using the EEG mismatch response (MMR) to the word “baby”. In an oddball-paradigm, a frequent standard, and two rare deviant voices (novel and mother) were presented before (baseline), and after (test) familiarizing the infants with the novel voice and a subsequent nap. Only the mother deviant but not the novel deviant elicited a late frontal MMR (∼850 ms) at baseline, possibly reflecting a long-term memory representation for the mother’s voice. Yet, MMRs to the novel and mother deviant significantly increased in similarity after voice familiarization and sleep. Moreover, both MMRs showed an additional early (∼250 ms) frontal negative component that is potentially related to deviance processing in short-term memory. Enhanced spindle activity during the nap predicted an increase in late MMR amplitude to the novel deviant and increased MMR similarity between novel and mother deviant. Our findings indicate that the late positive MMR in infants might reflect emergent long-term memory that benefits from sleep spindles.
doi_str_mv	10.1016/j.nlm.2024.107987
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The ability to form long-term memories begins in early infancy. However, little is known about the specific mechanisms that guide memory formation during this developmental stage. We demonstrate the emergence of a long-term memory for a novel voice in three-month-old infants using the EEG mismatch response (MMR) to the word “baby”. In an oddball-paradigm, a frequent standard, and two rare deviant voices (novel and mother) were presented before (baseline), and after (test) familiarizing the infants with the novel voice and a subsequent nap. Only the mother deviant but not the novel deviant elicited a late frontal MMR (∼850 ms) at baseline, possibly reflecting a long-term memory representation for the mother’s voice. Yet, MMRs to the novel and mother deviant significantly increased in similarity after voice familiarization and sleep. 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The ability to form long-term memories begins in early infancy. However, little is known about the specific mechanisms that guide memory formation during this developmental stage. We demonstrate the emergence of a long-term memory for a novel voice in three-month-old infants using the EEG mismatch response (MMR) to the word “baby”. In an oddball-paradigm, a frequent standard, and two rare deviant voices (novel and mother) were presented before (baseline), and after (test) familiarizing the infants with the novel voice and a subsequent nap. Only the mother deviant but not the novel deviant elicited a late frontal MMR (∼850 ms) at baseline, possibly reflecting a long-term memory representation for the mother’s voice. Yet, MMRs to the novel and mother deviant significantly increased in similarity after voice familiarization and sleep. 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subjects	Auditory Perception - physiology Brain - physiology Child Development - physiology Early infancy Electroencephalography Event related potential (ERP) Female Humans Infant Long-term memory Male Memory, Long-Term - physiology Mismatch response (MMR) Sleep Sleep - physiology Voice - physiology
title	Long-term memory formation for voices during sleep in three-month-old infants
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