Increasing Explicit Sequence Knowledge by Odor Cueing during Sleep in Men but not Women

Diekelmann, Susanne; Born, Jan; Rasch, Björn

doi:10.3389/fnbeh.2016.00074

Cited by 28 publications

(15 citation statements)

References 59 publications

(90 reference statements)

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“…Application of TMR during sleep, but not wake, has been shown to reactivate and strengthen connectivity among neural networks and regions associated with task performance to improve task-specific performance (Cousins, El-Deredy, Parkes, Hennies, & Lewis, 2016;Diekelmann, Büchel, Born, & Rasch, 2011). This method has been used by others to enhance declarative and motor sequence performance (Antony, Gobel, O'Hare, Reber, & Paller, 2012;Cousins, El-Deredy, Parkes, Hennies, & Lewis, 2014;Creery, Oudiette, Antony, & Paller, 2015;Diekelmann, Born, & Rasch, 2016;Laventure et al, 2016;Oudiette, Antony, Creery, & Paller, 2013;Rasch, Büchel, Gais, & Born, 2007;Schönauer, Geisler, & Gais, 2014), and more recently in our laboratory (Johnson, Scharf, & Westlake, 2018) to improve performance of a real-world sensorimotor skill with less cognitive reliance (i.e., non-dominant arm throwing).…”

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confidence: 99%

Use of targeted memory reactivation enhances skill performance during a nap and enhances declarative memory during wake in healthy young adults

Johnson

Scharf

Verceles

et al. 2019

Journal of Sleep Research

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Sleep is an important component of motor memory consolidation and learning, providing a critical tool to enhance training and rehabilitation. Following initial skill acquisition, memory consolidation is largely a result of non‐rapid eye movement sleep over either a full night or a nap. Targeted memory reactivation is one method used to enhance this critical process, which involves the pairing of an external cue with task performance at the time of initial motor skill acquisition, followed by replay of the same cue during sleep. Application of targeted memory reactivation during sleep leads to increased functional connectivity within task‐related brain networks and improved behavioural performance in healthy young adults. We have previously used targeted memory reactivation throughout the first two slow‐wave sleep cycles of a full night of sleep to enhance non‐dominant arm throwing accuracy in healthy young adults. Here, we aimed to determine whether application of targeted memory reactivation throughout a 1‐hr daytime nap was sufficient to enhance performance on the same non‐dominant arm throwing task in healthy young adults. Participants were allocated to either nap or no nap, and within those groups half received targeted memory reactivation throughout a 1‐hr between‐session period, leading to four groups. Only participants who slept between sessions while receiving targeted memory reactivation enhanced their throwing accuracy upon beginning the second session. Future studies will aim to use this technique as an adjunct to traditional physical rehabilitation with individuals with neurologic diagnoses such as stroke.

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mentioning

confidence: 99%

Use of targeted memory reactivation enhances skill performance during a nap and enhances declarative memory during wake in healthy young adults

Johnson

Scharf

Verceles

et al. 2019

Journal of Sleep Research

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“…Moreover, cueing during SWS was associated with increased activity in the bilateral caudate nuclei and hippocampi at post‐test, suggesting an effect of cueing on hippocampal activity . Another study employed a similar SRTT task with a 12‐element sequence, but this time an odor was presented every five key responses. Participants performed several trials, some of them with random sequences and some with fixed sequences.…”

Section: Tmr and Procedural Memoriesmentioning

confidence: 99%

Shaping memory consolidation via targeted memory reactivation during sleep

Cellini

Capuozzo

2018

Annals of the New York Academy of Sciences

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Recent studies have shown that the reactivation of specific memories during sleep can be modulated using external stimulation. Specifically, it has been reported that matching a sensory stimulus (e.g., odor or sound cue) with target information (e.g., pairs of words, pictures, and motor sequences) during wakefulness, and then presenting the cue alone during sleep, facilitates memory of the target information. Thus, presenting learned cues while asleep may reactivate related declarative, procedural, and emotional material, and facilitate the neurophysiological processes underpinning memory consolidation in humans. This paradigm, which has been named targeted memory reactivation, has been successfully used to improve visuospatial and verbal memories, strengthen motor skills, modify implicit social biases, and enhance fear extinction. However, these studies also show that results depend on the type of memory investigated, the task employed, the sensory cue used, and the specific sleep stage of stimulation. Here, we present a review of how memory consolidation may be shaped using noninvasive sensory stimulation during sleep.

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“…Behavior and brain function are sexually dimorphic across a range of cognitive domains including memory, emotion, visual perception and spatial navigation (Voyer et al 1995, Astur et al 1998, Lewin et al 2001, Canli et al 2002, Cahill 2006, McDevitt et al 2014, Diekelmann et al 2016, Voyer et al 2016. Generally, women outperform men in verbal memory tasks including word recall and recognition, name recognition, as well as memory for emotional stimuli, while men outperform women in visual-spatial tasks and with certain mathematical abilities (Voyer et al 1995, Lewin et al 2001, Voyer et al 2016.…”

Section: Introductionmentioning

confidence: 99%

Impact of sex steroids and reproductive stage on sleep-dependent memory consolidation in women

Baker

Sattari

Zambotti

et al. 2019

Neurobiology of Learning and Memory

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Age and sex are two of the three major risk factors for Alzheimer's disease (ApoE-e4 allele is the third), with women having a twofold greater risk for Alzheimer's disease after the age of 75 years. Sex differences have been shown across a wide range of cognitive skills in young and older adults, and evidence supports a role for sex steroids, especially estradiol, in protecting against the development of cognitive decline in women. Sleep may also be a protective factor against age-related cognitive decline, since specific electrophysiological sleep events (e.g. sleep spindle/slow oscillation coupling) are critical for offline memory consolidation. Furthermore, studies in young women have shown fluctuations in sleep events and sleep-dependent memory consolidation during different phases of the menstrual cycle that are associated with the levels of sex steroids. An under-appreciated possibility is that there may be an important interaction between these two protective factors (sex steroids and sleep) that may play a role in daily fluctuations in cognitive processing, in particular memory, across a woman's lifespan. Here, we summarize the current knowledge of sex steroid-dependent influences on sleep and cognition across the lifespan in women, with special emphasis on sleep-dependent memory processing. We further indicate gaps in knowledge that require further experimental examination in order to fully appreciate the complex and changing landscape of sex steroids and cognition. Lastly, we propose a series of testable predictions for how sex steroids impact sleep events and sleep-dependent cognition across the three major reproductive stages in women (reproductive years, menopause transition, and post-menopause).

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Increasing Explicit Sequence Knowledge by Odor Cueing during Sleep in Men but not Women

Cited by 28 publications

References 59 publications

Use of targeted memory reactivation enhances skill performance during a nap and enhances declarative memory during wake in healthy young adults

Use of targeted memory reactivation enhances skill performance during a nap and enhances declarative memory during wake in healthy young adults

Shaping memory consolidation via targeted memory reactivation during sleep

Impact of sex steroids and reproductive stage on sleep-dependent memory consolidation in women

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