Elsevier

Sleep Medicine Reviews

Volume 7, Issue 5, October 2003, Pages 423-440
Sleep Medicine Reviews

Clinical Review
Sleep spindles: an overview

https://doi.org/10.1053/smrv.2002.0252Get rights and content

Abstract

Sleep spindles are a distinctive EEG phasic feature of NREM sleep and are prevalent during stage 2 as compared to slow wave sleep. While the neurophysiological mechanisms of spindle generation, that involves thalamic and corticothalamic networks, have been recently delineated and are briefly reviewed, their definitive functional meaning still remains to be elucidated. This review summarizes the present knowledge on visually scored and automatically detected spindles, as well as the literature on EEG power in the sigma band. Among the factors known to affect sleep spindles and sigma activity, their intra-cycle temporal dynamics, their time-course across sleep cycles, the reciprocal relationship with delta activity, the effects of sleep deprivation, of circadian factors and of ageing, and their role in information processing have been discussed. Moreover, specific attention has been paid to the existence of functionally and topographically distinct slow- and fast-spindles, also taking into account the presence of large inter-individual differences. Nevertheless, several fundamental issues remain to be elucidated: the physiological mechanisms controlling age-related changes in spindle parameters; the role of melatonin as a spindle-promoting agent; the relationships between plastic mechanisms (after stroke, or as a consequence of learning) and modifications in spindle activity; the possibility of using some spindle parameters as an index of the severity of developmental disorders in abnormal maturational processes.

References (131)

  • S Uchida et al.

    Dynamic relationships between sleep spindles and delta waves during a NREM period

    Brain Res Bull

    (1994)
  • E Werth et al.

    Spindle frequency activity in the sleep EEG: individual differences and topographic distribution

    Electroencephalogr Clin Neurophysiol

    (1997)
  • M Steriade

    Corticothalamic resonance, states of vigilance and mentation

    Neuroscience

    (2000)
  • XJ Wang et al.

    Spindle rhythmicity in the thalamic reticular nucleus: synchronization among mutually inhibitory neurons

    Neuroscience

    (1993)
  • A Destexhe et al.

    Cortically-induced coherence of a thalamic-generated oscillation

    Neuroscience

    (1999)
  • S Kohsaka et al.

    Dual control of the brainstem on the spindle oscillation in humans

    Brain Res

    (2000)
  • S Uchida et al.

    Sigma (12–15 Hz) and Delta (0.3–3 Hz) EEG oscillate reciprocally within NREM sleep

    Brain Res Bull

    (1991)
  • H Merica et al.

    Relationship between the time courses of power in the frequency bands of human sleep EEG

    Neurophysiol Clin

    (1997)
  • H Merica et al.

    A neuronal transition probability model for the evolution of power in the sigma and delta frequency bands of sleep EEG

    Physiol Behav

    (1997)
  • AA Borbely et al.

    Sleep deprivation: effect on sleep stages and EEG power density in man

    Electroenceph Clin Neurophysiol

    (1981)
  • DJ Dijk et al.

    EEG power density during recovery sleep in the morning

    Electroencephalogr Clin Neurophysiol

    (1991)
  • M Lancel et al.

    The time course of sigma activity and slow-wave activity during NREMS in cortical and thalamic EEG of the cat during baseline and after 12 hours of wakefulness

    Brain Res

    (1992)
  • LA Finelli et al.

    Individual “fingerprints” in human sleep EEG topography

    Neuropsychopharmacology

    (2001)
  • MW Church et al.

    Evoked K-complexes and cardiovascular responses to spindle-synchronous and spindle-asynchronous stimulus clicks during NREM sleep

    Electroencephalogr Clin Neurophysiol

    (1978)
  • L De Gennaro et al.

    The spontaneous K-complex during stage 2 sleep: is it the “forerunner” of delta waves?

    Neurosci Lett

    (2000)
  • O Winter et al.

    Auditory event-related potentials (AEPs) to deviant stimuli during drowsiness and sleep

    Electroencephalogr Clin Neurophysiol

    (1995)
  • D Samson Dollfus et al.

    Normal children sleep E.E.Gs from 5 months to 3 years old

    Rev Electroencephalogr Neurophysiol Clin

    (1977)
  • L Curzi Dascalova

    Waking and sleeping E.E.G. in normal babies before 6 months of age

    Rev Electroencephalogr Neurophysiol Clin

    (1977)
  • RJ Ellingson et al.

    Development of EEG and daytime sleep patterns in normal full-term infant during the first 3 months of life: longitudinal observations

    Electroencephalogr Clin Neurophysiol

    (1980)
  • Y Navelet et al.

    Nocturnal sleep organization during the first months of life

    Electroencephalogr Clin Neurophysiol

    (1982)
  • PE Tanguay et al.

    Evolution of sleep spindles in childhood

    Electroencephalogr Clin Neurophysiol

    (1975)
  • J Louis et al.

    Ontogenesis of nocturnal organization of sleep spindles: a longitudinal study during the first 6 months of life

    Electroencephalogr Clin Neurophysiol

    (1992)
  • M Shibagaki et al.

    Nocturnal sleep in severely mentally retarded children: abnormal EEG patterns in sleep cycle

    Electroencephalogr Clin Neurophysiol

    (1980)
  • I Feinberg et al.

    EEG patterns as a function of normal and pathologic aging in man

    J Psychiatr Res

    (1967)
  • A Nicolas et al.

    Sleep spindle characteristics in healthy subjects of different age groups

    Clin Neurophysiol

    (2001)
  • DJ Dijk et al.

    All night spectral analysis of EEG sleep in young adult and middle-aged male subjects

    Neurobiol Aging

    (1989)
  • HP Landolt et al.

    Effect of age on the sleep EEG: slow-wave activity and spindle frequency activity in young and middle-aged men

    Brain Res

    (1996)
  • H Berger

    Über das Elektroencephalogram des Menschen. Sechste Mitteilung

    Arch Psychiatr Nervenkr

    (1933)
  • AL Loomis et al.

    Potential rhythms of the cerebral cortex during sleep

    Science

    (1935)
  • M Steriade et al.

    Intracellular analysis of relations between the slow (<1 Hz) neocortical oscillation and other sleep rhythms of the electroencephalogram

    J Neurosci

    (l993)
  • A Rechtschaffen et al.

    A Manual of Standardized Terminology, Techniques and Scoring System for Sleep Stages of Human Subjects

    (1968)
  • J Zeitlhofer et al.

    Topographic distribution of sleep spindles in young healthy subjects

    J Sleep Res

    (1997)
  • K Azumi et al.

    Characteristics of spindle activity and their use in evaluation of hypnotics

    Sleep

    (1982)
  • JM Gaillard et al.

    Spindle density in sleep of normal subjects

    Sleep

    (1981)
  • SL Himanen et al.

    Spindle frequencies in sleep EEG show U-shape within first four NREM sleep episodes

    J Sleep Res

    (2002)
  • D Aeschbach et al.

    All-night dynamics of the human sleep EEG

    J Sleep Res

    (1993)
  • WR Jankel et al.

    Sleep spindles

    J Clin Neurophysiol

    (1985)
  • L De Gennaro et al.

    Topographical distribution of spindles: variations between and within NREM sleep cycles

    Sleep Res Online

    (2000)
  • AA Borbely et al.

    Sleep deprivation: effect on sleep stages and EEG power density in man

    Electroencephalogr Clin Neurophysiol

    (1981)
  • M Jobert et al.

    Topographical analysis of sleep spindle activity

    Neuropsychobiology

    (1992)

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    Correspondence should be addressed to: Luigi De Gennaro, PhD, Dipartimento di Psicologia, Sezione di Neuroscienze, Università degli Studi di Roma “La Sapienza”, Via dei Marsi, 78; 00185 Roma, Italia. Tel: +39-06-4991.7647; Fax: +39-06-44.51.667; E-mail:[email protected]

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