scholarly journals Enhanced Slow Wave Sleep in Patients with Prolactinoma

1998 ◽  
Vol 83 (8) ◽  
pp. 2706-2710 ◽  
Author(s):  
Ralf-Michael Frieboes ◽  
Harald Murck ◽  
Günter Karl Stalla ◽  
Irina A. Antonijevic ◽  
Axel Steiger
Keyword(s):  
Slow Wave ◽  
Rem Sleep ◽  
Slow Wave Sleep ◽  
Hormone Secretion ◽  
Sleep Regulation ◽  
Endocrine Diseases ◽  
Term Administration ◽  
Secondary Hypogonadism ◽  
Bidirectional Interactions

abstract Bidirectional interactions between nocturnal hormone secretion and sleep regulation are well established. In particular, a link between PRL and rapid eye movement (REM) sleep has been hypothesized. Short-term administration of PRL and even long-term hyperprolactinemia in animals increases REM sleep. Furthermore, sleep disorders are frequent symptoms in patients with endocrine diseases. We compared the sleep electroencephalogram of seven drug-free patients with prolactinoma (mean PRL levels 1450 ± 1810 ng/mL; range between 146 and 5106 ng/mL) with that of matched controls. The patients had secondary hypogonadism but no other endocrine abnormalities. They spent more time in slow wave sleep than the controls (79.4 ± 54.4 min in patients vs. 36.6 ± 23.5 min in controls, P < 0.05). REM sleep variables did not differ between the samples. Our data suggest that chronic excessive enhancement of PRL levels exerts influences on the sleep electroencephalogram in humans. Our result, which seems to be in contrast to the enhanced REM sleep under hyperprolactinemia in rats, leads to the hypothesis that both slow wave sleep and REM sleep can be stimulated by PRL. These findings are in accordance with reports of good sleep quality in patients with prolactinoma, which is in contrast to that of patients with other endocrine diseases.

Development of REM and slow wave sleep in the rat

1997 ◽  
Vol 272 (6) ◽  
pp. R1792-R1799 ◽  
Author(s):  
M. G. Frank ◽  
H. C. Heller
Keyword(s):  
Slow Wave ◽  
Rem Sleep ◽  
Maternal Separation ◽  
Slow Wave Sleep ◽  
Transient State ◽  
Quiet Sleep ◽  
Immature Form ◽  
The Relationship ◽  
Developing Rat

Active sleep (AS) in the neonate has been considered to be an immature form of rapid eye movement (REM) sleep. Quiet sleep (QS) has been thought to represent an immature form of slow wave sleep (SWS). To determine the relationship between the behaviorally determined states of AS and QS and electrographically determined REM sleep and SWS, we examined sleep ontogeny in the developing rat using an experimental routine that permitted long-term recordings and minimized the effects of maternal separation. Under these conditions, a transient state that included electroencephalographic slow wave activity and phasic motor activity was eventually replaced with the mature SWS pattern. Our work suggests that neonatal QS is not an immature form of SWS and that AS is best considered as an undifferentiated behavioral state from which both SWS and REM sleep develop.

Neostriatal administration of somatostatin: differential effect of small and large doses on behavior and motor control

1977 ◽  
Vol 55 (2) ◽  
pp. 234-242 ◽  
Author(s):  
M. Rezek ◽  
V. Havlicek ◽  
L. Leybin ◽  
C. Pinsky ◽  
E. A. Kroeger ◽  
...  
Keyword(s):  
Motor Control ◽  
Eye Movements ◽  
Slow Wave ◽  
Rem Sleep ◽  
Differential Effect ◽  
Slow Wave Sleep ◽  
Small Doses ◽  
Freely Moving ◽  
Behavioral Excitation ◽  
Higher Doses

The administration of small doses of somatostatin (SRIF) (0.01 and 0.1 μg) into the neostriatal complex of unrestrained, freely moving rats induced general behavioral excitation associated with a variety of stereotyped movements, tremors, and a reduction of rapid eye movements (REM) and deep slow wave sleep (SWS). In contrast, the higher doses of SRIF (1.0 and 10.0 μg) caused movements to be uncoordinated and frequently induced more severe difficulties in motor control such as contralateral hemiplegia-in-extension which restricted or completely prevented the expression of normal behavioral patterns. As a result, the animals appeared drowsy and inhibited. Analysis of the sleep-waking cycle revealed prolonged periods of a shallow SWS while REM sleep and deep SWS were markedly reduced; electroencephalogram recordings revealed periods of dissociation from behavior. The administration of endocrinologically inactive as well as the active analogues of SRIF failed to induce effects comparable with those observed after the administration of the same dose of the native hormone (10.0 μg).

scholarly journals Insights into paradoxical (REM) sleep homeostatic regulation in mice using an innovative automated sleep deprivation method

SLEEP ◽  
2020 ◽  
Vol 43 (7) ◽  
Author(s):  
Sébastien Arthaud ◽  
Paul-Antoine Libourel ◽  
Pierre-Hervé Luppi ◽  
Christelle Peyron
Keyword(s):  
Slow Wave ◽  
Rem Sleep ◽  
High Efficiency ◽  
Environmental Changes ◽  
Slow Wave Sleep ◽  
Paradoxical Sleep ◽  
Corticosterone Level ◽  
Plasma Corticosterone ◽  
Homeostatic Regulation ◽  
External Modulation

Abstract Identifying the precise neuronal networks activated during paradoxical sleep (PS, also called REM sleep) has been a challenge since its discovery. Similarly, our understanding of the homeostatic mechanisms regulating PS, whether through external modulation by circadian and ultradian drives or via intrinsic homeostatic regulation, is still limited, largely due to interfering factors rendering the investigation difficult. Indeed, none of the studies published so far were able to manipulate PS without significantly altering slow-wave sleep and/or stress level, thus introducing a potential bias in the analyses. With the aim of achieving a better understanding of PS homeostasis, we developed a new method based on automated scoring of vigilance states—using electroencephalogram and electromyogram features—and which involves closed-loop PS deprivation through the induction of cage floor movements when PS is detected. Vigilance states were analyzed during 6 and 48 h of PS deprivation as well as their following recovery periods. Using this new automated methodology, we were able to deprive mice of PS with high efficiency and specificity, for short or longer periods of time, observing no sign of stress (as evaluated by plasma corticosterone level and sleep latency) and requiring no human intervention or environmental changes. We show here that PS can be homeostatically modulated and regulated while no significant changes are induced on slow-wave sleep and wakefulness, with a PS rebound duration depending on the amount of prior PS deficit. We also show that PS interval duration is not correlated with prior PS episode duration in the context of recovery from PS deprivation.

Each distinct type of mental state is supported by specific brain functions

2000 ◽  
Vol 23 (6) ◽  
pp. 941-943 ◽  
Author(s):  
Claude Gottesmann
Keyword(s):  
Slow Wave ◽  
Mental State ◽  
Rem Sleep ◽  
Psychological Functioning ◽  
Slow Wave Sleep ◽  
Mental Content ◽  
Distinct Type ◽  
Inhibitory Processes ◽  
Brain Functions

Reflective waking mentation is supported by cortical activating and inhibitory processes. The thought-like mental content of slow wave sleep appears with lower levels of both kinds of influence. During REM sleep, the equation: activation + disinhibition + dopamine may explain the often psychotic-like mode of psychological functioning.[Hobson et al.; Nielsen; Revonsuo; Solms; Vertes & Eastman]

scholarly journals Slow Wave Sleep and REM Sleep Awakenings Do Not Affect Sleep Dependent Memory Consolidation

SLEEP ◽  
2009 ◽  
Vol 32 (3) ◽  
pp. 302-310 ◽  
Author(s):  
Lisa Genzel ◽  
Martin Dresler ◽  
Renate Wehrle ◽  
Michael Grözinger ◽  
Axel Steiger
Keyword(s):  
Slow Wave ◽  
Rem Sleep ◽  
Memory Consolidation ◽  
Slow Wave Sleep

Composition and replay of mnemonic sequences: The contributions of REM and slow-wave sleep to episodic memory

2013 ◽  
Vol 36 (6) ◽  
pp. 610-611 ◽  
Author(s):  
Sen Cheng ◽  
Markus Werning
Keyword(s):  
Episodic Memory ◽  
Eye Movement ◽  
Slow Wave ◽  
Rem Sleep ◽  
Neural Activity ◽  
Slow Wave Sleep ◽  
Place Cells ◽  
Object Representations ◽  
Episodic Memories ◽  
Gamma Band Oscillations

AbstractWe propose that rapid eye movement (REM) and slow-wave sleep contribute differently to the formation of episodic memories. REM sleep is important for building up invariant object representations that eventually recur to gamma-band oscillations in the neocortex. In contrast, slow-wave sleep is more directly involved in the consolidation of episodic memories through replay of sequential neural activity in hippocampal place cells.

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