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Long-term antidepressant treatment: Alterations in cerebral capillary permeability (1980)

Preskorn, Sheldon H. ; Hartman, Boyd K. ; Clark, H. Brent

Springer

Psychopharmacology 70 (1980), S. 1-4

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ISSN: 1432-2072

Keywords: Extraction fraction ; Cerebral capillary ; Antidepressant ; Chronic treatment ; Permeability ; Blood-Brain barrier ; Amitriptyline ; Plasma drug concentration

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Chronic treatment of rats with amitriptyline (AMI) induced a persistent increase in the diffusibility of water into the brain (E W). This effect was observable 12 h after the last dose. AMI induces this alteration at plasma drug concentrations of 71±13 ng/ml (the therapeutic range for man is 100–250 ng/ml). Furthermore, chronic treatment potentiated the increase observed after acute drug administration and resulted in a 350% enhancement in the permeability of water across the cerebral capillary. Thus, long-term antidepressant administration can chronically influence cerebral function by affecting capillary permeability.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00432362

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Secobarbital and nocturnal physiological patterns (1968)

Lester, Boyd K. ; Coulter, Joe D. ; Cowden, Lawrence C. ; [et al.]

Springer

Psychopharmacology 13 (1968), S. 275-286

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ISSN: 1432-2072

Keywords: Barbiturates ; Sleep ; Dreams ; Electroencephalography

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Sleep patterns of 14 male Ss were examined following a single oral dose (200 mg) of the barbiturate secobarbital. Compared to baseline, medication caused definite changes in the amount and distribution of the EEG stages of sleep. With the drug, a decrease in percent stage REM and an increase in percent stage 2 were accompanied by fewer body movements and a trend toward less waking. A more striking effect was the drug-induced redistribution of EEG stages with slow-wave sleep potentiated during the first half of the night but virtually eliminated during the last half. Stage REM, on the other hand, was inhibited in the first half but returned to baseline levels in the last half of the night. Recent evidence suggests that such effects could result from modulation of brain levels of the monoamines. Within the stages of sleep the amount of fast EEG activity was increased by the drug, with a tendency toward desynchrony. Pre-central beta activity became especially prominent in stages REM and 2 (low-voltage phases), and this change was associated with inhibition of such phasic events as eye movements during REM sleep, sigma spindles during stage 2 and spontaneous electrodermal responses in slow-wave sleep. Thus, it appears that secobarbital potentiates tonic and suppresses phasic phenomena during sleep. A possible interpretation of these results is that secobarbital enhances electrical activity in forebrain structures (Routtenberg's arousal system II) while inhibiting the reticular activating system (arousal system I) causing a reduction of phasic variability in all stages of sleep.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00414339

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Alcohol and sleep in young adults (1972)

Rundell, Orvis H. ; Lester, Boyd K. ; Griffiths, William J. ; [et al.]

Springer

Psychopharmacology 26 (1972), S. 201-218

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ISSN: 1432-2072

Keywords: Alcohol ; Sleep ; Electroencephalography ; REM Sleep

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In two separate experiments, sleep patterns of 17 young male adults were examined following single and repeated doses (0.9 g/kg body weight) of alcohol. A third study of 10 additional Ss measured the rate of elimination of alcohol from blood during sleep and waking. With a single dose of alcohol, onset of sleep was brisk, the latency of SW sleep (stages 3+4) was reduced and the first episode of stage REM was shortened. These transient alterations were accompanied by loss of high-frequency beta rhythms in the EEG and a gain in abundance and synchrony of activity in the alpha-rhythm range. Experiment 3 found no significant difference between sleep and waking for rate of elimination of alcohol from blood. Starting with peak blood alcohol concentrations (BACs) of about 75 mg percent, average BACs after 4 h of bedtime had decreased to about 30 mg percent. The effects noted above, associated with higher BACs, were confined to the first half of the night. Thus, these results are consistent with conclusions of previous investigators that the depressant effects on EEG sleep patterns of a moderate dose of alcohol are due to its direct action on the brain. There are, however, longer range compensation and adaptation effects associated with single and repeated doses of alcohol which cannot be directly related to its presence in the brain. For example, in the single-dose study reported here, and in most previous studies, rebound of stage REM occurred during the second half of the alcohol night. Further, in the repeated-dose study, most of the effects of alcohol on sleep stages and EEG frequencies observed during the first dose session, disappeared on the second and third alcohol sessions. Finally, heart and respiration rates increased whereas eye movements during stage REM, sigma spindles in stage 2 and non-specific GSR responses in SW sleep tended to be suppressed throughout the night in each alcohol session. Several mechanisms are discussed which might account for these more persistent alterations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00422697

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Reserpine and sleep (1971)

Coulter, Joe D. ; Lester, Boyd K. ; Williams, Harold L.

Springer

Psychopharmacology 19 (1971), S. 134-147

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ISSN: 1432-2072

Keywords: Electroencephalography ; Psychopharmacology ; Reserpine ; Serotonin ; Sleep

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Recent studies of the effects of reserpine on human sleep have reported increased rapid eye movement (REM) sleep, and decreased slow-wave (SW) sleep. These results are relevant to theories linking serotonin and the catecholamines to the control of different stages of sleep. However, since reserpine causes release and subsequent depletion of both monoamines, it is difficult to relate changes in sleep profiles to specific alterations in one or the other amine system. The results to be reported here, when compared to those obtained with other treatments which affect the biogenic amines, encourage the view that level and turnover of serotonin are the primary mediators for reserpine-induced modifications of sleep. In two separate experiments, EEG sleep patterns from 20 male Ss were examined following single and repeated oral doses (1 mg) of reserpine. In the single-dose study, reserpine caused increased REM, and decreased SW sleep, effects which became statistically significant on the post-medication (P-M) recovery session. These changes were accompanied by reduced frequency per minute of sigma spindles (stage 2) decreased eye-movement density (stage REM) and a tendency toward increased brief arousals, especially during stage REM. Examination of parameters of the REM cycle revealed that the potentiation of REM sleep was due to its reduced latency of onset, and more frequent cyclic occurrence, not to increased duration of REM episodes. The results of the repeated-dose study replicated and amplified those of the first experiment, showing that medication caused a progressive increase in the amount of stage REM, accompanied by a simultaneous loss of SW sleep. The increase in REM was again due to acceleration of its cycle rather than lengthening of its episodes. During medication, epochs of stage REM were increasingly interrupted by brief arousals, with a simulteneous decline in the density of rapid eye movements. Most of these reserpine effects persisted into the P-M recovery session. The acceleration of the REM cycle, loss of SW sleep, decrease in sigma spindles and increase in brief arousals indicate that the acute effects of reserpine on human sleep are in the direction of activation, and the persistence of most of these alterations into the P-M session implies that they are due to depletion of one or both monoamines. However, comparison of reserpine effects on sleep with those induced by precursors and blockers of serotonin, and by monoamine oxidase inhibitors suggests that the loss of SW sleep may have resulted from depletion of serotonin, whereas acceleration of the REM cycle may have been caused by a compensatory increase in its rate of synthesis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00402637

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Alpha chloralose and nocturnal physiological patterns (1969)

Williams, Harold L. ; Lester, Boyd K. ; Coulter, Joe D.

Springer

Psychopharmacology 15 (1969), S. 28-38

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ISSN: 1432-2072

Keywords: Drugs ; Sleep ; Electroencephalography ; Psychophysiology ; Psychopharmacology

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Sleep physiological patterns were examined following a single oral dose (500 mg) of the hypnotic drug alpha chloralose. The drug increased SW sleep and decreased REM sleep without affecting total sleep time or the amount of stage 2. These changes were accompanied by a shift to slower frequencies and greater EEG synchrony, as well as a decrease in the number of spontaneous arousals in all stages of sleep, and throughout the night of medication. Except for a slight decrease in eye movement density, the drug had no systematic effects on phasic phenomena such as electrodermal or cardio-respiratory fluctuations, nor was there a systematic change in basal heart and breathing rates. On the night following medication a “rebound” increase in percent stage REM was associated with a sharp decrease in SW sleep, and increases in spontaneous arousals and waking time. Such findings suggest that sleep stages are controlled by homeostatic mechanisms whose function is to maintain equilibrium. A comparison of the effects of alpha chloralose with those of the barbiturate secobarbital revealed some striking differences. Although both alpha chloralose and the barbiturate reduced the amount of stage REM and the frequency of brief arousals, the latter compound enhanced EEG fast activity and desynchrony, and suppressed such phasic phenomena as rapid eye movements during stage REM, sigma spindles in stage 2, nonspecific electrodermal responses during SW sleep and cardio-respiratory variability in all sleep stages. For secobarbital, the decrease in percent stage REM was compensated by an increase in stage 2 rather than SW sleep. Several studies in the cat suggest that in subanesthetic doses, alpha chloralose acts primarily on cortical inhibitory processes, causing release of the reticular activating system from inhibitory influences. The results of this study show that moderate doses in man probably act on both cortical and subcortical systems involved in the mediation of SW sleep, REM sleep and arousal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00410798

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Chlorpromazine and human sleep (1971)

Lester, Boyd K. ; Coulter, Joe D. ; Cowden, Lawrence C. ; [et al.]

Springer

Psychopharmacology 20 (1971), S. 280-287

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ISSN: 1432-2072

Keywords: Sleep ; Chlorpromazine ; Electroencephalography ; Psychopharmacology ; Tranquilizers

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The aim of this study was to examine human physiological sleep profiles, including the amount and distribution of electroenoephalographic (EEG) stages of sleep, variations in specific frequency bands in the EEG spectrum and certain phasic phenomena such as movement arousals, sigma spindles and rapid eye movements, following oral administration of a moderate dose (150 mg) of chlorpromazine (CPZ) to 12 young male volunteers. At this dose level the drug had few systematic effects on sleep, although it did reduce the latency of onset of stage REM and the number of movement arousals, while increasing the amount of slow-wave (SW) sleep. These effects persisted during the post-medication recovery night, but at no time was there any systematic change in the total amount or percent of REM sleep, the duration of the REM-to-REM cycle, the average length of REM episodes or the density of rapid eye movements during stage REM. Frequency analysis of EEG revealed that CPZ produced a trend toward increased fast (beta) activity recorded from pre-central placements during stage REM, and reduced density of sigma spindles in stage 2 sleep. Thus, for the most part, a single moderate dose of CPZ left the tonic, phasic and sequential properties of the sleep cycle unaltered. These results confirm previous investigations showing that for small to moderate clinical doses, CPZ invariably enhances SW sleep and reduces the frequency of movement arousals. On the other hand, the effect of the drug on stage REM apparently depends on dose. Small doses potentiate REM sleep or accelerate its onset, whereas larger doses either reduce stage REM or leave it unaffected. Several authors have pointed out that most hypnotic agents cause substantial alterations of the sleep profile, and that their withdrawal can cause profound disruption of sleep and marked clinical disturbance. It also has been suggested that there exists a relation between drug dependency and the degree of initial REM suppression caused by a drug. The finding confirmed by the present study that clinical doses of CPZ cause mild sedation, and enhanced SW sleep without any significant modification of REM, sleep, indicates that CPZ has features which may recommend it as a standard hypnotic.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00402103

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