Modafinil Induces Wakefulness Without Intensifying Motor Activity or Subsequent Rebound Hypersomnolence in the Rat

Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its mechanism of action is unknown, modafinil appears to be unlike classic stimulants. We investigated this generality by testing the selectivity of...

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Published inThe Journal of pharmacology and experimental therapeutics Vol. 283; no. 2; pp. 757 - 769
Main Authors Edgar, Dale M., Seidel, Wesley F.
Format Journal Article
LanguageEnglish
Published United States American Society for Pharmacology and Experimental Therapeutics 01.11.1997
Subjects
Animals
Benzhydryl Compounds - pharmacology
Body Temperature - drug effects
Central Nervous System Stimulants - pharmacology
Electroencephalography - drug effects
Male
Methamphetamine - pharmacology
Motor Activity - drug effects
Rats
Rats, Wistar
Sleep, REM - drug effects
Wakefulness - drug effects
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Abstract Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its mechanism of action is unknown, modafinil appears to be unlike classic stimulants. We investigated this generality by testing the selectivity of this compound for wake-promoting effects ( e.g., relative to locomotor effects) and homeostatic sleep responses after drug-induced waking relative to the prototypical stimulant methamphetamine (METH). Continuous measures of electroencephalogram (EEG) sleep-wakefulness, locomotor activity (LMA) and body temperature (Tb) were obtained from adult male Wistar rats 3 days before and after treatment with modafinil (30, 100 and 300 mg/kg i.p.), 0.25% methylcellulose (vehicle) or METH (0.5 and 1.0 mg/kg i.p.). Individually housed rats in a 24-h light-dark cycle (LD 12:12) were treated 5 h after lights-on (CT-5). LMA and Tb were monitored via intraperitoneal telemetry. Sleep-wake stages and LMA were recorded every 10 s, Tb every minute. During the first 3 h post-treatment, modafinil and METH significantly and dose-dependently increased EEG wake time (P < .01 for 30 mg/kg modafinil, all other P < .0001) and wake episode duration. Although the cumulative increases in wakefulness were statistically equivalent, METH, but not modafinil, produced subsequent rebound hypersomnolence. At these equipotent wake-promoting doses, modafinil produced the same total amount of REM sleep inhibition but during a longer time than METH. Modafinil also increased LMA amount (counts/h, P < .001) and LMA intensity (counts/min awake, P < .001) less than METH. Both rebound hypersomnolence and increased LMA intensity, which are undesirable features in wake-promoting drugs, were not observed after modafinil treatment, and thus further differentiated modafinil from amphetamine-like stimulants.
AbstractList Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its mechanism of action is unknown, modafinil appears to be unlike classic stimulants. We investigated this generality by testing the selectivity of this compound for wake-promoting effects (e.g., relative to locomotor effects) and homeostatic sleep responses after drug-induced waking relative to the prototypical stimulant methamphetamine (METH). Continuous measures of electroencephalogram (EEG) sleep-wakefulness, locomotor activity (LMA) and body temperature (Tb) were obtained from adult male Wistar rats 3 days before and after treatment with modafinil, 0.25% methylcellulose (vehicle) or METH. Individually housed rats in a 24-h light-dark cycle (LD 12:12) were treated 5 h after lights-on (CT-5). LMA and Tb were monitored via intraperitoneal telemetry. Sleep-wake stages and LMA were recorded every 10 s, Tb every minute. During the first 3 h posttreatment, modafinil and METH significantly and dose-dependently increased EEG wake time and wake episode duration. Although the cumulative increases in wakefulness were statistically equivalent, METH, but not modafinil, produced subsequent rebound hypersomnolence. At these equipotent wake-promoting doses, modafinil produced the same total amount of REM sleep inhibition but during a longer time than METH. Modafinil also increased LMA amount and LMA intensity less than METH. Both rebound hypersomnolence and increased LMA intensity, which are undesirable features in wake-promoting drugs, were not observed after modafinil treatment, and thus further differentiated modafinil from amphetamine-like stimulants.
Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its mechanism of action is unknown, modafinil appears to be unlike classic stimulants. We investigated this generality by testing the selectivity of this compound for wake-promoting effects ( e.g., relative to locomotor effects) and homeostatic sleep responses after drug-induced waking relative to the prototypical stimulant methamphetamine (METH). Continuous measures of electroencephalogram (EEG) sleep-wakefulness, locomotor activity (LMA) and body temperature (Tb) were obtained from adult male Wistar rats 3 days before and after treatment with modafinil (30, 100 and 300 mg/kg i.p.), 0.25% methylcellulose (vehicle) or METH (0.5 and 1.0 mg/kg i.p.). Individually housed rats in a 24-h light-dark cycle (LD 12:12) were treated 5 h after lights-on (CT-5). LMA and Tb were monitored via intraperitoneal telemetry. Sleep-wake stages and LMA were recorded every 10 s, Tb every minute. During the first 3 h post-treatment, modafinil and METH significantly and dose-dependently increased EEG wake time (P < .01 for 30 mg/kg modafinil, all other P < .0001) and wake episode duration. Although the cumulative increases in wakefulness were statistically equivalent, METH, but not modafinil, produced subsequent rebound hypersomnolence. At these equipotent wake-promoting doses, modafinil produced the same total amount of REM sleep inhibition but during a longer time than METH. Modafinil also increased LMA amount (counts/h, P < .001) and LMA intensity (counts/min awake, P < .001) less than METH. Both rebound hypersomnolence and increased LMA intensity, which are undesirable features in wake-promoting drugs, were not observed after modafinil treatment, and thus further differentiated modafinil from amphetamine-like stimulants.
Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its mechanism of action is unknown, modafinil appears to be unlike classic stimulants. We investigated this generality by testing the selectivity of this compound for wake-promoting effects (e.g., relative to locomotor effects) and homeostatic sleep responses after drug-induced waking relative to the prototypical stimulant methamphetamine (METH). Continuous measures of electroencephalogram (EEG) sleep-wakefulness, locomotor activity (LMA) and body temperature (Tb) were obtained from adult male Wistar rats 3 days before and after treatment with modafinil (30, 100 and 300 mg/kg i.p.), 0.25% methylcellulose (vehicle) or METH (0.5 and 1.0 mg/kg i.p.). Individually housed rats in a 24-h light-dark cycle (LD 12:12) were treated 5 h after lights-on (CT-5). LMA and Tb were monitored via intraperitoneal telemetry. Sleep-wake stages and LMA were recorded every 10 s, Tb every minute. During the first 3 h post-treatment, modafinil and METH significantly and dose-dependently increased EEG wake time (P < .01 for 30 mg/kg modafinil, all other P < .0001) and wake episode duration. Although the cumulative increases in wakefulness were statistically equivalent, METH, but not modafinil, produced subsequent rebound hypersomnolence. At these equipotent wake-promoting doses, modafinil produced the same total amount of REM sleep inhibition but during a longer time than METH. Modafinil also increased LMA amount (counts/h, P < .001) and LMA intensity (counts/min awake, P < .001) less than METH. Both rebound hypersomnolence and increased LMA intensity, which are undesirable features in wake-promoting drugs, were not observed after modafinil treatment, and thus further differentiated modafinil from amphetamine-like stimulants.
Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its mechanism of action is unknown, modafinil appears to be unlike classic stimulants. We investigated this generality by testing the selectivity of this compound for wake-promoting effects (e.g., relative to locomotor effects) and homeostatic sleep responses after drug-induced waking relative to the prototypical stimulant methamphetamine (METH). Continuous measures of electroencephalogram (EEG) sleep-wakefulness, locomotor activity (LMA) and body temperature (Tb) were obtained from adult male Wistar rats 3 days before and after treatment with modafinil (30, 100 and 300 mg/kg i.p.), 0.25% methylcellulose (vehicle) or METH (0.5 and 1.0 mg/kg i.p.). Individually housed rats in a 24-h light-dark cycle (LD 12:12) were treated 5 h after lights-on (CT-5). LMA and Tb were monitored via intraperitoneal telemetry. Sleep-wake stages and LMA were recorded every 10 s, Tb every minute. During the first 3 h post-treatment, modafinil and METH significantly and dose-dependently increased EEG wake time (P < .01 for 30 mg/kg modafinil, all other P < .0001) and wake episode duration. Although the cumulative increases in wakefulness were statistically equivalent, METH, but not modafinil, produced subsequent rebound hypersomnolence. At these equipotent wake-promoting doses, modafinil produced the same total amount of REM sleep inhibition but during a longer time than METH. Modafinil also increased LMA amount (counts/h, P < .001) and LMA intensity (counts/min awake, P < .001) less than METH. Both rebound hypersomnolence and increased LMA intensity, which are undesirable features in wake-promoting drugs, were not observed after modafinil treatment, and thus further differentiated modafinil from amphetamine-like stimulants.Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its mechanism of action is unknown, modafinil appears to be unlike classic stimulants. We investigated this generality by testing the selectivity of this compound for wake-promoting effects (e.g., relative to locomotor effects) and homeostatic sleep responses after drug-induced waking relative to the prototypical stimulant methamphetamine (METH). Continuous measures of electroencephalogram (EEG) sleep-wakefulness, locomotor activity (LMA) and body temperature (Tb) were obtained from adult male Wistar rats 3 days before and after treatment with modafinil (30, 100 and 300 mg/kg i.p.), 0.25% methylcellulose (vehicle) or METH (0.5 and 1.0 mg/kg i.p.). Individually housed rats in a 24-h light-dark cycle (LD 12:12) were treated 5 h after lights-on (CT-5). LMA and Tb were monitored via intraperitoneal telemetry. Sleep-wake stages and LMA were recorded every 10 s, Tb every minute. During the first 3 h post-treatment, modafinil and METH significantly and dose-dependently increased EEG wake time (P < .01 for 30 mg/kg modafinil, all other P < .0001) and wake episode duration. Although the cumulative increases in wakefulness were statistically equivalent, METH, but not modafinil, produced subsequent rebound hypersomnolence. At these equipotent wake-promoting doses, modafinil produced the same total amount of REM sleep inhibition but during a longer time than METH. Modafinil also increased LMA amount (counts/h, P < .001) and LMA intensity (counts/min awake, P < .001) less than METH. Both rebound hypersomnolence and increased LMA intensity, which are undesirable features in wake-promoting drugs, were not observed after modafinil treatment, and thus further differentiated modafinil from amphetamine-like stimulants.
Author Wesley F. Seidel
Dale M. Edgar
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/9353396$$D View this record in MEDLINE/PubMed
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Snippet Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its...
Modafinil, a novel compound for treating excessive sleepiness, potently increases wakefulness in laboratory rodents, cats, monkeys and humans. Although its...
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SubjectTerms Animals
Benzhydryl Compounds - pharmacology
Body Temperature - drug effects
Central Nervous System Stimulants - pharmacology
Electroencephalography - drug effects
Male
Methamphetamine - pharmacology
Motor Activity - drug effects
Rats
Rats, Wistar
Sleep, REM - drug effects
Wakefulness - drug effects
Title Modafinil Induces Wakefulness Without Intensifying Motor Activity or Subsequent Rebound Hypersomnolence in the Rat
URI http://jpet.aspetjournals.org/content/283/2/757.abstract
https://www.ncbi.nlm.nih.gov/pubmed/9353396
https://www.proquest.com/docview/16209590
https://www.proquest.com/docview/79389930
Volume 283
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