VARYING PHOTOPERIOD IN THE LABORATORY RAT - PROFOUND EFFECT ON 24-H SLEEP PATTERN BUT NO EFFECT ON SLEEP HOMEOSTASIS

被引：39

作者：

FRANKEN, P ^{[1
]}

TOBLER, I ^{[1
]}

BORBELY, AA ^{[1
]}

机构：

[1] UNIV ZURICH, INST PHARMACOL, CH-8057 ZURICH, SWITZERLAND

来源：

AMERICAN JOURNAL OF PHYSIOLOGY-REGULATORY INTEGRATIVE AND COMPARATIVE PHYSIOLOGY | 1995年 / 269卷 / 03期

关键词：

SLEEP REGULATION; SLEEP DEPRIVATION; ELECTROENCEPHALOGRAM SLOW-WAVE ACTIVITY; CORTICAL TEMPERATURE; PROCESS S; COMPUTER SIMULATION;

D O I：

10.1152/ajpregu.1995.269.3.R691

中图分类号：

Q4 [生理学];

学科分类号：

071003 ;

摘要：

To assess the influence of the photoperiod on sleep regulation, laboratory rats were adapted to a long photoperiod (LPP; 16:8-h light-dark cycle, LD 16:8) or a short photoperiod (SPP; LD 8:16). The electroencephalogram (EEG) and cortical temperature (T-CRT) were continuously recorded for a baseline day, a 24-h sleep deprivation (SD) period, and a recovery day. Data obtained previously for LD 12:12 served for comparison. Whereas the photoperiod exerted a prominent effect on the 24-h sleep pattern, the 24-h baseline level of sleep and the response to SD were little affected. Recovery from SD was characterized by a marked rise in rapid eye movement sleep, a moderate rise in non-rapid eye movement sleep, and an initial enhancement of EEG slow-wave activity followed by a decrease below baseline. The amplitude and phase of the ''unmasked'' 24-h component of T-CRT did not differ between LPP and SPP. Computer simulations demonstrated that the changes of T-CRT and EEG slow-wave activity can be largely accounted for by the sequence of the vigilance states. We conclude that the photoperiod does not affect the basic processes underlying sleep regulation.

引用

页码：R691 / R701

页数：11

共 33 条

[1] A MODEL OF HUMAN SLEEP HOMEOSTASIS BASED ON EEG SLOW-WAVE ACTIVITY - QUANTITATIVE COMPARISON OF DATA AND SIMULATIONS [J].

ACHERMANN, P ;

DIJK, DJ ;

BRUNNER, DP ;

BORBELY, AA .

BRAIN RESEARCH BULLETIN, 1993, 31 (1-2) :97-113

[2] THE EFFECT OF LIGHT ON SLEEP AND THE EEG OF YOUNG-RATS [J].

ALFOLDI, P ;

TOBLER, I ;

BORBELY, AA .

PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY, 1990, 417 (04) :398-403

[3] DELTA FREQUENCY (1-4 HZ) OSCILLATIONS OF PERIGENICULATE THALAMIC NEURONS AND THEIR MODULATION BY LIGHT [J].

AMZICA, F ;

NUNEZ, A ;

STERIADE, M .

NEUROSCIENCE, 1992, 51 (02) :285-294

[4] ON THE RELATIONSHIP BETWEEN MOTOR-ACTIVITY AND THE SLEEP WAKE CYCLE IN HUMANS DURING TEMPORAL ISOLATION [J].

ASCHOFF, J .

JOURNAL OF BIOLOGICAL RHYTHMS, 1993, 8 (01) :33-46

[5] DIE AKTIVITATSPERIODIK VON NAGERN IM KUNSTLICHEN 24-STUNDEN-TAG MIT 6-20 STUNDEN LICHTZEIT [J].

ASCHOFF, J ;

MEYERLOHMANN, J .

ZEITSCHRIFT FUR VERGLEICHENDE PHYSIOLOGIE, 1955, 37 (02) :107-117

[6]

BARTNESS TJ, 1993, J PINEAL RES, V15, P161

[7]

Borbely A A, 1982, Hum Neurobiol, V1, P195

[8] SLEEP-DEPRIVATION - EFFECTS ON SLEEP AND EEG IN THE RAT [J].

BORBELY, AA ;

NEUHAUS, HU .

JOURNAL OF COMPARATIVE PHYSIOLOGY, 1979, 133 (01) :71-87

[9] DAILY PATTERN OF SLEEP, MOTOR-ACTIVITY AND FEEDING IN RAT - EFFECTS OF REGULAR AND GRADUALLY EXTENDED PHOTOPERIODS [J].

BORBELY, AA ;

ULRICHNEUHAUS, H .

JOURNAL OF COMPARATIVE PHYSIOLOGY, 1978, 124 (01) :1-14

[10] CIRCADIAN-RHYTHMS OF LOCOMOTOR ACTIVITY IN CAPTIVE BIRDS AND MAMMALS - THEIR VARIATIONS WITH SEASON AND LATITUDE [J].

DAAN, S ;

ASCHOFF, J .

OECOLOGIA, 1975, 18 (04) :269-316

← 1 2 3 4 →