corticosterone and Inadequate Sleep studies

Research Excerpts

Excerpt	Relevance	Reference
" Our previous studies found that melatonin exerts an improvement effect in sleep deprivation (SD)- induced corticosterone overproduction and colitis."	8.02	Melatonin Ameliorates Corticosterone-Mediated Oxidative Stress-Induced Colitis in Sleep-Deprived Mice Involving Gut Microbiota. ( Cao, J; Chen, Y; Dong, Y; Gao, T; Wang, Z, 2021)
" Our previous studies found that melatonin exerts an improvement effect in sleep deprivation (SD)- induced corticosterone overproduction and colitis."	4.02	Melatonin Ameliorates Corticosterone-Mediated Oxidative Stress-Induced Colitis in Sleep-Deprived Mice Involving Gut Microbiota. ( Cao, J; Chen, Y; Dong, Y; Gao, T; Wang, Z, 2021)
" After the end of this period, all animals were allowed to sleep freely for 2 days, and then the behavioral tests were performed for evaluation of depressive and anxiety-like profiles (sucrose negative contrast test and elevated plus maze, EPM)."	3.88	Chronic REM Sleep Restriction in Juvenile Male Rats Induces Anxiety-Like Behavior and Alters Monoamine Systems in the Amygdala and Hippocampus. ( da Silva Rocha-Lopes, J; Machado, RB; Suchecki, D, 2018)
"Earlier, we reported that elevated anxiety-like behavior and high aggression in aged retired breeder Long-Evans (L-E) rats was associated with increased plasma corticosterone and elevated oxidative stress levels."	3.83	Tempol protects sleep-deprivation induced behavioral deficits in aggressive male Long-Evans rats. ( Asghar, S; Atrooz, F; Salim, S; Solanki, N, 2016)
" rugosa (RO) on sleep deprivation-induced anxiety-like behavior and cognitive tests (in vivo) and tested for hippocampal CORT and monoamine levels (ex vivo), corticosterone (CORT)-induced injury, N-methyl-d-aspartate (NMDA) receptor, and serotonin 6 (5-hydroxytryptamine 6, 5-HT6) receptor activities (in vitro) in search of active principles and underlying mechanisms of action."	3.83	Antistress Effects of Rosa rugosa Thunb. on Total Sleep Deprivation-Induced Anxiety-Like Behavior and Cognitive Dysfunction in Rat: Possible Mechanism of Action of 5-HT6 Receptor Antagonist. ( Bae, D; Choi, E; Han, S; Jun, W; Kim, S; Kim, YJ; Lee, YH; Na, JR; Oh, DH; Oh, DR, 2016)
" In a separate experiment, we measured sleep restriction-induced changes in body weight, food intake, and regulatory hormones such as glucose, insulin, leptin and corticosterone."	3.78	Metabolic consequences of chronic sleep restriction in rats: changes in body weight regulation and energy expenditure. ( Barf, RP; Fuchs, E; Hoffmann, K; Hulshof, HJ; Meerlo, P; Novati, A; Scheurink, AJ; Van Dijk, G, 2012)
" In the present study, we examined the extent of the effects of PSD for 72h on spatial learning and memory, anxiety-like behavior, corticosterone levels, and the body weight in male as well as in intact and ovariectomized (OVX) female Wistar rats."	3.78	Female rats are more susceptible to the deleterious effects of paradoxical sleep deprivation on cognitive performance. ( Esmaeili-Mahani, S; Hajali, V; Shabani, M; Sheibani, V, 2012)
"Corticosterone levels were comparable between the two groups, although ACTH levels were elevated significantly in the sleep deprivation group."	1.91	Sleep deprivation during pregnancy leads to poor fetal outcomes in Sprague-Dawley rats. ( Li, B; Li, J; Liu, S; Peng, X; Shi, J; Zhong, H; Zhou, X, 2023)
"Different profiles of sleepiness emerged in sleep deprived mice."	1.72	Sleepiness profiles in mice submitted to acute and chronic sleep deprivation. ( Andersen, ML; Araujo, P; Fernandes, GL; Tufik, S, 2022)
"Paradoxical sleep deprivation (PSD) augments ACTH and corticosterone (CORT) levels, but the nature of this stimulus is not yet defined."	1.72	The Pituitary-Adrenal Response to Paradoxical Sleep Deprivation Is Similar to a Psychological Stressor, Whereas the Hypothalamic Response Is Unique. ( Hoffman, GE; Koban, M; Machado, RB; Moraes, DA; Suchecki, D, 2022)
"The pregnant rats were subjected to sleep deprivation of 12 h per day at different stages; early (ESD), mid (MSD), and late (LSD) stages, on pregnancy days 1-7, 8-14, and 14-20, respectively."	1.72	Effect of rapid eye movement sleep deprivation during pregnancy on glucocorticoid receptor regulation of HPA axis function in female offspring. ( Anigbogu, CN; Ehichioya, DE; Jaja, SI; Tahajjul Taufique, SK, 2022)
"In this study, we report how sleep deprivation (SD) affects hippocampal representations, sleep patterns, and memory in young and old mice."	1.62	Differential effect of sleep deprivation on place cell representations, sleep architecture, and memory in young and old mice. ( Cerda, VR; Gagliardi, CM; Grenier, AE; Guajardo, H; Lopez, MR; Muzzio, IA; Normandin, ME; Ramos-Alvarez, MM; Thomas, AS; Uygun, DS; Wood, MT; Yuan, RK, 2021)
"Birds were then placed in automated sleep fragmentation cages that utilize a moving wire to force movement every 1 min (60 arousals/h) during 12D (inactive period) or control conditions (during 12L; active period)."	1.56	Effect of sleep loss on executive function and plasma corticosterone levels in an arctic-breeding songbird, the Lapland longspur (Calcarius lapponicus). ( Ashley, NT; Hodinka, BL, 2020)
"The neuroendocrine background of acute sleep fragmentation in obstructive sleep apnea and sleep fragmentation involvement in psychiatric comorbidities, common in these patients, are still largely unknown."	1.51	Short-term sleep fragmentation enhances anxiety-related behavior: The role of hormonal alterations. ( Ademovic, A; Grubac, Z; Hrncic, D; Macut, D; Petronijevic, N; Rasic-Markovic, A; Stanojlovic, O; Sutulovic, N; Velimirovic, M, 2019)
"After sleep deprivation, hippocampal KYNA levels increased significantly only in males."	1.48	Sex Differences in Hippocampal Memory and Kynurenic Acid Formation Following Acute Sleep Deprivation in Rats. ( Baratta, AM; Buchla, AD; Buck, SA; Chen, S; Fabian, CB; Mong, JA; Pocivavsek, A, 2018)
"Many studies have reported that sleep deprivation (SD) leads to impairments in various types of learning and memory."	1.48	Voluntary exercise impact on cognitive impairments in sleep-deprived intact female rats. ( Bejeshk, MA; Borzadaran, FM; Esmaeilpour, K; Masoumi-Ardakani, Y; Nakhaee, N; Rajizadeh, MA; Ranjbar, MP; Shabani, M; Sheibani, V, 2018)
"The consequences of chronic insufficient sleep for health remain uncertain."	1.46	Decreased alertness due to sleep loss increases pain sensitivity in mice. ( Alexandre, C; Ferreira, A; Latremoliere, A; Miracca, G; Scammell, TE; Woolf, CJ; Yamamoto, M, 2017)
"Corticosterone levels were detected by ELISA, and the hippocampal NR1 and NR2A were measured by RT-PCR and Western blot analysis."	1.46	Distinct behavioral and brain changes after different durations of the modified multiple platform method on rats: An animal model of central fatigue. ( Guo, S; Han, C; Li, F; Li, W; Liu, J; Liu, Y; Ma, J; Mao, Y; Song, Y, 2017)
"Immediately after the sleep deprivation protocol, animals locomotor activity was evaluated and serum and brain samples was extracted to evaluation of corticosterone and adrenocorticotropic hormone circulating levels, oxidative stress parameters and citokynes levels."	1.46	Lithium ameliorates sleep deprivation-induced mania-like behavior, hypothalamic-pituitary-adrenal (HPA) axis alterations, oxidative stress and elevations of cytokine concentrations in the brain and serum of mice. ( Carvalho, AF; Dal-Pizzol, F; Dal-Pont, G; Gava, FF; Peterle, BR; Quevedo, J; Resende, WR; Sangaletti-Pereira, H; Valvassori, SS; Varela, RB, 2017)
"Physical fatigue was induced by sleep deprivation and forced exercise in a rotating cage."	1.46	A Novel Animal Model Simulating the Beginning of Combat Exposure. ( Cheon, K; Heo, Y; Kim, CY; Kim, D; Koo, H, 2017)
"These findings suggest that total sleep deprivation is associated with reduced salivary flow rate and secretion rate of IgA as well as elevated levels of salivary amylase activity in rats."	1.46	Differential effects of total and partial sleep deprivation on salivary factors in Wistar rats. ( Lasisi, DT; Meludu, CC; Salami, AA; Shittu, ST, 2017)
"After sleep deprivation, GA muscle and body masses decreased in the SD group compared to the CTL, LEU, and LEU + SD groups."	1.43	Leucine supplementation is anti-atrophic during paradoxical sleep deprivation in rats. ( Antunes, HKM; Dáttilo, M; de Campos Giampa, SQ; de Mello, MT; de Sá Souza, H; Lee, KS; Mônico-Neto, M; Phillips, SM; Tufik, S, 2016)
"Cell surface analysis showed that sleep deprivation reduced F4/80(+)/CD80(low) peritoneal cell population induced by thioglycollate injection."	1.43	The dual effect of paradoxical sleep deprivation on murine immune functions. ( Andersen, ML; Barros, MS; Bizzarro, B; Egydio, F; Faccioli, LH; Pina, A; Russo, M; Sá-Nunes, A; Sesti-Costa, R; Soares, EM; Tufik, S, 2016)
"A group of rats was challenged by 4-h sleep deprivation in the early rest period, leading to prolonged (16 h) wakefulness."	1.43	Sleep restriction acutely impairs glucose tolerance in rats. ( Challet, E; Foppen, E; Jha, PK; Kalsbeek, A, 2016)
"In this study, we hypothesized that sleep deprivation could lead to adverse effect on the male reproductive system."	1.43	Effect of Sleep Deprivation on the Male Reproductive System in Rats. ( Bae, JH; Choi, JH; Kim, YS; Lee, SH; Park, HS; Shim, JS; Shin, C, 2016)
"Paradoxical sleep deprivation activates the sympathetic nervous system and the hypothalamus-pituitary-adrenal axis, subsequently interfering with the cardiovascular system."	1.43	Paradoxical Sleep Deprivation Causes Cardiac Dysfunction and the Impairment Is Attenuated by Resistance Training. ( Antonio, EL; Antunes, HK; de Mello, MT; Dos Santos, AA; Giampá, SQ; Koike, MK; Lee, KS; Mônico-Neto, M; Serra, AJ; Souza, HS; Tucci, PJ; Tufik, S, 2016)
"Corticosterone levels were not statistically significant among the different groups."	1.42	Exercise improves learning and memory impairments in sleep deprived female rats. ( Esmaeili-Mahani, S; Esmaeilpour, K; Mazhari, S; Nazeri, M; Saadati, H; Sheibani, V, 2015)
"Acute sleep fragmentation did not impact corticosterone levels."	1.42	Differential effects of duration of sleep fragmentation on spatial learning and synaptic plasticity in pubertal mice. ( Bimonte-Nelson, H; Blair Braden, B; Chen, S; Garcia, A; Jasso, K; Kim, DY; Kim, KM; Maganti, R; Rho, JM; Wallace, E; Williams, J, 2015)
"The corticosterone levels were decreased in both intact and OVX female rats following SD."	1.42	Ovariectomy does not exacerbate the negative effects of sleep deprivation on synaptic plasticity in rats. ( Aliabadi, HP; Esmaeilpour, K; Hajali, V; Hajializadeh, Z; Mahani, SE; Saadati, H; Shabani, M; Sheibani, V, 2015)
"Immediately after sleep deprivation and at the end of the experiment, weight gain in the fatigue and compound groups was significantly lower than in controls (p < 0."	1.42	Effects of fatigue from sleep deprivation on experimental periodontitis in rats. ( Kato, T; Nakada, T; Numabe, Y, 2015)
"The corticosterone levels were not significantly changed following REM-SD neither in intact nor in GDX male rats."	1.42	Effect of castration on the susceptibility of male rats to the sleep deprivation-induced impairment of behavioral and synaptic plasticity. ( Ghadiri, T; Ghazvini, H; Hajali, V; Saadati, H; Shabani, M; Sheibani, V; Valizadeh, T, 2015)
"Corticosterone was increased in the SD group compared with the control group, and this increase was minimized in the RT+SD group."	1.42	Resistance training minimizes catabolic effects induced by sleep deprivation in rats. ( Antunes, HK; Dáttilo, M; de Mello, MT; de Moraes, WM; Giampá, SQ; Lee, KS; Medeiros, A; Mônico-Neto, M; Phillips, SM; Souza, Hde S; Tufik, S, 2015)
"We present here an automated sleep deprivation system via air puffs."	1.42	Stress-free automatic sleep deprivation using air puffs. ( Davis, DE; Fitzpatrick, CJ; Gross, BA; Poe, GR; Prabhu, K; Urpa, LM; Vanderheyden, WM, 2015)
"We hypothesized that long-term sleep fragmentation (SF) results in injury to or dysfunction of wake-active neurons that manifests, in part, as a delayed hypercapnic arousal response."	1.40	Effects of chronic sleep fragmentation on wake-active neurons and the hypercapnic arousal response. ( Beck, SG; Bhatnagar, S; Chou, YT; Fenik, P; Li, Y; Panossian, LA; Piel, DA; Veasey, S; Zhan, G; Zhang, J; Zhu, Y, 2014)
"Body weights were taken on days 7, 14 and 21."	1.40	Effects of vitamin E and melatonin on serum testosterone level in sleep deprived Wistar rats. ( Adeyemi, DH; Akindele, OO; Kunle-Alabi, OT; Oghenetega, BO; Raji, Y, 2014)
"Metyrapone treatment prevented the elevation of corticosterone plasma levels induced by REM sleep deprivation, whereas corticosterone administration to REM sleep-deprived rats resulted in lower corticosterone levels than in non-sleep deprived rats."	1.39	Role of corticosterone on sleep homeostasis induced by REM sleep deprivation in rats. ( Machado, RB; Suchecki, D; Tufik, S, 2013)
"Caffeine treatment during SD, significantly increased early proliferative and post-mitotic stages of doublecortin (DCX) positive cells while modafinil treatment during SD, increased intermediate and post-mitotic stages of DCX positive cells compared to SD+Vehicle group."	1.39	Caffeine and modafinil promote adult neuronal cell proliferation during 48 h of total sleep deprivation in rat dentate gyrus. ( Kauser, H; Kishore, K; Kumar, S; Panjwani, U; Ray, K; Sahu, S, 2013)
"While sleep fragmentation has been shown to impact sleep homeostasis, its specific effects on metabolic variables are only beginning to emerge."	1.39	Sustained sleep fragmentation affects brain temperature, food intake and glucose tolerance in mice. ( Baud, MO; Magistretti, PJ; Petit, JM, 2013)
"While the effects of sleep deprivation (SD) on the acquisition and consolidation phases of memory have been extensively characterized, its effects on memory retrieval remain overlooked."	1.39	Short-term sleep deprivation reinstates memory retrieval in mice: the role of corticosterone secretion. ( Andersen, ML; Frussa-Filho, R; Longo, BM; Lopes-Silva, LB; Patti, CL; Takatsu-Coleman, AL; Tufik, S; Zager, A; Zanin, KA, 2013)
"After 72h of REM sleep deprivation, the blood pressure (BP) levels and the QTc interval of the electrocardiogram (ECG) were significantly increased (P<."	1.39	Susceptibility to life-threatening ventricular arrhythmias in an animal model of paradoxical sleep deprivation. ( Ghorbani-Shahrbabaki, S; Hajali, V; Joukar, S; Naghsh, N; Sheibani, V, 2013)
"Sleep deprivation was carried out for 24 h by gentle handling of the animals."	1.39	Sleep deprivation reduces neuroglobin immunoreactivity in the rat brain. ( Acosta-Peña, E; Escobar, C; Garcia-Garcia, F; Melgarejo-Gutiérrez, M; Santiago-García, J; Venebra-Muñoz, A, 2013)
"Thus, CMS and sleep deprivation, when given alone, have distinct region-specific effects."	1.38	Post-transcriptional effects and interactions between chronic mild stress and acute sleep deprivation: regulation of translation factor and cytoplasmic polyadenylation element-binding protein phosphorylation. ( Bramham, CR; Dagestad, G; Grønli, J; Milde, AM; Murison, R, 2012)
"In rodents, sleep deprivation (SD) negatively affects consolidation of hippocampus-dependent memories."	1.38	Post-exposure sleep deprivation facilitates correctly timed interactions between glucocorticoid and adrenergic systems, which attenuate traumatic stress responses. ( Cohen, H; Cohen, S; Kaplan, Z; Kozlovsky, N; Matar, MA; Zohar, J, 2012)
"Psoriasis is a chronic recurrent inflammatory skin disorder with multifactorial etiology, including genetic background, environmental factors, and immune system disturbances with a strong cytokine component."	1.38	Sleep loss and cytokines levels in an experimental model of psoriasis. ( Andersen, ML; Araújo, MS; Hirotsu, C; Rydlewski, M; Tufik, S, 2012)
"We here propose a novel procedure for sleep deprivation in rats and evaluate how it affects sleep, corticosterone concentration profiles, locomotor activity levels, and motivation to perform an operant task."	1.37	A new automated method for rat sleep deprivation with minimal confounding effects on corticosterone and locomotor activity. ( Dematteis, M; Eggels, L; Feenstra, MG; Joosten, RN; Leenaars, CH; Sandberg, H; Schirris, M; Van Someren, EJ, 2011)
"A standardization of sleep deprivation procedures involving gentle handling will be important for unequivocally specifying how acute sleep loss affects brain function."	1.37	Do mice habituate to "gentle handling?" A comparison of resting behavior, corticosterone levels and synaptic function in handled and undisturbed C57BL/6J mice. ( Fan, J; Kopp, C; Longordo, F; Lüthi, A; Steimer, T, 2011)
"Interestingly, sleep deprivation is reported to cause oxidative damage in the brain and is also reported to be anxiogenic."	1.37	Exercise prevents sleep deprivation-associated anxiety-like behavior in rats: potential role of oxidative stress mechanisms. ( Alkadhi, K; Dao, A; Hovatta, I; Levine, A; Salim, S; Taneja, M; Vollert, C; Vu, A; Zagaar, M, 2011)
"We showed that rapid-eye-movement (REM) sleep deprivation (RSD) by the platform-over-water method inhibits hippocampal cell proliferation in adrenalectomized rats with low-dose corticosterone clamp."	1.37	Inhibition of hippocampal neurogenesis by sleep deprivation is independent of circadian disruption and melatonin suppression. ( Mear, RJ; Mistlberger, RE; Mueller, AD, 2011)
"The corticosterone levels were unaffected by MTP or SR conditions."	1.37	Association of methamidophos and sleep loss on reproductive toxicity of male mice. ( Andersen, ML; Araujo, P; Carvalho, LS; Costa, MF; Jesus, LR; Júnior, WD; Maia, LO; Mazaro-Costa, R; Paiva, GD; Tufik, S, 2011)
"During sleep deprivation (SD) a site-specific accumulation of sleep factors in the BF results in increased sleep pressure (Kalinchuk et al."	1.37	Increases in extracellular serotonin and dopamine metabolite levels in the basal forebrain during sleep deprivation. ( Kostin, A; Leenaars, CH; Porkka-Heiskanen, T; Van Someren, EJ; Zant, JC, 2011)
"We showed that a 10-hr total sleep deprivation impaired the CSD task but not the SSD one."	1.37	Differential effects of total sleep deprivation on contextual and spatial memory: modulatory effects of modafinil. ( Beracochea, D; Chauveau, F; Corio, M; Coutan, M; Krazem, A; Liscia, P; Pierard, C, 2011)
"Corticosterone levels were not affected by SR."	1.37	Impact of sex on hyperalgesia induced by sleep loss. ( Andersen, ML; Araujo, P; Mazaro-Costa, R; Tufik, S, 2011)
"five hours of sleep deprivation after each daily training session did not affect performance during training."	1.36	Coping with sleep deprivation: shifts in regional brain activity and learning strategy. ( Hagewoud, R; Havekes, R; Hogenelst, K; Meerlo, P; Novati, A; Tiba, PA; Van der Zee, EA; Weinreder, P, 2010)
"Inflammation is a condition associated with pathologies such as obesity, cancer, and cardiovascular diseases."	1.36	Sleep deprivation affects inflammatory marker expression in adipose tissue. ( Cunha, CA; de Mello, MT; Lira, FS; Oller do Nascimento, CM; Oyama, LM; Pimentel, GD; Rosa Neto, JC; Santos, RV; Tufik, S; Venancio, DP, 2010)
"In response to 6-h sleep deprivation, elevated levels of REM sleep also became evident in heterozygous CRH-COE-Nes and -Cam mice during recovery, which was reversed by treatment with a CRH receptor type 1 (CRHR1) antagonist in heterozygous and homozygous CRH-COE-Nes mice."	1.36	Conditional corticotropin-releasing hormone overexpression in the mouse forebrain enhances rapid eye movement sleep. ( Deussing, JM; Flachskamm, C; Holsboer, F; Kimura, M; Lu, A; Müller-Preuss, P; Wiesner, E; Wurst, W, 2010)
"Here we examined the effects of sleep deprivation on memory consolidation for contextual fear in rats when the task was performed at different times of the day, particularly, at the beginning of the resting phase or right before the onset of the active phase."	1.36	A time for learning and a time for sleep: the effect of sleep deprivation on contextual fear conditioning at different times of the day. ( Hagewoud, R; Havekes, R; Heeringa, AN; Koolhaas, JM; Meerlo, P; Whitcomb, SN, 2010)
"Because sleep deprivation also induces stress, we here determined the contribution of the corticosterone component of the stress response to the electrophysiological and molecular markers of sleep need in mice."	1.36	Separating the contribution of glucocorticoids and wakefulness to the molecular and electrophysiological correlates of sleep homeostasis. ( Curie, T; Dorsaz, S; Franken, P; Gip, P; Hagiwara, G; Heller, HC; Hernandez, SA; Mongrain, V; Pradervand, S, 2010)
"Corticosterone levels were found to increase after all sleep-deprivation procedures."	1.36	Biochemical, biometrical and behavioral changes in male offspring of sleep-deprived mice. ( Calegare, BF; D'Almeida, V; Fernandes, L; Tufik, S, 2010)
"We explored the possibility that REM sleep deprivation may provoke major changes in the immune system by inducing inflammation."	1.35	REM sleep deprivation in rats results in inflammation and interleukin-17 elevation. ( Carasso, RL; Kenigsbuch-Sredni, D; Sredni, B; Yehuda, S, 2009)
"In the long run, insufficient sleep may have repercussions for health and may sensitize individuals to psychiatric diseases."	1.35	Chronically restricted sleep leads to depression-like changes in neurotransmitter receptor sensitivity and neuroendocrine stress reactivity in rats. ( Cetin, T; den Boer, JA; Hagewoud, R; Luiten, PG; Meerlo, P; Novati, A; Roman, V, 2008)
"Moreover, paradoxical sleep deprivation resulted in elevation of the serotonergic turnover in the hypothalamus, which partly explained the hormonal results, and in the hippocampus, which appears to be related to adaptive responses to stress."	1.35	Chronic stress during paradoxical sleep deprivation increases paradoxical sleep rebound: association with prolactin plasma levels and brain serotonin content. ( Machado, RB; Suchecki, D; Tufik, S, 2008)
"Although paradoxical sleep deprivation did not produce alterations in anxiety-like behavior, the rats did increase exploratory activity in the elevated plus-maze."	1.35	Distinct behavioral and neurochemical alterations induced by intermittent hypoxia or paradoxical sleep deprivation in rats. ( Antunes, IB; D'Almeida, V; Perry, JC; Tufik, S, 2008)
"To evaluate whether paradoxical sleep deprivation-induced memory impairments are due to release of glucocorticoids, by means of corticosterone inhibition with metyrapone."	1.35	Glucocorticoids are not responsible for paradoxical sleep deprivation-induced memory impairments. ( Oliveira, MG; Rossi, VC; Suchecki, D; Tiba, PA; Tufik, S, 2008)
"Such alterations during sleep deprivation suggest only minor alterations of nonspecific immune parameters during acute PSD, and a significant impairment in cellular response during chronic SR."	1.34	Effects of acute and chronic sleep loss on immune modulation of rats. ( Andersen, ML; Antunes, IB; Ruiz, FS; Tufik, S; Zager, A, 2007)
"In humans, sleep fragmentation (SF) is a more common sleep condition than TSD."	1.34	Hippocampal neurogenesis is reduced by sleep fragmentation in the adult rat. ( Bashir, T; Guzman-Marin, R; McGinty, D; Suntsova, N; Szymusiak, R, 2007)
"Prolonged sleep deprivation is stressful and has been associated with adverse consequences for health and cognitive performance."	1.33	Sleep deprivation inhibits adult neurogenesis in the hippocampus by elevating glucocorticoids. ( Gould, E; Mirescu, C; Noiman, L; Peters, JD, 2006)
"This study investigated the effects of sleep deprivation on cardiac autonomic and HPA axis (re)activity, under baseline conditions and in response to an acute emotional stressor (15-min of restraint)."	1.33	Effects of sleep deprivation on cardiac autonomic and pituitary-adrenocortical stress reactivity in rats. ( Buwalda, B; Costoli, T; Meerlo, P; Merati, G; Roos, M; Sgoifo, A, 2006)
"The present purpose was to examine how sleep deprivation affects the estrous cycle of the female rat."	1.33	The effects of paradoxical sleep deprivation on estrous cycles of the female rats. ( Andersen, ML; Antunes, IB; Baracat, EC; Tufik, S, 2006)
"To address this confound, sleep deprivation effects on Morris water maze training were studied in intact rats and in rats in which the adrenal stress response had been eliminated by adrenalectomy."	1.33	Eliminating the adrenal stress response does not affect sleep deprivation-induced acquisition deficits in the water maze. ( Bazan, NG; Billiot, I; Dunn, KE; LaHoste, GJ; Ruskin, DN, 2006)
"Moreover, sleep deprivation (SD) incurred after learning, impaired memory in humans, mice, rats, and hamsters."	1.33	Sleep deprivation impairs object recognition in mice. ( Dürr, R; Meerlo, P; Palchykova, S; Tobler, I; Winsky-Sommerer, R, 2006)
"Numerous studies indicate that sleep deprivation alters energy expenditure."	1.33	Paradoxical sleep deprivation and sleep recovery: effects on the hypothalamic-pituitary-adrenal axis activity, energy balance and body composition of rats. ( Chiconelli Faria, E; Hipólide, DC; Luz, J; Pimentel de Carvalho Pinto, A; Suchecki, D; Tufik, S, 2006)
"To investigate the mechanisms by which sleep fragmentation results in memory impairments, rats were awakened once every 2 min via 30 s of slow movement on an automated treadmill."	1.33	Hippocampal synaptic plasticity and spatial learning are impaired in a rat model of sleep fragmentation. ( Arrigoni, E; Brown, RE; McCarley, RW; McKenna, JT; Strecker, RE; Tartar, JL; Thakkar, M; Ward, CP, 2006)
"The final procedure, sleep deprivation, involves passive denial of the opportunity to sleep."	1.33	Application of experimental stressors in laboratory rodents. ( Heinrichs, SC; Koob, GF, 2006)
"Paradoxical sleep deprivation (PSD) induces increased energy expenditure in rats, insofar as rats eat more but loose weight throughout the deprivation period."	1.32	Palatable solutions during paradoxical sleep deprivation: reduction of hypothalamic-pituitary-adrenal axis activity and lack of effect on energy imbalance. ( Antunes, J; Suchecki, D; Tufik, S, 2003)
"cFos was increased after sleep deprivation and was similar to control level after 2 h recovery sleep irrespective of age or brain region."	1.32	Sleep deprivation effects on growth factor expression in neonatal rats: a potential role for BDNF in the mediation of delta power. ( Denning, DP; Flores, J; Hairston, IS; Heller, HC; O'Hara, BF; Peyron, C; Ruby, NF; Sapolsky, RM, 2004)
"Corticosterone concentration was relatively unaffected."	1.32	Reductions in circulating anabolic hormones induced by sustained sleep deprivation in rats. ( Crowley, WR; Everson, CA, 2004)
"These results suggest that sleep deprivation reduces proliferation of cells in the DG of the dorsal hippocampus."	1.32	Sleep deprivation reduces proliferation of cells in the dentate gyrus of the hippocampus in rats. ( Gong, H; Guzmán-Marín, R; McGinty, D; Stewart, DR; Suntsova, N; Szymusiak, R, 2003)
"To determine if 12-h sleep deprivation disrupts neural plasticity, we compared long-term potentiation (LTP) in five sleep-deprived and five control rats."	1.31	Sleep deprivation impairs long-term potentiation in rat hippocampal slices. ( Campbell, IG; Guinan, MJ; Horowitz, JM, 2002)
"The levels of CORT after sleep deprivation in P16, P20 and P24 animals were similar, resulting in an age-dependent decrease of the magnitude of the response."	1.31	Sleep deprivation elevates plasma corticosterone levels in neonatal rats. ( Brooke, S; Denning, DP; Hairston, IS; Heller, HC; Peyron, C; Ruby, NF; Sapolsky, RM, 2001)
"However, after 48 h of total sleep deprivation and after 8 days of restricted sleep, the ACTH response to restraint was significantly reduced whereas the corticosterone response was unaffected."	1.31	Sleep restriction alters the hypothalamic-pituitary-adrenal response to stress. ( Koehl, M; Meerlo, P; Turek, FW; van der Borght, K, 2002)
"Pregnant dams were subjected to REM sleep deprivation during different stages of pregnancy."	1.28	Prenatal stress and emotional response of adult offspring. ( Palermo Neto, J; Suchecki, D, 1991)
"Corticosterone was slightly elevated after 21."	1.27	The effect of sleep deprivation and recovery sleep on plasma corticosterone in the rat. ( Borbély, AA; Murison, R; Tobler, I; Ursin, H; Ursin, R, 1983)
"Imipramine treatment decreased the peak value of 5-HT concentration at 1000 to about 65% and appears to abolish the rhythm of 5-HT concentration."	1.27	Circadian rhythm of serotonin binding in rat brain--II. Influence of sleep deprivation and imipramine. ( Rotsch, M; Schulz, E; Wesemann, W; Zöfel, P, 1986)

Timeframe	Studies, this research(%)	All Research%
pre-1990	8 (5.13)	18.7374
1990's	8 (5.13)	18.2507
2000's	47 (30.13)	29.6817
2010's	77 (49.36)	24.3611
2020's	16 (10.26)	2.80

Trial			Phase	Enrollment	Study Type	Start Date	Status
Efficacy of Cranial Manual Therapy in the Treatment of Chronic Insomnia Disorder[NCT05257317]				50 participants (Anticipated)	Interventional	2022-02-28	Recruiting
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Article	Year
Korean Red Ginseng Ameliorates Fatigue via Modulation of 5-HT and Corticosterone in a Sleep-Deprived Mouse Model. Nutrients, 2021, Sep-06, Volume: 13, Issue:9 Topics: Animals; Brain; Corticosterone; Disease Models, Animal; Dopamine; Fatigue; Male; Mice; Mice, Inbred	2021
Effect of rapid eye movement sleep deprivation during pregnancy on glucocorticoid receptor regulation of HPA axis function in female offspring. Brain research, 2022, 04-15, Volume: 1781 Topics: Animals; Corticosterone; Corticotropin-Releasing Hormone; Female; Humans; Hypothalamo-Hypophyseal Sy	2022
Multi-Omics Analysis Reveals the Systematic Relationship Between Oral Homeostasis and Chronic Sleep Deprivation in Rats. Frontiers in immunology, 2022, Volume: 13 Topics: Animals; Corticosterone; Homeostasis; Inflammation; Neurodegenerative Diseases; Proteomics; Rats; Sl	2022
Sleepiness profiles in mice submitted to acute and chronic sleep deprivation. Behavioural processes, 2022, Volume: 200 Topics: Animals; Corticosterone; Male; Mice; Mice, Inbred C57BL; Sleep; Sleep Deprivation; Sleepiness; Wakef	2022
Long-lasting effects of postweaning sleep deprivation on cognitive function and social behaviors in adult mice. Neuropharmacology, 2022, 09-01, Volume: 215 Topics: Animals; Cognition; Corticosterone; Cytokines; Female; Hippocampus; Male; Mice; Oxytocin; Sleep Depr	2022
The Pituitary-Adrenal Response to Paradoxical Sleep Deprivation Is Similar to a Psychological Stressor, Whereas the Hypothalamic Response Is Unique. Frontiers in endocrinology, 2022, Volume: 13 Topics: Adrenocorticotropic Hormone; Animals; Corticosterone; Hypothalamo-Hypophyseal System; Hypothalamus;	2022
Contrasting effects of sleep fragmentation and angiotensin-II treatment upon pro-inflammatory responses of mice. Scientific reports, 2022, 08-30, Volume: 12, Issue:1 Topics: Angiotensin II; Animals; Corticosterone; Cytokines; Inflammation; Male; Mice; Mice, Inbred C57BL; Re	2022
Sleep loss in male rats contributes more to weight gain during sleep disruption than stress assessed by corticosterone. Neuroscience letters, 2023, 01-01, Volume: 792 Topics: Animals; Body Weight; Corticosterone; Humans; Male; Rats; Rats, Sprague-Dawley; Sleep; Sleep Depriva	2023
Sleep deprivation during pregnancy leads to poor fetal outcomes in Sprague-Dawley rats. Journal of reproductive immunology, 2023, Volume: 160 Topics: Adrenocorticotropic Hormone; Animals; Corticosterone; Female; Fetus; Interleukin-6; Melatonin; Place	2023
Effect of sleep loss on executive function and plasma corticosterone levels in an arctic-breeding songbird, the Lapland longspur (Calcarius lapponicus). Hormones and behavior, 2020, Volume: 122 Topics: Animals; Arctic Regions; Corticosterone; Executive Function; Female; Male; Passeriformes; Reproducti	2020
Sleep loss mediates the effect of stress on nitrergic signaling in female mice. Neuroscience letters, 2021, 01-01, Volume: 740 Topics: Animals; Corticosterone; Female; Male; Mice; Mice, Inbred C57BL; NADP; Nitric Oxide; Nitric Oxide Sy	2021
Flowerpot method for rapid eye movement sleep deprivation does not induce stress as defined by elevated serum corticosterone level in rats. Neuroscience letters, 2021, 02-06, Volume: 745 Topics: Animals; Biomarkers; Brain; Corticosterone; Male; Rats; Rats, Wistar; Sleep Deprivation; Sleep, REM;	2021
Differential effect of sleep deprivation on place cell representations, sleep architecture, and memory in young and old mice. Cell reports, 2021, 06-15, Volume: 35, Issue:11 Topics: Aging; Animals; Bayes Theorem; Behavior, Animal; Corticosterone; Delta Rhythm; Hippocampus; Male; Me	2021
Sericin protects against acute sleep deprivation-induced memory impairment via enhancement of hippocampal synaptic protein levels and inhibition of oxidative stress and neuroinflammation in mice. Brain research bulletin, 2021, Volume: 174 Topics: Animals; Antioxidants; Cognition Disorders; Corticosterone; Cytokines; Hippocampus; Male; Maze Learn	2021
Pain sensitivity increases with sleep disturbance under predictable chronic mild stress in mice. Scientific reports, 2021, 07-09, Volume: 11, Issue:1 Topics: Animals; Corticosterone; Electroencephalography; Facial Pain; Locomotion; Male; Mice; Mice, Inbred C	2021
Melatonin Ameliorates Corticosterone-Mediated Oxidative Stress-Induced Colitis in Sleep-Deprived Mice Involving Gut Microbiota. Oxidative medicine and cellular longevity, 2021, Volume: 2021 Topics: Animals; Antioxidants; Colitis; Corticosterone; Disease Models, Animal; Gastrointestinal Microbiome;	2021
Chronic REM Sleep Restriction in Juvenile Male Rats Induces Anxiety-Like Behavior and Alters Monoamine Systems in the Amygdala and Hippocampus. Molecular neurobiology, 2018, Volume: 55, Issue:4 Topics: Amygdala; Animals; Anxiety; Behavior, Animal; Biogenic Monoamines; Brain-Derived Neurotrophic Factor	2018
Decreased alertness due to sleep loss increases pain sensitivity in mice. Nature medicine, 2017, Volume: 23, Issue:6 Topics: Acute Disease; Analgesics; Animals; Behavior, Animal; Benzhydryl Compounds; Caffeine; Chronic Diseas	2017
Distinct behavioral and brain changes after different durations of the modified multiple platform method on rats: An animal model of central fatigue. PloS one, 2017, Volume: 12, Issue:5 Topics: Animals; Behavior, Animal; Brain; CA1 Region, Hippocampal; Corticosterone; Disease Models, Animal; F	2017
Lithium ameliorates sleep deprivation-induced mania-like behavior, hypothalamic-pituitary-adrenal (HPA) axis alterations, oxidative stress and elevations of cytokine concentrations in the brain and serum of mice. Bipolar disorders, 2017, Volume: 19, Issue:4 Topics: Adrenocorticotropic Hormone; Animals; Antimanic Agents; Behavior, Animal; Bipolar Disorder; Brain; C	2017
A Novel Animal Model Simulating the Beginning of Combat Exposure. Neuroimmunomodulation, 2017, Volume: 24, Issue:4-5 Topics: Animals; Cells, Cultured; Combat Disorders; Corticosterone; Disease Models, Animal; Electric Stimula	2017
Voluntary exercise impact on cognitive impairments in sleep-deprived intact female rats. Physiology & behavior, 2018, 05-01, Volume: 188 Topics: Animals; Avoidance Learning; Cognition Disorders; Corticosterone; Exploratory Behavior; Female; Maze	2018
Sex Differences in Hippocampal Memory and Kynurenic Acid Formation Following Acute Sleep Deprivation in Rats. Scientific reports, 2018, 05-03, Volume: 8, Issue:1 Topics: Animals; Cognition; Corticosterone; Female; Hippocampus; Kynurenic Acid; Kynurenine; Male; Memory; R	2018
Myelin modifications after chronic sleep loss in adolescent mice. Sleep, 2018, 05-01, Volume: 41, Issue:5 Topics: Animals; Axons; Corpus Callosum; Corticosterone; Male; Mice; Mice, Transgenic; Microscopy, Electron;	2018
The role of glucocorticoids in ovarian development of sleep deprived rats. Taiwanese journal of obstetrics & gynecology, 2019, Volume: 58, Issue:1 Topics: Animals; Betamethasone; Corticosterone; Estradiol; Female; Follicle Stimulating Hormone; Glucocortic	2019
Short-term sleep fragmentation enhances anxiety-related behavior: The role of hormonal alterations. PloS one, 2019, Volume: 14, Issue:7 Topics: Animals; Anxiety; Behavior, Animal; Corticosterone; Disease Models, Animal; Estradiol; Exercise Test	2019
Short-term sleep deprivation reinstates memory retrieval in mice: the role of corticosterone secretion. Psychoneuroendocrinology, 2013, Volume: 38, Issue:10 Topics: Animals; Avoidance Learning; Corticosterone; Male; Maze Learning; Memory; Mental Recall; Metyrapone;	2013
Daily acclimation handling does not affect hippocampal long-term potentiation or cause chronic sleep deprivation in mice. Sleep, 2013, Apr-01, Volume: 36, Issue:4 Topics: Acclimatization; Analysis of Variance; Animals; Behavior, Animal; Chronic Disease; Corticosterone; H	2013
Role of corticosterone on sleep homeostasis induced by REM sleep deprivation in rats. PloS one, 2013, Volume: 8, Issue:5 Topics: Animals; Corticosterone; Homeostasis; Hypothalamo-Hypophyseal System; Male; Metyrapone; Pituitary-Ad	2013
Chronic mild sleep restriction accentuates contextual memory impairments, and accumulations of cortical Aβ and pTau in a mouse model of Alzheimer's disease. Brain research, 2013, Sep-05, Volume: 1529 Topics: Alzheimer Disease; Amyloid beta-Peptides; Amyloid beta-Protein Precursor; Analysis of Variance; Anim	2013
Caffeine and modafinil promote adult neuronal cell proliferation during 48 h of total sleep deprivation in rat dentate gyrus. Experimental neurology, 2013, Volume: 248 Topics: Animals; Benzhydryl Compounds; Brain-Derived Neurotrophic Factor; Caffeine; Cell Count; Cell Prolife	2013
Susceptibility to life-threatening ventricular arrhythmias in an animal model of paradoxical sleep deprivation. Sleep medicine, 2013, Volume: 14, Issue:12 Topics: Aconitine; Animals; Blood Pressure; Corticosterone; Disease Models, Animal; Electrocardiography; Hea	2013
Aging and sleep deprivation induce the unfolded protein response in the pancreas: implications for metabolism. Aging cell, 2014, Volume: 13, Issue:1 Topics: Aging; Animals; Blood Glucose; Central Nervous System; Corticosterone; Food; Glucose Tolerance Test;	2014
The inhibitory effect of sleep deprivation on cell proliferation in the hippocampus of adult mice is eliminated by corticosterone clamp combined with interleukin-1 receptor 1 knockout. Brain, behavior, and immunity, 2014, Volume: 35 Topics: Animals; Cell Proliferation; Corticosterone; Hippocampus; Male; Mice; Mice, Inbred C57BL; Mice, Knoc	2014
Deficiency of FK506-binding protein (FKBP) 51 alters sleep architecture and recovery sleep responses to stress in mice. Journal of sleep research, 2014, Volume: 23, Issue:2 Topics: Animals; Corticosterone; Depressive Disorder; Humans; Hypothalamo-Hypophyseal System; Male; Mice; Mi	2014
Effects of chronic sleep fragmentation on wake-active neurons and the hypercapnic arousal response. Sleep, 2014, Jan-01, Volume: 37, Issue:1 Topics: Animals; Arousal; Axons; Chronic Disease; Corticosterone; Electroencephalography; Hypercapnia; Intra	2014
Reduced sleep, stress responsivity, and female sex contribute to persistent inflammation-induced mechanical hypersensitivity in rats. Brain, behavior, and immunity, 2014, Volume: 40 Topics: Animals; Anxiety; Corticosterone; Female; Hyperalgesia; Hypothalamo-Hypophyseal System; Inflammation	2014
Extended wakefulness: compromised metabolics in and degeneration of locus ceruleus neurons. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2014, Mar-19, Volume: 34, Issue:12 Topics: Animals; Corticosterone; Locus Coeruleus; Male; Mice; Mice, Knockout; Mitochondria; Nerve Degenerati	2014
Effects of fatigue from sleep deprivation on experimental periodontitis in rats. Journal of periodontal research, 2015, Volume: 50, Issue:1 Topics: Alveolar Bone Loss; Alveolar Process; Animals; Body Weight; Corticosterone; Fatigue; Gingivitis; Ima	2015
Effects of chronic sleep deprivation on the extracellular signal-regulated kinase pathway in the temporomandibular joint of rats. PloS one, 2014, Volume: 9, Issue:9 Topics: Adrenocorticotropic Hormone; Animals; Butadienes; Cartilage, Articular; Corticosterone; Disease Mode	2014
Exercise improves learning and memory impairments in sleep deprived female rats. Physiology & behavior, 2015, Volume: 138 Topics: Animals; Corticosterone; Exercise Therapy; Female; Maze Learning; Memory Disorders; Memory, Short-Te	2015
Paradoxical (REM) sleep deprivation in mice using the small-platforms-over-water method: polysomnographic analyses and melanin-concentrating hormone and hypocretin/orexin neuronal activation before, during and after deprivation. Journal of sleep research, 2015, Volume: 24, Issue:3 Topics: Animals; Attention; Corticosterone; Homeostasis; Hypothalamic Hormones; Intracellular Signaling Pept	2015
Ovariectomy does not exacerbate the negative effects of sleep deprivation on synaptic plasticity in rats. Physiology & behavior, 2015, May-15, Volume: 144 Topics: Analysis of Variance; Animals; Brain-Derived Neurotrophic Factor; Corticosterone; Electric Stimulati	2015
Acute sleep fragmentation induces tissue-specific changes in cytokine gene expression and increases serum corticosterone concentration. American journal of physiology. Regulatory, integrative and comparative physiology, 2015, Jun-15, Volume: 308, Issue:12 Topics: Adipose Tissue; Animals; Biomarkers; Brain; Corticosterone; Cytokines; Disease Models, Animal; Infla	2015
Differential effects of duration of sleep fragmentation on spatial learning and synaptic plasticity in pubertal mice. Brain research, 2015, Jul-30, Volume: 1615 Topics: Animals; Cerebral Cortex; Corticosterone; Electric Stimulation; Electroencephalography; Electromyogr	2015
Stress-free automatic sleep deprivation using air puffs. Journal of neuroscience methods, 2015, Aug-15, Volume: 251 Topics: Adrenocorticotropic Hormone; Air Movements; Algorithms; Animals; Automation; Circadian Rhythm; Corti	2015
Effect of castration on the susceptibility of male rats to the sleep deprivation-induced impairment of behavioral and synaptic plasticity. Neurobiology of learning and memory, 2015, Volume: 123 Topics: Animals; Behavior, Animal; Brain-Derived Neurotrophic Factor; Cognition Disorders; Corticosterone; D	2015
Sleep deprivation enhances peripheral serotonin secretion to regulate the large follicle steroidogenesis of rats. Taiwanese journal of obstetrics & gynecology, 2015, Volume: 54, Issue:3 Topics: Animals; Cells, Cultured; Corticosterone; Estradiol; Female; Follicle Stimulating Hormone; Ketanseri	2015
Effects of vitamin E and melatonin on serum testosterone level in sleep deprived Wistar rats. African journal of medicine and medical sciences, 2014, Volume: 43, Issue:4 Topics: Animals; Body Weight; Corticosterone; Male; Malondialdehyde; Melatonin; Organ Size; Oxidative Stress	2014
Resistance training minimizes catabolic effects induced by sleep deprivation in rats. Applied physiology, nutrition, and metabolism = Physiologie appliquee, nutrition et metabolisme, 2015, Volume: 40, Issue:11 Topics: Animals; Autophagy; Corticosterone; Disease Models, Animal; Insulin-Like Growth Factor I; Male; Musc	2015
Sex-related effects of sleep deprivation on depressive- and anxiety-like behaviors in mice. Experimental animals, 2016, Volume: 65, Issue:1 Topics: Animals; Anxiety; Behavior, Animal; Corticosterone; Depression; Eating; Female; Locomotion; Male; Mi	2016
Leucine supplementation is anti-atrophic during paradoxical sleep deprivation in rats. Amino acids, 2016, Volume: 48, Issue:4 Topics: Administration, Oral; Animals; Carrier Proteins; Corticosterone; Dietary Supplements; Gene Expressio	2016
Effects of sleep restriction during pregnancy on the mother and fetuses in rats. Physiology & behavior, 2016, Mar-01, Volume: 155 Topics: Animals; Brain; Brain-Derived Neurotrophic Factor; Cholesterol; Corticosterone; Female; Glycogen; Li	2016
The dual effect of paradoxical sleep deprivation on murine immune functions. Journal of neuroimmunology, 2016, Jan-15, Volume: 290 Topics: Animals; Cell Movement; Corticosterone; Macrophages, Peritoneal; Male; Mice; Sleep Deprivation	2016
Tempol protects sleep-deprivation induced behavioral deficits in aggressive male Long-Evans rats. Neuroscience letters, 2016, Jan-26, Volume: 612 Topics: Aggression; Aging; Animals; Antioxidants; Anxiety; Behavior, Animal; Corticosterone; Cyclic N-Oxides	2016
Novel environment influences the effect of paradoxical sleep deprivation upon brain and peripheral cytokine gene expression. Neuroscience letters, 2016, Feb-26, Volume: 615 Topics: Animals; Brain; Corticosterone; Cytokines; Gene Expression; Gene-Environment Interaction; Hippocampu	2016
Effects of different periods of paradoxical sleep deprivation and sleep recovery on lipid and glucose metabolism and appetite hormones in rats. Applied physiology, nutrition, and metabolism = Physiologie appliquee, nutrition et metabolisme, 2016, Volume: 41, Issue:3 Topics: Animals; Appetite Regulation; Biomarkers; Blood Glucose; Body Weight; Corticosterone; Disease Models	2016
Sleep restriction reduces the survival time and aggravates the neurological dysfunction and memory impairments in an animal model of cerebral hypoperfusion. Brain research, 2016, 08-01, Volume: 1644 Topics: Animals; Brain Ischemia; CA1 Region, Hippocampal; Cerebral Cortex; Corticosterone; Disease Models, A	2016
Antistress Effects of Rosa rugosa Thunb. on Total Sleep Deprivation-Induced Anxiety-Like Behavior and Cognitive Dysfunction in Rat: Possible Mechanism of Action of 5-HT6 Receptor Antagonist. Journal of medicinal food, 2016, Volume: 19, Issue:9 Topics: Animals; Antioxidants; Anxiety; Behavior, Animal; Brain; Cognitive Dysfunction; Corticosterone; Cycl	2016
Sleep restriction acutely impairs glucose tolerance in rats. Physiological reports, 2016, Volume: 4, Issue:12 Topics: Animals; Blood Glucose; Corticosterone; Glucose Intolerance; Insulin; Male; Rats; Rats, Wistar; Slee	2016
Effect of Sleep Deprivation on the Male Reproductive System in Rats. Journal of Korean medical science, 2016, Volume: 31, Issue:10 Topics: Animals; Corticosterone; Male; Rats; Rats, Wistar; Sleep Deprivation; Sperm Motility; Spermatozoa; T	2016
Modelling maintenance of wakefulness in rats: comparing potential non-invasive sleep-restriction methods and their effects on sleep and attentional performance. Journal of sleep research, 2017, Volume: 26, Issue:2 Topics: Animals; Attention; Biofeedback, Psychology; Corticosterone; Electroencephalography; Male; Polysomno	2017
Differential effects of total and partial sleep deprivation on salivary factors in Wistar rats. Archives of oral biology, 2017, Volume: 73 Topics: Amylases; Animals; Body Weight; Corticosterone; Enzyme-Linked Immunosorbent Assay; Immunoglobulin A,	2017
Paradoxical Sleep Deprivation Causes Cardiac Dysfunction and the Impairment Is Attenuated by Resistance Training. PloS one, 2016, Volume: 11, Issue:11 Topics: Angiotensin II; Animals; Corticosterone; Echocardiography, Doppler; Heart Rate; Heart Ventricles; He	2016
Chronic stress during paradoxical sleep deprivation increases paradoxical sleep rebound: association with prolactin plasma levels and brain serotonin content. Psychoneuroendocrinology, 2008, Volume: 33, Issue:9 Topics: Adrenocorticotropic Hormone; Analysis of Variance; Animals; Brain; Chronic Disease; Corticosterone;	2008
Sleep fragmentation impairs ventilatory long-term facilitation via adenosine A1 receptors. The Journal of physiology, 2008, Nov-01, Volume: 586, Issue:21 Topics: Animals; Basal Metabolism; Body Temperature; Corticosterone; Heart Rate; Hypoxia; Male; Rats; Rats,	2008
Experimental sleep fragmentation and sleep deprivation in rats increases exploration in an open field test of anxiety while increasing plasma corticosterone levels. Behavioural brain research, 2009, Feb-11, Volume: 197, Issue:2 Topics: Animals; Anxiety; Corticosterone; Exploratory Behavior; Male; Motor Activity; Rats; Rats, Inbred BN;	2009
Phagocyte migration and cellular stress induced in liver, lung, and intestine during sleep loss and sleep recovery. American journal of physiology. Regulatory, integrative and comparative physiology, 2008, Volume: 295, Issue:6 Topics: Animals; Cell Movement; Corticosterone; Disease Models, Animal; Heme Oxygenase (Decyclizing); Immuno	2008
Chronically restricted sleep leads to depression-like changes in neurotransmitter receptor sensitivity and neuroendocrine stress reactivity in rats. Sleep, 2008, Volume: 31, Issue:11 Topics: Animals; Conditioning, Psychological; Corticosterone; Corticotropin-Releasing Hormone; Depression; F	2008
Distinct effects of acute and chronic sleep loss on DNA damage in rats. Progress in neuro-psychopharmacology & biological psychiatry, 2009, Apr-30, Volume: 33, Issue:3 Topics: Analysis of Variance; Animals; Brain; Comet Assay; Corticosterone; Disease Models, Animal; DNA Damag	2009
Paradoxical sleep deprivation activates hypothalamic nuclei that regulate food intake and stress response. Psychoneuroendocrinology, 2009, Volume: 34, Issue:8 Topics: Adrenocorticotropic Hormone; Animals; Body Weight; Corticosterone; Corticotropin-Releasing Hormone;	2009
Modulation of sickness behavior by sleep: the role of neurochemical and neuroinflammatory pathways in mice. European neuropsychopharmacology : the journal of the European College of Neuropsychopharmacology, 2009, Volume: 19, Issue:8 Topics: Animals; Anxiety; Behavior, Animal; Biogenic Monoamines; Brain; Corticosterone; Cyclooxygenase 2; El	2009
REM sleep deprivation in rats results in inflammation and interleukin-17 elevation. Journal of interferon & cytokine research : the official journal of the International Society for Interferon and Cytokine Research, 2009, Volume: 29, Issue:7 Topics: Animals; Biomarkers; Corticosterone; Fever; Homocysteine; Inflammation; Interleukin-17; Male; Rats;	2009
Conditional corticotropin-releasing hormone overexpression in the mouse forebrain enhances rapid eye movement sleep. Molecular psychiatry, 2010, Volume: 15, Issue:2 Topics: Analysis of Variance; Animals; Calcium-Calmodulin-Dependent Protein Kinase Type 2; Corticosterone; C	2010
Melatonin preserves longevity protein (sirtuin 1) expression in the hippocampus of total sleep-deprived rats. Journal of pineal research, 2009, Volume: 47, Issue:3 Topics: Adrenocorticotropic Hormone; Animals; Body Weight; Central Nervous System Depressants; Corticosteron	2009
Are endogenous sex hormones related to DNA damage in paradoxically sleep-deprived female rats? Hormones and behavior, 2010, Volume: 57, Issue:2 Topics: Animals; Blood; Brain; Corticosterone; Diestrus; DNA Damage; Estrus; Female; Gonadal Steroid Hormone	2010
Biochemical, biometrical and behavioral changes in male offspring of sleep-deprived mice. Psychoneuroendocrinology, 2010, Volume: 35, Issue:5 Topics: Animals; Animals, Newborn; Corticosterone; Cysteine; Embryonic Development; Estradiol; Female; Homoc	2010
Sleep disruption aggravates focal cerebral ischemia in the rat. Sleep, 2010, Volume: 33, Issue:7 Topics: Analysis of Variance; Animals; Body Weight; Brain Ischemia; Corticosterone; Disease Models, Animal;	2010
Separating the contribution of glucocorticoids and wakefulness to the molecular and electrophysiological correlates of sleep homeostasis. Sleep, 2010, Volume: 33, Issue:9 Topics: Adrenalectomy; Animals; Circadian Rhythm Signaling Peptides and Proteins; Corticosterone; Disease Mo	2010
Differential effects of total sleep deprivation on contextual and spatial memory: modulatory effects of modafinil. Pharmacology, biochemistry, and behavior, 2011, Volume: 97, Issue:3 Topics: Animals; Behavior, Animal; Benzhydryl Compounds; Central Nervous System Stimulants; Corticosterone;	2011
Sleep deprivation impairs contextual fear conditioning and attenuates subsequent behavioural, endocrine and neuronal responses. Journal of sleep research, 2011, Volume: 20, Issue:2 Topics: Amygdala; Animals; Association Learning; Conditioning, Classical; Corticosterone; CREB-Binding Prote	2011
Sleep deprivation affects inflammatory marker expression in adipose tissue. Lipids in health and disease, 2010, Oct-30, Volume: 9 Topics: Adipokines; Adipose Tissue; Animals; Corticosterone; Inflammation; Interleukin-10; Interleukin-6; Le	2010
A time for learning and a time for sleep: the effect of sleep deprivation on contextual fear conditioning at different times of the day. Sleep, 2010, Volume: 33, Issue:10 Topics: Animals; Circadian Rhythm; Conditioning, Psychological; Corticosterone; Discrimination Learning; Dis	2010
Impact of sex on hyperalgesia induced by sleep loss. Hormones and behavior, 2011, Volume: 59, Issue:1 Topics: Analysis of Variance; Animals; Body Weight; Corticosterone; Female; Hyperalgesia; Male; Mice; Mice,	2011
Coping with sleep deprivation: shifts in regional brain activity and learning strategy. Sleep, 2010, Volume: 33, Issue:11 Topics: Adaptation, Psychological; Animals; Behavior, Animal; Biomarkers; Brain; Corpus Striatum; Corticoste	2010
A new automated method for rat sleep deprivation with minimal confounding effects on corticosterone and locomotor activity. Journal of neuroscience methods, 2011, Mar-15, Volume: 196, Issue:1 Topics: Analysis of Variance; Animals; Automation, Laboratory; Behavior, Animal; Brain; Circadian Rhythm; Co	2011
Effects of sleep deprivation on serum testosterone concentrations in the rat. Neuroscience letters, 2011, Apr-25, Volume: 494, Issue:2 Topics: Animals; Corticosterone; Electroencephalography; Leydig Cells; Male; Phosphoproteins; Rats; Rats, Sp	2011
Do mice habituate to "gentle handling?" A comparison of resting behavior, corticosterone levels and synaptic function in handled and undisturbed C57BL/6J mice. Sleep, 2011, May-01, Volume: 34, Issue:5 Topics: Animals; Corticosterone; Disease Models, Animal; Female; Habituation, Psychophysiologic; Handling, P	2011
Exercise prevents sleep deprivation-associated anxiety-like behavior in rats: potential role of oxidative stress mechanisms. Behavioural brain research, 2011, Oct-31, Volume: 224, Issue:2 Topics: Animals; Antioxidants; Anxiety; Behavior, Animal; Blotting, Western; Brain; Brain Chemistry; Cortico	2011
Increases in extracellular serotonin and dopamine metabolite levels in the basal forebrain during sleep deprivation. Brain research, 2011, Jul-05, Volume: 1399 Topics: Analysis of Variance; Animals; Chromatography, High Pressure Liquid; Corticosterone; Dopamine; Elect	2011
Inhibition of hippocampal neurogenesis by sleep deprivation is independent of circadian disruption and melatonin suppression. Neuroscience, 2011, Oct-13, Volume: 193 Topics: Adrenalectomy; Analysis of Variance; Animals; Bromodeoxyuridine; Cell Proliferation; Cell Survival;	2011
Association of methamidophos and sleep loss on reproductive toxicity of male mice. Environmental toxicology and pharmacology, 2011, Volume: 32, Issue:2 Topics: Animals; Corticosterone; Epididymis; Insecticides; Male; Mice; Organ Size; Organothiophosphorus Comp	2011
Repeated exposure to severely limited sleep results in distinctive and persistent physiological imbalances in rats. PloS one, 2011, Volume: 6, Issue:8 Topics: Adipocytes; Animals; Body Weight; Connective Tissue; Corticosterone; Drinking; Feeding Behavior; Hor	2011
Increased food intake and changes in metabolic hormones in response to chronic sleep restriction alternated with short periods of sleep allowance. American journal of physiology. Regulatory, integrative and comparative physiology, 2012, Jan-01, Volume: 302, Issue:1 Topics: Animals; Body Weight; Corticosterone; Eating; Energy Metabolism; Glucose; Insulin; Leptin; Male; Mod	2012
Female rats are more susceptible to the deleterious effects of paradoxical sleep deprivation on cognitive performance. Behavioural brain research, 2012, Mar-17, Volume: 228, Issue:2 Topics: Analysis of Variance; Animals; Anxiety; Body Weight; Cognition Disorders; Corticosterone; Explorator	2012
Post-exposure sleep deprivation facilitates correctly timed interactions between glucocorticoid and adrenergic systems, which attenuate traumatic stress responses. Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology, 2012, Volume: 37, Issue:11 Topics: Acoustic Stimulation; Adrenergic Agonists; Analysis of Variance; Animals; Corticosterone; Dendrites;	2012
Sustained sleep fragmentation affects brain temperature, food intake and glucose tolerance in mice. Journal of sleep research, 2013, Volume: 22, Issue:1 Topics: Animals; Blood Glucose; Body Temperature; Brain; Corticosterone; Eating; Electroencephalography; Ele	2013
Post-transcriptional effects and interactions between chronic mild stress and acute sleep deprivation: regulation of translation factor and cytoplasmic polyadenylation element-binding protein phosphorylation. Behavioural brain research, 2012, Dec-01, Volume: 235, Issue:2 Topics: Analysis of Variance; Animals; Body Weight; Brain; Corticosterone; Disease Models, Animal; Electroen	2012
Sleep deprivation alters rat ventral prostate morphology, leading to glandular atrophy: a microscopic study contrasted with the hormonal assays. Journal of biomedicine & biotechnology, 2012, Volume: 2012 Topics: Animals; Atrophy; Biological Assay; Corticosterone; Male; Prostate; Rats; Rats, Wistar; Sleep Depriv	2012
Metabolic consequences of chronic sleep restriction in rats: changes in body weight regulation and energy expenditure. Physiology & behavior, 2012, Oct-10, Volume: 107, Issue:3 Topics: Analysis of Variance; Animals; Blood Glucose; Body Weight; Corticosterone; Eating; Electroencephalog	2012
Sleep loss and cytokines levels in an experimental model of psoriasis. PloS one, 2012, Volume: 7, Issue:11 Topics: Animals; Body Weight; Corticosterone; Cytokines; Disease Models, Animal; Kallikreins; Male; Mice; Mi	2012
Sleep deprivation reduces neuroglobin immunoreactivity in the rat brain. Neuroreport, 2013, Feb-13, Volume: 24, Issue:3 Topics: Animals; Brain; Cell Count; Corticosterone; Gene Expression Regulation; Globins; Lipid Peroxidation;	2013
Hormonal and behavioural responses of paradoxical sleep-deprived rats to the elevated plus maze. Journal of neuroendocrinology, 2002, Volume: 14, Issue:7 Topics: Adrenocorticotropic Hormone; Animals; Behavior, Animal; Corticosterone; Male; Maze Learning; Motor A	2002
Sleep deprivation impairs long-term potentiation in rat hippocampal slices. Journal of neurophysiology, 2002, Volume: 88, Issue:2 Topics: Animals; Corticosterone; Electrophysiology; Hippocampus; Long-Term Potentiation; Male; Rats; Rats, S	2002
Influence of paradoxical sleep deprivation and cocaine on development of spontaneous penile reflexes in rats of different ages. Brain research, 2003, Apr-04, Volume: 968, Issue:1 Topics: Age Factors; Analysis of Variance; Animals; Blood Chemical Analysis; Cocaine; Corticosterone; Male;	2003
Sleep deprivation reduces proliferation of cells in the dentate gyrus of the hippocampus in rats. The Journal of physiology, 2003, Jun-01, Volume: 549, Issue:Pt 2 Topics: Animals; Bromodeoxyuridine; Cell Division; Corticosterone; Dentate Gyrus; Male; Rats; Rats, Sprague-	2003
Effect of sleep and sleep deprivation on serotonergic neurotransmission in the hippocampus: a combined in vivo microdialysis/EEG study in rats. The European journal of neuroscience, 2003, Volume: 17, Issue:9 Topics: Adrenalectomy; Animals; Corticosterone; Electroencephalography; Extracellular Space; Hippocampus; Ma	2003
Dietary fish oil does not protect rats exposed to restraint or sleep deprivation stress. Physiology & behavior, 2003, Volume: 78, Issue:4-5 Topics: Adipose Tissue; Animals; Body Composition; Body Temperature; Body Weight; Cognition Disorders; Corti	2003
Palatable solutions during paradoxical sleep deprivation: reduction of hypothalamic-pituitary-adrenal axis activity and lack of effect on energy imbalance. Journal of neuroendocrinology, 2003, Volume: 15, Issue:9 Topics: Adrenal Glands; Adrenocorticotropic Hormone; Animals; Blood Glucose; Body Weight; Corticosterone; Dr	2003
Sleep-deprived mice show altered cytokine production manifest by perturbations in serum IL-1ra, TNFa, and IL-6 levels. Brain, behavior, and immunity, 2003, Volume: 17, Issue:6 Topics: Acebutolol; Analysis of Variance; Animals; Corticosterone; Interleukin 1 Receptor Antagonist Protein	2003
Sleep deprivation effects on growth factor expression in neonatal rats: a potential role for BDNF in the mediation of delta power. Journal of neurophysiology, 2004, Volume: 91, Issue:4 Topics: Age Factors; Animals; Animals, Newborn; Blotting, Northern; Brain-Derived Neurotrophic Factor; Cereb	2004
Reductions in circulating anabolic hormones induced by sustained sleep deprivation in rats. American journal of physiology. Endocrinology and metabolism, 2004, Volume: 286, Issue:6 Topics: Animals; Corticosterone; Eating; Growth Hormone; Hormones; Hypothalamo-Hypophyseal System; Insulin-L	2004
Total sleep deprivation decreases immobility in the forced-swim test. Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology, 2004, Volume: 29, Issue:6 Topics: Analysis of Variance; Animals; Antidepressive Agents; Behavior, Animal; Corticosterone; Depression;	2004
Rhythms of ghrelin, leptin, and sleep in rats: effects of the normal diurnal cycle, restricted feeding, and sleep deprivation. American journal of physiology. Regulatory, integrative and comparative physiology, 2004, Volume: 287, Issue:5 Topics: Animals; Circadian Rhythm; Corticosterone; Electrodes, Implanted; Electroencephalography; Feeding Be	2004
Endocrinological and catecholaminergic alterations during sleep deprivation and recovery in male rats. Journal of sleep research, 2005, Volume: 14, Issue:1 Topics: Adrenocorticotropic Hormone; Animals; Catecholamines; Corticosterone; Hypothalamo-Hypophyseal System	2005
Sleep restriction suppresses neurogenesis induced by hippocampus-dependent learning. Journal of neurophysiology, 2005, Volume: 94, Issue:6 Topics: Animals; Behavior, Animal; Bromodeoxyuridine; Cell Count; Cell Survival; Chi-Square Distribution; Co	2005
Rapid eye movement sleep deprivation revives a form of developmentally regulated synaptic plasticity in the visual cortex of post-critical period rats. Neuroscience letters, 2006, Jan-02, Volume: 391, Issue:3 Topics: Animals; Animals, Newborn; Corticosterone; Critical Period, Psychological; Homeostasis; Long-Term Po	2006
Effects of sleep deprivation on cardiac autonomic and pituitary-adrenocortical stress reactivity in rats. Psychoneuroendocrinology, 2006, Volume: 31, Issue:2 Topics: Adrenocorticotropic Hormone; Animals; Arrhythmias, Cardiac; Autonomic Nervous System; Body Temperatu	2006
The effects of paradoxical sleep deprivation on estrous cycles of the female rats. Hormones and behavior, 2006, Volume: 49, Issue:4 Topics: Animals; Corticosterone; Estradiol; Estrone; Estrous Cycle; Female; Progesterone; Rats; Rats, Wistar	2006
Eliminating the adrenal stress response does not affect sleep deprivation-induced acquisition deficits in the water maze. Life sciences, 2006, May-08, Volume: 78, Issue:24 Topics: Adrenal Glands; Adrenalectomy; Animals; Corticosterone; Drug Implants; Male; Maze Learning; Memory;	2006
Sleep deprivation impairs object recognition in mice. Neurobiology of learning and memory, 2006, Volume: 85, Issue:3 Topics: Adrenocorticotropic Hormone; Animals; Cognition Disorders; Corticosterone; Mice; Psychomotor Perform	2006
Paradoxical sleep deprivation and sleep recovery: effects on the hypothalamic-pituitary-adrenal axis activity, energy balance and body composition of rats. Journal of neuroendocrinology, 2006, Volume: 18, Issue:4 Topics: Adipose Tissue; Adrenocorticotropic Hormone; Analysis of Variance; Animals; Blood Glucose; Body Comp	2006
Hippocampal synaptic plasticity and spatial learning are impaired in a rat model of sleep fragmentation. The European journal of neuroscience, 2006, Volume: 23, Issue:10 Topics: Animals; Corticosterone; Electroencephalography; Electromyography; Hippocampus; Long-Term Potentiati	2006
Differential effects of chronic partial sleep deprivation and stress on serotonin-1A and muscarinic acetylcholine receptor sensitivity. Journal of sleep research, 2006, Volume: 15, Issue:4 Topics: Adrenal Glands; Adrenalectomy; Animals; Arousal; Body Temperature Regulation; Brain; Corticosterone;	2006
Sleep deprivation inhibits adult neurogenesis in the hippocampus by elevating glucocorticoids. Proceedings of the National Academy of Sciences of the United States of America, 2006, Dec-12, Volume: 103, Issue:50 Topics: Aging; Animals; Cell Proliferation; Corticosterone; Glucocorticoids; Hippocampus; Male; Rats; Rats,	2006
Effects of acute and chronic sleep loss on immune modulation of rats. American journal of physiology. Regulatory, integrative and comparative physiology, 2007, Volume: 293, Issue:1 Topics: Animals; Antibody Formation; Complement C3; Complement C4; Complement System Proteins; Corticosteron	2007
Contributions of neuronal prion protein on sleep recovery and stress response following sleep deprivation. Brain research, 2007, Jul-16, Volume: 1158 Topics: Adrenocorticotropic Hormone; Analysis of Variance; Animals; Circadian Rhythm; Corticosterone; Electr	2007
Hippocampal neurogenesis is reduced by sleep fragmentation in the adult rat. Neuroscience, 2007, Aug-10, Volume: 148, Issue:1 Topics: Adrenalectomy; Age Factors; Aging; Animals; Biomarkers; Bromodeoxyuridine; Cell Count; Cell Prolifer	2007
Effect of sleep deprivation on the corticosterone secretion in an experimental model of autoimmune disease. Neuroimmunomodulation, 2007, Volume: 14, Issue:2 Topics: Animals; Corticosterone; Disease Models, Animal; Female; Hypothalamo-Hypophyseal System; Lupus Eryth	2007
Distinct behavioral and neurochemical alterations induced by intermittent hypoxia or paradoxical sleep deprivation in rats. Progress in neuro-psychopharmacology & biological psychiatry, 2008, Jan-01, Volume: 32, Issue:1 Topics: Analysis of Variance; Animals; Behavior, Animal; Biogenic Monoamines; Brain Chemistry; Corticosteron	2008
Rapid eye movement sleep deprivation contributes to reduction of neurogenesis in the hippocampal dentate gyrus of the adult rat. Sleep, 2008, Volume: 31, Issue:2 Topics: Age Factors; Animals; Cell Proliferation; Corticosterone; Dentate Gyrus; Dideoxynucleosides; Electro	2008
Sleep deprivation can inhibit adult hippocampal neurogenesis independent of adrenal stress hormones. American journal of physiology. Regulatory, integrative and comparative physiology, 2008, Volume: 294, Issue:5 Topics: Administration, Oral; Adrenal Cortex Hormones; Adrenalectomy; Animals; Antimetabolites; Bromodeoxyur	2008
Application of experimental stressors in laboratory rodents. Current protocols in neuroscience, 2006, Volume: Chapter 8 Topics: Acoustic Stimulation; Adrenocorticotropic Hormone; Animals; Behavior, Animal; Corticosterone; Diseas	2006
Glucocorticoids are not responsible for paradoxical sleep deprivation-induced memory impairments. Sleep, 2008, Volume: 31, Issue:4 Topics: Adrenocorticotropic Hormone; Animals; Conditioning, Psychological; Corticosterone; Drug Administrati	2008
Ultradian rhythm of growth hormone secretion and sleep in the adult male rat. The Journal of physiology, 1984, Volume: 353 Topics: Animals; Corticosterone; Growth Hormone; Male; Periodicity; Rats; Rats, Inbred Strains; Sleep; Sleep	1984
The effect of sleep deprivation and recovery sleep on plasma corticosterone in the rat. Neuroscience letters, 1983, Mar-14, Volume: 35, Issue:3 Topics: Animals; Circadian Rhythm; Corticosterone; Male; Rats; Rats, Inbred Strains; Sleep; Sleep Deprivatio	1983
Correlation of growth hormone secretion to sleep in the immature rat. The Journal of physiology, 1983, Volume: 339 Topics: Animals; Corticosterone; Electroencephalography; Growth Hormone; Male; Periodicity; Rats; Rats, Inbr	1983
Glutamine synthetase modulation in the brain of rats subjected to deprivation of paradoxical sleep. Brain research. Molecular brain research, 1994, Volume: 22, Issue:1-4 Topics: Animals; Brain; Cerebral Cortex; Corticosterone; Frontal Lobe; Glial Fibrillary Acidic Protein; Glut	1994
Sleep deprivation reduces the citalopram-induced inhibition of serotoninergic neuronal firing in the nucleus raphe dorsalis of the rat. Journal of sleep research, 1996, Volume: 5, Issue:4 Topics: Animals; Citalopram; Corticosterone; Male; Raphe Nuclei; Rats; Rats, Wistar; Selective Serotonin Reu	1996
Effects of adrenalectomy and subsequent corticosterone replacement on rat sleep state and EEG power spectra. The American journal of physiology, 1998, Volume: 275, Issue:2 Topics: Adrenalectomy; Analysis of Variance; Animals; Body Temperature; Corticosterone; Darkness; Electroenc	1998
Increased ACTH and corticosterone secretion induced by different methods of paradoxical sleep deprivation. Journal of sleep research, 1998, Volume: 7, Issue:4 Topics: Adrenocorticotropic Hormone; Animals; Corticosterone; Hypothalamo-Hypophyseal System; Male; Pituitar	1998
Social stability attenuates the stress in the modified multiple platform method for paradoxical sleep deprivation in the rat. Physiology & behavior, 2000, Volume: 68, Issue:3 Topics: Adrenocorticotropic Hormone; Animals; Arousal; Corticosterone; Eating; Habituation, Psychophysiologi	2000
Effects of social stimuli on sleep in mice: non-rapid-eye-movement (NREM) sleep is promoted by aggressive interaction but not by sexual interaction. Brain research, 2001, Jul-13, Volume: 907, Issue:1-2 Topics: Aggression; Animals; Circadian Rhythm; Conflict, Psychological; Corticosterone; Estrus; Female; Male	2001
Sleep deprivation elevates plasma corticosterone levels in neonatal rats. Neuroscience letters, 2001, Nov-23, Volume: 315, Issue:1-2 Topics: Aging; Animals; Animals, Newborn; Corticosterone; Electroencephalography; Radioimmunoassay; Rats; Ra	2001
Paradoxical sleep deprivation facilitates subsequent corticosterone response to a mild stressor in rats. Neuroscience letters, 2002, Mar-01, Volume: 320, Issue:1-2 Topics: Adrenocorticotropic Hormone; Animals; Corticosterone; Feedback; Hypothalamo-Hypophyseal System; Male	2002
Sleep restriction alters the hypothalamic-pituitary-adrenal response to stress. Journal of neuroendocrinology, 2002, Volume: 14, Issue:5 Topics: Acute Disease; Adrenocorticotropic Hormone; Animals; Chronic Disease; Circadian Rhythm; Corticostero	2002
Loss of socialized patterns of behavior in mouse colonies following daily sleep disturbance during maturation. Physiology & behavior, 1977, Volume: 18, Issue:1 Topics: Animals; Behavior, Animal; Blood Pressure; Brain; Corticosterone; Dominance-Subordination; Female; M	1977
Circadian patterns of melatonin, corticosterone, and progesterone in male rats subjected to chronic stress: effect of constant illumination. Journal of pineal research, 1991, Volume: 11, Issue:2 Topics: Animals; Circadian Rhythm; Corticosterone; Lighting; Male; Melatonin; Motor Activity; Pineal Gland;	1991
Melatonin and adrenal cortex steroid production: in vivo and in vitro studies. Folia histochemica et cytobiologica, 1991, Volume: 29, Issue:1 Topics: Adrenal Cortex Hormones; Animals; Circadian Rhythm; Corticosterone; Light; Male; Melatonin; Pineal G	1991
Prenatal stress and emotional response of adult offspring. Physiology & behavior, 1991, Volume: 49, Issue:3 Topics: Adrenal Glands; Animals; Arousal; Corticosterone; Electroencephalography; Emotions; Exploratory Beha	1991
Circadian rhythm of serotonin binding in rat brain--II. Influence of sleep deprivation and imipramine. Chronobiology international, 1986, Volume: 3, Issue:2 Topics: Adrenocorticotropic Hormone; Animals; Brain; Circadian Rhythm; Corticosterone; Imipramine; Male; Rat	1986
Norepinephrine turnover in brain and stress reactions in rats during paradoxical sleep deprivation. Life sciences, 1969, Oct-01, Volume: 8, Issue:19 Topics: Adrenal Glands; Animals; Brain; Corticosterone; Male; Norepinephrine; Organ Size; Rats; Sleep Depriv	1969
[Stress during experimental deprivation of paradoxical sleep]. Journal de physiologie, 1970, Volume: 62 Suppl 1 Topics: Animals; Corticosterone; Norepinephrine; Potassium; Rats; Sleep Deprivation; Sleep, REM; Stress, Phy	1970
Change of plasma corticosterone during sleep in cats. Folia psychiatrica et neurologica japonica, 1968, Volume: 22, Issue:4 Topics: Animals; Cats; Corticosterone; Electrocardiography; Electroencephalography; Electromyography; Electr	1968

corticosterone and Inadequate Sleep

Research Excerpts

Research

Studies (156)

Authors

Clinical Trials (1)

Trial Overview

Reviews

Trials

Other Studies

Authors	Studies
Kang, JY	1
Kim, DY	2
Lee, JS	1
Hwang, SJ	1
Kim, GH	1
Hyun, SH	1
Son, CG	1
Ehichioya, DE	1
Tahajjul Taufique, SK	1
Anigbogu, CN	1
Jaja, SI	1
Chen, P	1
Wu, H	1
Yao, H	1
Zhang, J	3
Fan, W	1
Chen, Z	2
Su, W	1
Wang, Y	1
Li, P	1
Fernandes, GL	1
Araujo, P	5
Tufik, S	33
Andersen, ML	15
Huang, B	1
Sun, B	1
Yang, R	1
Liang, S	1
Li, X	1
Guo, Y	1
Meng, Q	1
Fu, Y	1
Li, W	2
Zhao, P	1
Gong, M	1
Shi, Y	1
Song, L	1
Wang, S	1
Yuan, F	1
Shi, H	1
Moraes, DA	1
Machado, RB	5
Koban, M	1
Hoffman, GE	1
Suchecki, D	14
Ensminger, DC	1
Wheeler, ND	1
Al Makki, R	1
Eads, KN	1
Ashley, NT	4
Houser, MM	1
Coborn, JE	1
Sinton, CM	1
Perez-Leighton, CE	1
Teske, JA	1
Li, J	1
Peng, X	1
Zhong, H	1
Liu, S	1
Shi, J	1
Zhou, X	1
Li, B	1
Hodinka, BL	1
Chiem, E	1
Nichols, I	1
Van, C	1
Kori, S	1
Paul, K	1
Khan, S	1
Kaur, M	1
Mallick, BN	1
Yuan, RK	1
Lopez, MR	1
Ramos-Alvarez, MM	1
Normandin, ME	1
Thomas, AS	1
Uygun, DS	1
Cerda, VR	1
Grenier, AE	1
Wood, MT	1
Gagliardi, CM	1
Guajardo, H	1
Muzzio, IA	1
Farajdokht, F	1
Vatandoust, SM	1
Hosseini, L	1
Fekri, K	1
Rahigh Aghsan, S	1
Majdi, A	1
Sadigh-Eteghad, S	1
Mahmoudi, J	1
Dalanon, J	1
Chikahisa, S	1
Shiuchi, T	1
Shimizu, N	1
Chavan, P	1
Suzuki, Y	1
Okura, K	1
Séi, H	1
Matsuka, Y	1
Gao, T	1
Wang, Z	2
Cao, J	1
Dong, Y	1
Chen, Y	1
da Silva Rocha-Lopes, J	1
Alexandre, C	1
Latremoliere, A	1
Ferreira, A	1
Miracca, G	1
Yamamoto, M	1
Scammell, TE	1
Woolf, CJ	1
Han, C	1
Li, F	1
Ma, J	1
Liu, Y	1
Mao, Y	1
Song, Y	1
Guo, S	1
Liu, J	1
Valvassori, SS	1
Resende, WR	1
Dal-Pont, G	1
Sangaletti-Pereira, H	1
Gava, FF	1
Peterle, BR	1
Carvalho, AF	1
Varela, RB	1
Dal-Pizzol, F	1
Quevedo, J	1
Kim, D	1
Kim, CY	1
Koo, H	1
Heo, Y	1
Cheon, K	1
Rajizadeh, MA	1
Esmaeilpour, K	3
Masoumi-Ardakani, Y	1
Bejeshk, MA	1
Shabani, M	4
Nakhaee, N	1
Ranjbar, MP	1
Borzadaran, FM	1
Sheibani, V	6
Baratta, AM	1
Buck, SA	1
Buchla, AD	1
Fabian, CB	1
Chen, S	2
Mong, JA	1
Pocivavsek, A	1
Bellesi, M	1
Haswell, JD	1
de Vivo, L	1
Marshall, W	1
Roseboom, PH	1
Tononi, G	1
Cirelli, C	1
Yang, CK	2
Tsai, HD	3
Wu, CH	2
Cho, CL	1
Grubac, Z	1
Sutulovic, N	1
Ademovic, A	1
Velimirovic, M	1
Rasic-Markovic, A	1
Macut, D	1
Petronijevic, N	1
Stanojlovic, O	1
Hrncic, D	1
Takatsu-Coleman, AL	1
Zanin, KA	1
Patti, CL	1
Zager, A	6
Lopes-Silva, LB	1
Longo, BM	1
Frussa-Filho, R	1
Vecsey, CG	1
Wimmer, ME	1
Havekes, R	3
Park, AJ	1
Perron, IJ	1
Meerlo, P	12
Abel, T	1
Rothman, SM	1
Herdener, N	1
Frankola, KA	1
Mughal, MR	1
Mattson, MP	1
Sahu, S	1
Kauser, H	1
Ray, K	1
Kishore, K	1
Kumar, S	1
Panjwani, U	1
Joukar, S	1
Ghorbani-Shahrbabaki, S	1
Hajali, V	4
Naghsh, N	1
Naidoo, N	1
Davis, JG	2
Zhu, J	1
Yabumoto, M	1
Singletary, K	1
Brown, M	1
Galante, R	1
Agarwal, B	1
Baur, JA	2
Mueller, AD	3
Parfyonov, M	1
Pavlovski, I	1
Marchant, EG	1
Mistlberger, RE	3
Albu, S	1
Romanowski, CP	1
Letizia Curzi, M	1
Jakubcakova, V	1
Flachskamm, C	3
Gassen, NC	1
Hartmann, J	1
Schmidt, MV	1
Schmidt, U	1
Rein, T	1
Holsboer, F	3
Hausch, F	1
Paez-Pereda, M	1
Kimura, M	2
Li, Y	1
Panossian, LA	1
Zhu, Y	2
Zhan, G	2
Chou, YT	1
Fenik, P	2
Bhatnagar, S	1
Piel, DA	1
Beck, SG	1
Veasey, S	2
Ito, T	1
Maeda, T	1
Goto, K	1
Miura, T	1
Wakame, K	1
Nishioka, H	1
Sato, A	1
Page, GG	1
Opp, MR	1
Kozachik, SL	1
Panossian, L	1
Wang, MM	1
Reid, S	1
Lai, D	1
Nakada, T	1
Kato, T	1
Numabe, Y	1
Ma, C	1
Wu, G	1
Wang, P	1
Wu, L	1
Zhu, G	1
Zhao, H	1
Saadati, H	3
Esmaeili-Mahani, S	2
Nazeri, M	1
Mazhari, S	1
Arthaud, S	1
Varin, C	1
Gay, N	1
Libourel, PA	1
Chauveau, F	2
Fort, P	1
Luppi, PH	1
Peyron, C	3
Mahani, SE	1
Hajializadeh, Z	1
Aliabadi, HP	1
Dumaine, JE	2
Wallace, E	1
Kim, KM	1
Blair Braden, B	1
Williams, J	1
Jasso, K	1
Garcia, A	1
Rho, JM	1
Bimonte-Nelson, H	1
Maganti, R	1
Gross, BA	1
Vanderheyden, WM	1
Urpa, LM	1
Davis, DE	1
Fitzpatrick, CJ	1
Prabhu, K	1
Poe, GR	1
Ghazvini, H	1
Ghadiri, T	1
Valizadeh, T	1
Wu, RS	2
Lin, TR	1
Akindele, OO	1
Kunle-Alabi, OT	1
Adeyemi, DH	1
Oghenetega, BO	1
Raji, Y	1
Mônico-Neto, M	3
Antunes, HK	2
Lee, KS	3
Phillips, SM	2
Giampá, SQ	2
Souza, Hde S	1
Dáttilo, M	2
Medeiros, A	1
de Moraes, WM	1
de Mello, MT	5
Gonzalez-Castañeda, RE	1
Galvez-Contreras, AY	1
Martínez-Quezada, CJ	1
Jauregui-Huerta, F	1
Grcia-Estrada, J	1
Ramos-Zuñiga, R	1
Luquin, S	1
Gonzalez-Perez, O	1
de Sá Souza, H	1
Antunes, HKM	1
de Campos Giampa, SQ	1
Pardo, GV	1
Goularte, JF	1
Hoefel, AL	1
de Castro, AL	1
Kucharski, LC	1
da Rosa Araujo, AS	1
Lucion, AB	1
Sá-Nunes, A	1
Bizzarro, B	1
Egydio, F	1
Barros, MS	1
Sesti-Costa, R	1
Soares, EM	1
Pina, A	1
Russo, M	1
Faccioli, LH	1
Solanki, N	1
Atrooz, F	1
Asghar, S	1
Salim, S	2
Sams, DW	1
Brown, AC	1
Brianza-Padilla, M	1
Bonilla-Jaime, H	1
Almanza-Pérez, JC	1
López-López, AL	1
Sánchez-Muñoz, F	1
Vázquez-Palacios, G	1
Kim, LJ	1
Coelho, FM	1
Tedesco, RC	1
Souza, RB	1
Na, JR	1
Oh, DR	1
Han, S	1
Kim, YJ	1
Choi, E	1
Bae, D	1
Oh, DH	1
Lee, YH	1
Kim, S	1
Jun, W	1
Jha, PK	1
Foppen, E	1
Kalsbeek, A	1
Challet, E	1
Choi, JH	1
Lee, SH	1
Bae, JH	1
Shim, JS	1
Park, HS	1
Kim, YS	1
Shin, C	1
Mccarthy, A	1
Loomis, S	1
Eastwood, B	1
Wafford, KA	1
Winsky-Sommerer, R	2
Gilmour, G	1
Lasisi, DT	1
Shittu, ST	1
Meludu, CC	1
Salami, AA	1
Souza, HS	1
Koike, MK	1
Dos Santos, AA	1
Antonio, EL	1
Serra, AJ	1
Tucci, PJ	1
McGuire, M	1
Tartar, JL	3
Cao, Y	1
McCarley, RW	3
White, DP	1
Strecker, RE	3
Ling, L	1
Ward, CP	2
Cordeira, JW	1
Legare, SL	1
Blanchette, AJ	1
Everson, CA	3
Thalacker, CD	1
Hogg, N	1
Novati, A	3
Roman, V	2
Cetin, T	1
Hagewoud, R	5
den Boer, JA	1
Luiten, PG	2
Ribeiro, DA	2
Bergamaschi, CT	1
Alvarenga, TA	2
Silva, A	2
Campos, RR	1
Galvão, Mde O	1
Sinigaglia-Coimbra, R	1
Kawakami, SE	1
Lima, MM	1
Reksidler, AB	1
Yehuda, S	1
Sredni, B	1
Carasso, RL	1
Kenigsbuch-Sredni, D	1
Müller-Preuss, P	1
Lu, A	1
Wiesner, E	1
Wurst, W	1
Deussing, JM	1
Chang, HM	1
Wu, UI	1
Lan, CT	1
Tenorio, NM	1
Calegare, BF	1
Fernandes, L	1
D'Almeida, V	3
Gao, B	1
Cam, E	1
Jaeger, H	1
Zunzunegui, C	1
Sarnthein, J	1
Bassetti, CL	1
Mongrain, V	1
Hernandez, SA	1
Pradervand, S	1
Dorsaz, S	1
Curie, T	1
Hagiwara, G	1
Gip, P	1
Heller, HC	4
Franken, P	1
Pierard, C	1
Liscia, P	1
Coutan, M	1
Corio, M	1
Krazem, A	1
Beracochea, D	1
Bultsma, LJ	1
Barf, RP	3
Koolhaas, JM	2
Rosa Neto, JC	1
Lira, FS	1
Venancio, DP	2
Cunha, CA	1
Oyama, LM	1
Pimentel, GD	1
Oller do Nascimento, CM	1
Santos, RV	1
Whitcomb, SN	1
Heeringa, AN	1
Mazaro-Costa, R	2
Tiba, PA	4
Hogenelst, K	1
Weinreder, P	1
Van der Zee, EA	1
Leenaars, CH	2
Dematteis, M	1
Joosten, RN	1
Eggels, L	1
Sandberg, H	1
Schirris, M	1
Feenstra, MG	1
Van Someren, EJ	2
Wu, JL	1
Yang, JG	1
Huang, CC	1
Chen, KB	1
Fang, KH	1
Longordo, F	1
Fan, J	1
Steimer, T	1
Kopp, C	1
Lüthi, A	1
Vollert, C	1
Zagaar, M	1
Hovatta, I	1
Taneja, M	1
Vu, A	1
Dao, A	1
Levine, A	1
Alkadhi, K	1
Zant, JC	1
Kostin, A	1
Porkka-Heiskanen, T	1
Mear, RJ	1
Maia, LO	1
Júnior, WD	1
Carvalho, LS	1
Jesus, LR	1
Paiva, GD	1
Costa, MF	1
Szabo, A	1
Desprez, T	1
Scheurink, AJ	2
Cohen, S	1
Kozlovsky, N	1
Matar, MA	1
Kaplan, Z	1
Zohar, J	1
Cohen, H	1
Baud, MO	1
Magistretti, PJ	1
Petit, JM	1
Grønli, J	1
Dagestad, G	1
Milde, AM	1
Murison, R	2
Bramham, CR	1
Vilamaior, PS	1
Santos, FC	1
Taboga, SR	1
Van Dijk, G	1
Hoffmann, K	1
Hulshof, HJ	1
Fuchs, E	1
Hirotsu, C	1
Rydlewski, M	1
Araújo, MS	1
Melgarejo-Gutiérrez, M	1
Acosta-Peña, E	1
Venebra-Muñoz, A	1
Escobar, C	1
Santiago-García, J	1
Garcia-Garcia, F	1
Campbell, IG	1
Guinan, MJ	1
Horowitz, JM	1
Bignotto, M	2
Guzmán-Marín, R	3
Suntsova, N	3
Stewart, DR	1
Gong, H	1
Szymusiak, R	3
McGinty, D	3
Peñalva, RG	1
Lancel, M	1
Reul, JM	1
Linthorst, AC	1
Papakonstantinou, E	1
Ryan, DH	1
Harris, RB	1
Antunes, J	1
Hu, J	1
Gorczynski, CP	1
Gorczynski, LY	1
Kai, Y	1
Lee, L	1
Manuel, J	1
Gorczynski, RM	1
Hairston, IS	3
Denning, DP	2
Ruby, NF	2
Flores, J	1
Sapolsky, RM	3
O'Hara, BF	1
Crowley, WR	1
Lopez-Rodriguez, F	1
Kim, J	1
Poland, RE	1
Bodosi, B	1
Gardi, J	1
Hajdu, I	1
Szentirmai, E	1
Obal, F	1
Krueger, JM	1
Martins, PJ	1
Little, MT	1
Scanlon, MD	1
Barakat, MT	1
Palmer, TD	1
Shaffery, JP	1
Lopez, J	1
Bissette, G	1
Roffwarg, HP	1
Sgoifo, A	1
Buwalda, B	1
Roos, M	1
Costoli, T	1
Merati, G	1
Antunes, IB	3
Baracat, EC	1
Ruskin, DN	1
Dunn, KE	1
Billiot, I	1
Bazan, NG	1
LaHoste, GJ	1
Palchykova, S	1
Dürr, R	1
Tobler, I	2
Hipólide, DC	2
Pimentel de Carvalho Pinto, A	1
Chiconelli Faria, E	1
Luz, J	1
McKenna, JT	1
Thakkar, M	1
Arrigoni, E	1
Brown, RE	1
Mirescu, C	1
Peters, JD	1
Noiman, L	1
Gould, E	1
Ruiz, FS	1
Sánchez-Alavez, M	1
Conti, B	1
Moroncini, G	1
Criado, JR	1
Bashir, T	2
Palma, BD	1
Catallani, B	1
Perry, JC	1
Nienhuis, R	1
Pollock, MS	1
Lieblich, SE	1
Epp, JR	1
Galea, LA	1
Heinrichs, SC	1
Koob, GF	1
Oliveira, MG	1
Rossi, VC	1
Kimura, F	2
Tsai, CW	2
Ursin, R	1
Ursin, H	1
Borbély, AA	1
Kawakami, M	1
Sallanon-Moulin, M	1
Touret, M	1
Didier-Bazes, M	1
Roudier, V	1
Fages, C	1
Tardy, M	1
Jouvet, M	1
Prévot, E	1
Maudhuit, C	1
Le Poul, E	1
Hamon, M	1
Adrien, J	1
Bradbury, MJ	1
Dement, WC	1
Edgar, DM	1
Medeiros, R	1
Lenneberg-Hoshino, C	1
Hoshino, K	1
Lobo, LL	1
Turek, FW	2
Brooke, S	1
Koehl, M	1
van der Borght, K	1
Watson, FM	1
Henry, JP	1
Persengiev, S	1
Kanchev, L	1
Vezenkova, G	1
Persengiev, SP	1
Kanchev, LN	1
Palermo Neto, J	1
Wesemann, W	1
Rotsch, M	1
Schulz, E	1
Zöfel, P	1
Mark, J	2
Heiner, L	2
Mandel, P	1
Godin, Y	2
Takahashi, S	1
Honda, Y	1
Takahashi, K	1
Okuma, T	1