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Results: 1-9 |
Results: 9
Differential sensitivity to the wake-promoting actions of norepinephrine within the medial preoptic area and the substantia innominata
Authors: Berridge, CW O'Neill, J
Citation: Cw. Berridge et J. O'Neill, Differential sensitivity to the wake-promoting actions of norepinephrine within the medial preoptic area and the substantia innominata, BEHAV NEURO, 115(1), 2001, pp. 165-174
Wake-promoting and sleep-suppressing actions of hypocretin (orexin): Basalforebrain sites of action
Authors: Espana, RA Baldo, BA Kelley, AE Berridge, CW
Citation: Ra. Espana et al., Wake-promoting and sleep-suppressing actions of hypocretin (orexin): Basalforebrain sites of action, NEUROSCIENC, 106(4), 2001, pp. 699-715
Amphetamine-induced activation of forebrain EEG is prevented by noradrenergic beta-receptor blockade in the halothane-anesthetized rat
Authors: Berridge, CW Morris, MF
Citation: Cw. Berridge et Mf. Morris, Amphetamine-induced activation of forebrain EEG is prevented by noradrenergic beta-receptor blockade in the halothane-anesthetized rat, PSYCHOPHAR, 148(3), 2000, pp. 307-313
Synergistic sedative effects of noradrenergic alpha(1)- and beta-receptor blockade on forebrain electroencephalographic and behavioral indices
Authors: Berridge, CW Espana, RA
Citation: Cw. Berridge et Ra. Espana, Synergistic sedative effects of noradrenergic alpha(1)- and beta-receptor blockade on forebrain electroencephalographic and behavioral indices, NEUROSCIENC, 99(3), 2000, pp. 495-505
Contrasting effects of noradrenergic beta-receptor blockade within the medial septal area on forebrain electroencephalographic and behavioral activity state in anesthetized and unanesthetized rat
Authors: Berridge, CW Wifler, K
Citation: Cw. Berridge et K. Wifler, Contrasting effects of noradrenergic beta-receptor blockade within the medial septal area on forebrain electroencephalographic and behavioral activity state in anesthetized and unanesthetized rat, NEUROSCIENC, 97(3), 2000, pp. 543-552
Engagement in a non-escape (displacement) behavior elicits a selective andlateralized suppression of frontal cortical dopaminergic utilization in stress
Authors: Berridge, CW Mitton, E Clark, W Roth, RH
Citation: Cw. Berridge et al., Engagement in a non-escape (displacement) behavior elicits a selective andlateralized suppression of frontal cortical dopaminergic utilization in stress, SYNAPSE, 32(3), 1999, pp. 187-197
Relationship between locus coeruleus discharge rates and rates of norepinephrine release within neocortex as assessed by in vivo microdialysis
Authors: Berridge, CW Abercrombie, ED
Citation: Cw. Berridge et Ed. Abercrombie, Relationship between locus coeruleus discharge rates and rates of norepinephrine release within neocortex as assessed by in vivo microdialysis, NEUROSCIENC, 93(4), 1999, pp. 1263-1270
Amphetamine acts within the medial basal forebrain to initiate and maintain alert waking
Authors: Berridge, CW O'Neil, J Wifler, K
Citation: Cw. Berridge et al., Amphetamine acts within the medial basal forebrain to initiate and maintain alert waking, NEUROSCIENC, 93(3), 1999, pp. 885-896
Stress-induced behaviors require the corticotropin-releasing hormone (CRH)receptor, but not CRH
Authors: Weninger, SC Dunn, AJ Muglia, LJ Dikkes, P Miczek, KA Swiergiel, AH Berridge, CW Majzoub, JA
Citation: Sc. Weninger et al., Stress-induced behaviors require the corticotropin-releasing hormone (CRH)receptor, but not CRH, P NAS US, 96(14), 1999, pp. 8283-8288
Risultati: 1-9 |