RIGIDITY IN RATS DUE TO ANEMIC DECEREBRATION AND THE EFFECT OF CHLORPROMAZINE
スポンサーリンク
概要
著者
-
Fukuda Hideomi
Department Of Pharmacology College Of Pharmacy Nihon University
-
Kudo Yoshihisa
Department Of Chemical Pharmacology Faculty Of Pharmaceutical Sciences Nagoya City University:(prese
-
Ito Tsugutaka
Department Of Safety Pharmacology Developmental Research Laboratories Dainippon Pharmaceutical Co. L
-
HASHIMOTO Satoe
Department of Chemical Pharmacology, Faculty of Pharmaceutical Sciences, Nagoya City University
-
ITO Tsugutaka
Department of Chemical Pharmacology, Faculty of Pharmaceutical Sciences, Nagoya City University
-
KUDO Yoshihisa
Department of Chemical Pharmacology, Faculty of Pharmaceutical Sciences, Nagoya City University
-
FUKUDA Hideomi
Department of Chemical Pharmacology, Faculty of Pharmaceutical Sciences, Nagoya City University
関連論文
- Comparative study of survival signal withdrawal- and 4-hydroxynonenal-induced cell death in cerebellar granule cells
- EFFECTS OF VALPROIC ACID ON SPINAL REFLEXES AND [^3H]MUSCIMOL AND [^3H]DIAZEPAM BINDING IN BRAIN MEMBRANES IN RATS
- IMPAIRMENT OF VISUAL SYSTEM OF BEAGLES ORALLY INGESTING CLIOQUINOL
- DETERIORATION OF SPINAL REFLEX IN BEAGLES ORALLY INGESTING CLIOQUINOL
- CENTRALLY SPECIFIC AND GABA-INSENSITIVE INHIBITION OF BENZODIAZEPINE BINDING BY PROSTAGLANDINS (A_1,A_2 AND B_2)
- γ-AMINOBUTYRIC ACID AND BENZODIAZEPINE RECEPTOR INTERACTION
- EFFECTS OF BARBITURATES ON THE DECEREBRATE RIGIDIIY IN RATS
- QT PRODACT : Evaluation of the Potential of Compounds to Cause QT Interval Prolongation by Action Potential Assays Using Guinea-Pig Papillary Muscles
- QT PRODACT : A Multi-site Study of In Vitro Action Potential Assays on 21 Compounds in Isolated Guinea-Pig Papillary Muscles
- Correlation between the circadian sleep propensity rhythm and hormonal rhythms under ultra-short sleep-wake cycle
- Diurnal fluctuation of sleep propensity across the menstrual cycle
- Melatonin treatment for circadian rhythm sleep disorders
- Structure-Activity Relationships of Phenylethylamine Analogs in Their Serotonergic Depressant Effects on the Spinal Monosynaptic Reflex in Rats
- Enhancement of Spinal Monosynaptic Reflexes with Phenylethylamine and Related Drugs through Descending Noradrenergic Neurons
- Roles of γ-Aminobutyric Acid_B (GABA_B) and γ-Hydroxybutyric Acid Receptors in Hippocampal Long-Term Potentiation and Pathogenesis of Absence Seizures
- Pharmacological profiles of generalized absence seizures in lethargic, stargazer and γ-hydroxybutyrate-treated model mice
- PHARMACOLOGICAL EVALUATION OF GARENOXACIN, A NOVEL DES-F(6)-QUINOLONE ANTIMICROBIAL AGENT : EFFECTS ON THE CENTRAL NERVOUS SYSTEM
- EFFECT OF NMDA RECEPTOR ANTAGONISTS ON PROTEIN KINASE ACTIVATED BY CHRONIC MORPHINE TREATMENT
- INHIBITORY EFFECT OF THE NMDA RECEPTOR ANTAGONIST, DIZOCILPINE (MK-801), ON THE DEVELOPMENT OF MORPHINE DEPENDENCE
- SPINAL REFLEXES IN CHINOFORM-ADMINISTERED RATS
- SPINAL REFLEXES IN RATS SUFFERED FROM MOTOR INCOORDINATION BY CHINOFORM
- Effects of Mosapride Citrate, 5-HT_4 Receptor Agonist, on Colonic Motility in Conscious Guinea Pigs
- Effects of quinolone antibacterial agents and related compounds on GABA_A receptor chloride ion channels.
- DETERIORATION OF SPINAL REFLEX IN QUAILS ORALLY INGESTING CLIOQUINOL
- EFFECTS OF METABOLIC INHIBITORS AND OUABAIN ON STATIC AFFERENT DISCHARGES FROM THE ISOLATED FROG MUSCLE SPINDLE
- The study of polysomnography and sleepiness the morning after administration of triazolam and brotizolam
- EFFECTS OF CENTRALLY ACTING MUSCLE RELAXANTS ON THE ANEMIC DECEREBRATE RIGIDITY IN RATS
- EFFECT OF BACLOFEN ON THE γ-MOTOR ACTIVITY IN THE RAT
- MODE OF ACTION OF L-DOPA ON γ-MOTOR SYSTEM IN THE RAT
- ANTICONVULSANT ACTION OF DIAZEPAM IN MICE PRETREATED WITH CAFFEINE
- POSTNATAL DEVELOPMENT OF THE BENZODIAZEPINE AND GABA RECEPTORS IN THE RAT SPINAL CORD
- POSTNATAL DEVELOPMENT OF THE GABA SYSTEM IN THE RAT SPINAL CORD
- EFFECTS OF ANTICHOLINERGICS ON THE AFFERENT DISCHARGES FROM THE MUSCLE SPINDLE OF THE BULLFROG IN VITRO
- EFFECTS OF ZOPICLONE AND BENZODIAZEPINES ON SPINAL REFLEXES, ANEMIC DECEREBRATE RIGIDITY AND BENZODIAZEPINE BINDING
- Muscle relaxation mediated by central alpha_2-agonistic action in decerebrate rigidity in rats
- Schizophrenia and narcolepsy : A review with a case report
- PHARMACOLOGICAL EVALUATION OF MUSCLE RELAXANTS
- DECREASE IN EFFECTS OF MUSCIMOL ON THE DORSAL ROOT AFTER REPEATED ADMINISTRATION OF DIAZEPAM IN RATS
- MECHANISMS OF DEPRESSANT ACTION OF MUSCLE RELAXANTS ON SPINAL REFLEXES : PARTICIPATION OF MEMBRANE STABILIZING ACTION
- EXCITATION BY LYONIOL-A OF VAGAL AFFERENT NERVES AND THE REFLEX AUTONOMIC AND SOMATIC ACTIONS IN RATS
- EFFECTS OF EXCITATORY TRANSMITTER CANDIDATES ON FROG SPINAL MOTOR FUNCTION
- ALTERATIONS IN SPONTANEOUS ACTIVITY OF THE ISOLATED FROG SPINAL CORD IN CALCIUM-FREE ENVIRONMENT
- ALTERATION OF EXTRACELLULAR K+-ACTIVITY INDUCED BY AMINO ACIDS IN THE FROG SPINAL CORD
- RIGIDITY IN RATS DUE TO ANEMIC DECEREBRATION AND THE EFFECT OF CHLORPROMAZINE
- EFFECT OF LYONIOL-A ON DECEREBRATE RIGIDITY AND ELECTROENCEPHALOGRAM IN RATS
- SPONTANEOUS ELECTRICAL ACTIVITY OF THE BULLFROG SPINAL CORD AND SUSCEPTIBILITY TO SOME CENTRALLY ACTING DRUGS AND AMINO ACIDS
- Monitoring of intracellular Ca2+ elevation in a single neural cell using a fluorescence microscope/video-camera system.
- Amphetamine-Antagonistic Property of 4-Phenyltetrahydroisoquinoline: Effect on Noradrenaline Release in Spinal Cord Slices.
- 2-Phenylethylamine and methamphetamine enhance the spinal monosynaptic reflex by releasing noradrenaline from the terminals of descending fibers.
- Effects of pentobarbital on (3H)diazepam binding in the cerebral cortex, cerebellum and spinal cord of developing rats.
- Acute EEG changes in rats by brainstem ischemia and its dopaminergic involvement.
- Effects of intraseptally injected dopamine and noradrenaline on hippocampal synchronized theta wave activity in rats.
- Effect of the Centrally Acting Muscle Relaxant Tizanidine on Spinal Reflexes: Involvement of Descending Noradrenergic Systems.
- Spinal .ALPHA.1- and .ALPHA.2-adrenoceptors mediate facilitation and inhibition of spinal motor transmission, respectively.