122. ENHANCEMENTS OF TOXICITY AND MOTOR ACCELERATION EFFECT FOLLOWING INTERMITTENT ADMINISTRATIONS OF d-AMPHETAMINE (The Third Meeting for the Study of Toxic Effect)
スポンサーリンク
概要
- 論文の詳細を見る
- 日本トキシコロジー学会の論文
- 1977-01-15
著者
-
Iizuka Masahiro
Behavior Research Institute School Of Medicine Gunma University
-
Tadokoro Sakutaro
Behavior Research Institute School Of Medicine Gunma University
-
HIRABAYASHI Makizo
Behavior Research Institute, School of Medicine, Gunma University
-
OGAWA Haruyoshi
Behavior Research Institute, School of Medicine, Gunma University
-
Hirabayashi Makizo
Behavior Research Institute School Of Medicine Gunma University
-
Ogawa Haruyoshi
Behavior Research Institute School Of Medicine Gunma University
関連論文
- RAT STRAIN DIFFERENCES IN THE ACQUISITION OF CONDITIONED AVOIDANCE RESPONSES AND IN THE EFFECTS OF DIAZEPAM
- FULLY AUTOMATIC APPARATUS FOR MEASUREMENT OF BEHAVIORAL RHYTHM IN RATS
- CUMULATIVE EFFECTS OF PENFLURIDOL, A LONG-ACTING NEUROLEPTIC DRUG, AS ASSAYED BY ITS BEHAVIORAL ACTIONS
- EFFECTS OF THYROIDECTOMY ON AMPHETAMINE-INDUCED ACCELERATION OF LOCOMOTOR ACTIVITY IN MICE
- EFFECTS OF CENTRAL DEPRESSANTS ON ROTA-ROD AND TRACTION PERFORMANCES IN MICE
- ANALYTICAL STUDY OF ACQUISITION ON FREE-OPERANT AVOIDANCE RESPONSE FOR EVALUATION OF PSYCHOTROPIC DRUGS IN RATS
- 122. ENHANCEMENTS OF TOXICITY AND MOTOR ACCELERATION EFFECT FOLLOWING INTERMITTENT ADMINISTRATIONS OF d-AMPHETAMINE (The Third Meeting for the Study of Toxic Effect)
- ATTAINMENT AND STABILITY OF THE PERFORMANCE IN DIFFERENTIAL LOW RATE WATER REINFORCEMENT IN RATS
- Conditioned drug effects to d-amphetamine- and morphine-induced motor acceleration in mice: Experimental approach for placebo effect.
- Enhancement of ambulation-increasing effect produced by repeated administration of methamphetamine in rats and neurochemical changes in catecholaminergic neurons.
- Strain differences in the reverse tolerance to methamphetamine and changes in catecholaminergic neurons in mice.
- Enhancement of prolactin-secreting effect produced by repeated administration of haloperidol in the avoidance situation and dopamine neurons in rats.