KURIBARA Hisashi | Department of Neurobiology and Behavior, Behavior Research Institute, Gunma University School of Med
スポンサーリンク
概要
- 同名の論文著者
- Department of Neurobiology and Behavior, Behavior Research Institute, Gunma University School of Medの論文著者
関連著者
-
KURIBARA Hisashi
Department of Neurobiology and Behavior, Behavior Research Institute, Gunma University School of Med
-
Kuribara Hisashi
Department Of Neurobilogy And Behavior Behavior Research Institute Gunma University School Of Medici
-
Kuribara H
Wakanyaku Medical Inst. Ltd. Gunma Jpn
-
Shinoda Motoo
Institute Of Experimantal Animal Research Gunnma University School Of Medicine
-
Shinoda Motoo
群馬大学医学部附属行動医学研究施設
-
UCHIHASHI Yoshitaka
Department of Anesthesiology, National Defence Medical College
-
Asami Takayasu
Gunma Prefectural Sawa Hospital Of Psychiatry
-
Uchihashi Yoshitaka
Department Of Anesthesiology National Defense Medical College
-
IIJIMA Yukiko
Department of Neuropsychiatry, Gunnma University School of Medicine
-
ASAMI Takayasu
Gunnma Prefectural Sawa Hospital of Psychiatry
-
Iijima Y
Gunma Univ. School Of Medicine Gunma Jpn
-
Iijima Yukiko
Department Of Electronics And Computer Science
-
Asami T
Gunma Plefectural Sawa Hospital Of Psychiatry
-
IIJIMA Yukio
Department of Neuropsychiatry, Gunma University School of Medicine
-
IDA Iturou
Department of Neuropsychiatry, Gunma University School of Medicine
-
Ida Iturou
Department Of Neuropsychiatry Gunma University School Of Medicine
-
Iijima Yukio
Department Of Neuropsychiatry Gunma University School Of Medicine
著作論文
- DELAYED EFFECTS OF ETHANOL, CAFFEINE AND NICOTINE ASSESSED BY WHEEL-RUNNING AND DRINKING IN MICE
- Evaluation of Acute and Sub-Acute Effects of Cocaine by Means of Circadian Variation in Wheel-Running and Drinking in Mice
- Modification by MK-801 (Dizocilpine), a Noncompetitive NMDA Receptor Antagonist, of Morphine Sensitization : Evaluation by Ambulation in Mice
- Inhibition of Cocaine Sensitization by MK - 801, a Noncompetitive N - Methyl - D - Aspartate (NMDA) Receptor Antagonist: Evaluation by Ambulatory Activity in Mice