HIPPOCAMPAL EEG AND BEHAVIOR IN DOG .1. HIPPOCAMPAL EEG CORRELATES OF GROSS MOTOR BEHAVIOR

被引：42

作者：

ARNOLDS, DEAT ^{[1
]}

LOPESDASILVA, FH ^{[1
]}

AITINK, JW ^{[1
]}

KAMP, A ^{[1
]}

机构：

[1] TNO, INST MED PHYS, DEPT BRAIN RES, 45 DA COSTAKADE, UTRECHT, NETHERLANDS

来源：

ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY | 1979年 / 46卷 / 05期

关键词：

D O I：

10.1016/0013-4694(79)90009-9

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

It was shown that rewarding spectral shifts (i.e. increase in amplitude or peak frequency of the hippocampal EEG) causes a solitary dog to show increased motor behaviour. Rewarded spectral shifts concurred with a variety of behavioural transitions. It was found that statistically significant modulations occur in the spectral properties of the hippocampal EEG correlated with: (1) the transition from walking to standing; (2) the transition from standing while eating to walking away from the food dish; (3) the increase in speed of a walking dog, caused by rewarding the animal; and with (4) each head movement in a learned series of head movements. Thus behavioural transitions to a more active state are accompanied by an increase of amplitude, frequency and rhythmicity in the theta band of the hippocampal EEG; behavioural transitions to a less active state show the inverse relationship with the hippocampal EEG. A close relationship between modulations of the dog's hippocampal EEG activity and elementary motor acts is stressed. The hypothesis is put forward that the spectral properties of the hippocampal EEG reflect the degree to which a number of motor and sensory structures in the limbic midbrain and brain stem are active. © 1978.

引用

页码：552 / 570

页数：19

共 32 条

[1]

ADRIANOV OS, 1959, ATLAS DOGS BRAIN

[2]

ARNOLDS D, 1975, BRAIN RES, V85, P194

[3] COMPUTER-ASSISTED DETERMINATION OF BRAIN-BEHAVIOR CORRELATES [J].

ARNOLDS, DEAT ;

LOPESDASILVA, FH .

PHYSIOLOGY & BEHAVIOR, 1977, 19 (03) :377-380

[4] AVOIDANCE TRAINING OF HIPPOCAMPAL THETA WAVES IN FLAXEDILIZED DOGS AND ITS RELATION TO SKELETAL MOVEMENT [J].

BLACK, AH ;

YOUNG, GA ;

BATENCHU.C .

JOURNAL OF COMPARATIVE AND PHYSIOLOGICAL PSYCHOLOGY, 1970, 70 (01) :15-&

[5] ELECTRICAL-ACTIVITY OF HIPPOCAMPUS AND CORTEX IN DOGS OPERANTLY TRAINED TO MOVE AND TO HOLD STILL [J].

BLACK, AH ;

YOUNG, GA .

JOURNAL OF COMPARATIVE AND PHYSIOLOGICAL PSYCHOLOGY, 1972, 79 (01) :128-&

[6]

DASILVA FHL, 1969, ELECTROEN CLIN NEURO, V26, P133

[7] SPECTRAL ANALYSIS OF LOW FREQUENCY COMPONENTS IN ELECTRICAL ACTIVITY OF HIPPOCAMPUS DURING LEARNING [J].

ELAZAR, Z ;

ADEY, WR .

ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1967, 23 (03) :225-&

[8] 2 TYPES OF DEPOLARIZING AFTER-POTENTIALS IN HIPPOCAMPAL PYRAMIDAL CELLS OF RABBITS [J].

FUJITA, Y .

BRAIN RESEARCH, 1975, 94 (03) :435-446

[9] INTRACELLULAR RECORDS FROM HIPPOCAMPAL PYRAMIDAL CELLS IN RABBIT DURING THETA RHYTHM ACTIVITY [J].

FUJITA, Y ;

SATO, T .

JOURNAL OF NEUROPHYSIOLOGY, 1964, 27 (06) :1011-&

[10] HIPPOCAMPAL ELECTRICAL ACTIVITY DURING THE DEVELOPMENT OF CONDITIONED REFLEXES [J].

GRASTYAN, E ;

LISSAK, K ;

MADARASZ, I ;

DONHOFFER, H .

ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1959, 11 (03) :409-430

← 1 2 3 4 →