Blaxton T A, Zeffiro T A, Gabrieli J D, Bookheimer S Y, Carrillo M C, Theodore W H, Disterhoft J F
Epilepsy Research Branch, National Institute of Neurological Disorders and Stroke, Bethesda, Maryland 20892, USA.
J Neurosci. 1996 Jun 15;16(12):4032-40. doi: 10.1523/JNEUROSCI.16-12-04032.1996.
Regional cerebral blood flow (rCBF) was measured using positron emission tomography during eyeblink conditioning in young adults. Subjects were scanned in three experimental conditions: delay conditioning, in which binaural tones preceded air puffs to the right eye by 400 msec; pseudoconditioning, in which presentations of tone and air puff stimuli were not correlated in time; and fixation rest, which served as a baseline control. Compared with fixation, pseudoconditioning produced rCBF increases in frontal and temporal cortex, basal ganglia, left hippocampal formation, and pons. Learning-specific activations were observed in conditioning as compared with pseudoconditioning in bilateral frontal cortex, left thalamus, right medial hippocampal formation, left lingual gyrus, pons, and bilateral cerebellum; decreases in rCBF were observed for bilateral temporal cortex, and in the right hemisphere in putamen, cerebellum, and the lateral aspect of hippocampal formation. Blood flow increased as the level of learning increased in the left hemisphere in caudate, hippocampal formation, fusiform gyrus, and cerebellum, and in right temporal cortex and pons. In contrast, activation in left frontal cortex decreased as learning increased. These functional imaging results implicate many of the same structures identified by previous lesion and recording studies of eyeblink conditioning in animals and humans and suggest that the same brain regions in animals and humans mediate multiple forms of associative learning that give meaning to a previously neutral stimulus.
在年轻人进行眨眼条件反射期间,使用正电子发射断层扫描测量局部脑血流量(rCBF)。受试者在三种实验条件下接受扫描:延迟条件反射,其中双耳音调比向右眼吹气提前400毫秒;伪条件反射,其中音调和气吹刺激的呈现时间不相关;以及注视休息,作为基线对照。与注视相比,伪条件反射使额叶和颞叶皮质、基底神经节、左侧海马结构和脑桥的rCBF增加。与伪条件反射相比,在条件反射中观察到双侧额叶皮质、左侧丘脑、右侧内侧海马结构、左侧舌回、脑桥和双侧小脑有学习特异性激活;双侧颞叶皮质以及右侧半球的壳核、小脑和海马结构外侧的rCBF减少。随着学习水平的提高,左侧半球的尾状核、海马结构、梭状回和小脑以及右侧颞叶皮质和脑桥的血流量增加。相反,随着学习增加,左侧额叶皮质的激活减少。这些功能成像结果表明,许多相同的结构在先前对动物和人类眨眼条件反射的损伤和记录研究中已被确定,这表明动物和人类的相同脑区介导多种形式的联想学习,使先前中性的刺激具有意义。