Basal ganglia functional connectivity based on a meta-analysis of 126 positron emission tomography and functional magnetic resonance imaging publications

被引:484
作者
Postuma, Ronald B. [1 ]
Dagher, Alain [1 ]
机构
[1] McGill Univ, Montreal Gen Hosp, Montreal Neurol Inst, Montreal, PQ H3A 2B4, Canada
关键词
caudate nucleus; functional MBI; positron emission tomography; putamen; striatum;
D O I
10.1093/cercor/bhj088
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
The striatum receives projections from the entire cerebral cortex. Different, but not mutually exclusive, models of corticostriatal connectivity have been proposed, including connectivity based on proximity, parallel loops, and a model of a tripartite division of the striatum into motor, associative, and limbic areas. All these models were largely based on studies of anatomic connectivity in nonhuman mammals and lesion studies in animals and humans. Functional neuroimaging has the potential to discern patterns of functional connectivity in humans in vivo. We analyzed the functional connectivity between the cortex and the striatum in a meta-analysis of 126 published functional neuroimaging studies. We mapped the peak activations listed in each publication into stereotaxic space and used standard functional imaging statistical methods to determine which cortical areas were most likely to coactivate with different parts of the striatum. The patterns of functional connectivity between the cortex and the different striatal nuclei are broadly consistent with the predictions of the parallel loop model. The rostrocaudal and dorsoventral patterns of corticostriatal functional connectivity are consistent with the tripartite division of the striatum into motor, associative, and limbic zones.
引用
收藏
页码:1508 / 1521
页数:14
相关论文
共 197 条
[41]   Frontal and parietal networks for conditional motor-learning: A positron emission tomography study [J].
Deiber, MP ;
Wise, SP ;
Honda, M ;
Catalan, MJ ;
Grafman, J ;
Hallett, M .
JOURNAL OF NEUROPHYSIOLOGY, 1997, 78 (02) :977-991
[42]   PET study of human voluntary saccadic eye movements in darkness: effect of task repetition on the activation pattern [J].
Dejardin, S ;
Dubois, S ;
Bodart, JM ;
Schiltz, C ;
Delinte, A ;
Michel, C ;
Roucoux, A ;
Crommelinck, M .
EUROPEAN JOURNAL OF NEUROSCIENCE, 1998, 10 (07) :2328-2336
[43]  
DELBER MP, 1996, J NEUROPHYSIOL, V75, P233
[44]   Dissociation of frontal and cerebellar activity in a cognitive task: Evidence for a distinction between selection and search [J].
Desmond, JE ;
Gabrieli, JDE ;
Glover, GH .
NEUROIMAGE, 1998, 7 (04) :368-376
[45]   RELATION BETWEEN CEREBRAL-ACTIVITY AND FORCE IN THE MOTOR AREAS OF THE HUMAN BRAIN [J].
DETTMERS, C ;
FINK, GR ;
LEMON, RN ;
STEPHAN, KM ;
PASSINGHAM, RE ;
SILBERSWEIG, D ;
HOLMES, A ;
RIDDING, MC ;
BROOKS, DJ ;
FRACKOWIAK, RSJ .
JOURNAL OF NEUROPHYSIOLOGY, 1995, 74 (02) :802-815
[46]   Cerebral activation during the exertion of sustained static force in man [J].
Dettmers, C ;
Lemon, RN ;
Stephan, KM ;
Fink, GR ;
Frackowiak, RSJ .
NEUROREPORT, 1996, 7 (13) :2103-2110
[47]   CONTRIBUTIONS OF ANTERIOR CINGULATE CORTEX TO BEHAVIOUR [J].
DEVINSKY, O ;
MORRELL, MJ ;
VOGT, BA .
BRAIN, 1995, 118 :279-306
[48]   Functional anatomy of visuomotor skill learning in human subjects examined with positron emission tomography [J].
Doyon, J ;
Owen, AM ;
Petrides, M ;
Sziklas, V ;
Evans, AC .
EUROPEAN JOURNAL OF NEUROSCIENCE, 1996, 8 (04) :637-648
[49]  
Elliott R, 1999, J NEUROSCI, V19, P5066
[50]   Differential neural response to positive and negative feedback in planning and guessing tasks [J].
Elliott, R ;
Frith, CD ;
Dolan, RJ .
NEUROPSYCHOLOGIA, 1997, 35 (10) :1395-1404