ライフサイエンスコーパス: pulvinar nucleus

1 igher baseline activity, bilaterally, in the pulvinar nucleus.

2 ation of the WFV cells, which project to the pulvinar nucleus.

3 istribution of terminal types within the cat pulvinar nucleus.

4 it may also enhance cortical signals in the pulvinar nucleus.

5 layers I-III (LGN layers 3 and 6) and in the pulvinar nucleus.

6 non-visual input arriving from the thalamic pulvinar nucleus.

7 compared the cholinergic innervation of the pulvinar nucleus, a thalamic association nucleus, to pre

8 dorsal lateral geniculate nucleus (dLGN) and pulvinar nucleus and in somata and proximal dendrites of

9 cipient superior colliculus, tecto-recipient pulvinar nucleus and its projections, and the tecto-reci

10 of the lateral LP nucleus compared with the pulvinar nucleus and lateral geniculate nucleus (LGN) we

11 leus (dLGN), and two association nuclei, the pulvinar nucleus and the lateral subdivision of the late

12 Similar to the pulvinar nucleus and the LGN, the cholinergic terminals

13 However, in contrast to the pulvinar nucleus and the LGN, the majority of cholinergi

14 of the lateral geniculate nucleus (LGN), the pulvinar nucleus, and the lateral posterior nucleus (LP)

15 whereas the cholinergic input to the LGN and pulvinar nucleus appears to be positioned to selectively

16 as to determine whether PBR terminals in the pulvinar nucleus are located in close proximity to corti

17 t the importance of the dorsal aspect of the pulvinar nucleus as a critical hub for spatial attention

18 Instead, our results establish the pulvinar nucleus as a hub linking the visual cortex with

19 um and amygdala, these results establish the pulvinar nucleus as a hub linking the visual cortex with

20 ion.SIGNIFICANCE STATEMENT We found that the pulvinar nucleus can strongly influence extrastriate cor

21 hannels (SK2) than dLGN neurons and that the pulvinar nucleus contained a higher glia-to-neuron ratio

22 e superior colliculus (SC) to the tree shrew pulvinar nucleus have been described, one in which the a

23 areas V3, V4, and V5 (MT) with the thalamic pulvinar nucleus in the macaque monkey were identified.

24 cortico-thalamo-cortical projections to the pulvinar nucleus in the thalamus, which provides an alte

25 the cat and medial division of the inferior pulvinar nucleus (IPm) of the owl monkey.

26 Thus, the RS/RL synapse ratio in the pulvinar nucleus is 24:1, in contrast to the 5:1 RS/RL s

27 The pulvinar nucleus is a large thalamic structure involved

28 The pulvinar nucleus is a major source of input to visual co

29 These projection patterns suggest that the pulvinar nucleus most strongly influences (drives) activ

30 The lateral pulvinar nucleus of the thalamus also projects to V1, bu

31 face processing system (superior colliculus, pulvinar nucleus of the thalamus and amygdala) for the s

32 ral regulation of emotional actions from the pulvinar nucleus of the thalamus and the amygdala to the

33 -thalamo-cortical (CTC) pathways through the pulvinar nucleus of the thalamus can relay sensory signa

34 Moreover, the pulvinar nucleus of the thalamus covaried with both of t

35 The pulvinar nucleus of the thalamus is massively interconne

36 The pulvinar nucleus of the thalamus is suspected to have an

37 The pulvinar nucleus of the thalamus is well connected to th

38 visual cortex modulation by the subcortical pulvinar nucleus of the thalamus while also disentanglin

39 tical (e.g., the superior colliculus and the pulvinar nucleus of the thalamus) structures.

40 hway, which consists of superior colliculus, pulvinar nucleus of the thalamus, and amygdala, enables

41 The dorsal lateral pulvinar nucleus (PLd) was defined on histochemical crit

42 asant music, and involvement of the thalamic pulvinar nucleus, presumably for regulating attentional

43 The mammalian pulvinar nucleus (PUL) establishes heavy interconnection

44 The pretectum (PT) can supply the pulvinar nucleus (PUL), and concomitantly the cortex, wi

45 the lateral posterior nucleus (LP), and the pulvinar nucleus (PUL).

46 teral geniculate nucleus (dLGN), the ventral pulvinar nucleus (Pv), and the claustrum.

47 However, in comparison to the dLGN, the pulvinar nucleus receives significantly fewer numbers of

48 dorsal lateral geniculate nucleus (dLGN) and pulvinar nucleus relay neurons using in vitro whole-cell

49 The pulvinar nucleus represents the main extrageniculate tha

50 tions with the dorsal aspect of the thalamic pulvinar nucleus, suggesting that this structure may pla

51 In contrast, the projections from the pulvinar nucleus to the cortex are less clearly defined.

52 etry index of the 95th percentile within the pulvinar nucleus was significantly associated with infar

53 In the dLGN and pulvinar nucleus, we quantitatively analyzed the distrib