ライフサイエンスコーパス: orbital cortex

1 ociation areas, lateral agranular cortex and orbital cortex.

2 , and within the olfactory tubercle (OT) and orbital cortex.

3 nigra reticulata (SNr), NAC, OT, septum and orbital cortex.

4 agranular insular area Iai in the posterior orbital cortex.

5 haracterize the projections from the insular-orbital cortex.

6 proliferation) to corticosterone within the orbital cortex.

7 Other areas of orbital cortex (11l, 12m, 12l, 13m, 13l, Ial, and Iam) t

8 ateral orbital cortex (-18%), medial/ventral orbital cortex (-17%), and parietal cortex (-17%) as wel

9 -19%), frontal cortex-area 3 (-19%), lateral orbital cortex (-18%), medial/ventral orbital cortex (-1

10 ter for emotions-is strongly linked with the orbital cortex, a region associated with social interact

11 e are limbic areas and include the agranular orbital cortex and agranular medial frontal cortex (area

12 The dual pathways from the amygdala to the orbital cortex and to the thalamus are distinct by morph

13 m cortex, entorhinal cortex, insular cortex, orbital cortex, and all cortical amygdaloid areas.

14 rtex (M1), cingulate cortex, frontal cortex, orbital cortex, and inferior parietal cortex.

15 ea 3, lateral orbital cortex, medial/ventral orbital cortex, and parietal cortex, in addition to alte

16 statory cortex, prelimbic prefrontal cortex, orbital cortex, and the anterior olfactory nucleus.

17 cortex was predominantly from ventrolateral orbital cortex, and was not uniform; rostrally, the proj

18 s study, attenuated activity in the inferior orbital cortex, and, like noxious stimulation, increased

19 r areas known to project to the RSC (ventral orbital cortex, anterior cingulate cortex and subiculum)

20 al relationships among brain activity in the orbital cortex, caudate nucleus, and thalamus that obtai

21 7/12m, 47/12l, and 47/12s occupy the lateral orbital cortex, corresponding to monkey areas 12r, 12m,

22 in the thalamus that link directly with the orbital cortex, forming a tight tripartite network.

23 ies have highlighted the role of the insular-orbital cortex in fine-tuning avoidance-based decisions,

24 ebellar blood flow, rCBF in the striatum and orbital cortex in patients with HD was less during maze

25 vation specifically in the left anteromedial orbital cortex in response to m-CPP.

26 For example, as orbital cortex is reciprocally connected with hypothalam

27 areas in the central and lateral part of the orbital cortex, is connected with vision-related areas i

28 ortex-area 1, frontal cortex-area 3, lateral orbital cortex, medial/ventral orbital cortex, and parie

29 Specifically, orbital cortex (OC) inputs primarily targeted neurons in

30 PO, AHN) while females had more cells in the orbital cortex (ORB).

31 d areas AGm, lateral agranular cortex (AGl), orbital cortex, posterior parietal cortex (PPC), and vis

32 densely interconnected subregions: a lateral/orbital cortex processing primarily sensory/exteroceptiv

33 s, including the occipital fusiform, frontal orbital cortex, putamen, posterior parahippocampal gyrus

34 NA expression for the zeta1-a splice form in orbital cortex showed the best performances in the worki

35 m the retrosplenial, anterior cingulate, and orbital cortex to the dorsal hippocampus, with potential

36 c input from the prelimbic, infralimbic, and orbital cortex to the ventral hippocampus, with potentia

37 somedially, PPC dorsally, AGl laterally, and orbital cortex ventrally.

38 onses of single neurons in the ventrolateral orbital cortex (VLO) to a noxious visceral stimulus (col

39 rom the piriform cortex to the ventrolateral orbital cortex (VLO), a prefrontal area where chemosenso

40 sterior parietal cortex (PPC), ventrolateral orbital cortex (VLO), and secondary visual cortex (Oc2M)

41 us thalamic nucleus (SubM) and ventrolateral orbital cortex (VLO), regions known to regulate the endo

42 f VO overlap with those of the ventrolateral orbital cortex (VLO).

43 d 12r in the caudal and lateral parts of the orbital cortex (which received inputs from several senso

44 with areas 13l, 13m, and 13b in the central orbital cortex, with further connections to the rostral

45 network linked most of the areas within the orbital cortex, with very few connections to medial pref