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1 pocampal and middle occipital, and bilateral supramarginal and angular cortices, and left cerebellum;
2 s (including the superior parietal gyrus and supramarginal and angular gyri of the inferior parietal
3                     Within the IPL, although supramarginal and angular gyrus (SMG; AG) regions both d
4  the result of a combined stimulation of the supramarginal and angular gyrus than an isolated PFm sti
5 frontal and sensorimotor areas, hippocampus, supramarginal and inferior temporal gyri, and posterior
6 tudy highlights some unexpected regions (ie, supramarginal and superior parietal gyri) that merit fur
7 rior and middle frontal gyri, as well as the supramarginal and superior temporal gyri.
8 ance and anterior insula, superior temporal, supramarginal, and superior frontal gyri during reapprai
9 pha generators in right parietal, cingulate, supramarginal, and superior temporal cortex were sensiti
10 ), superior parietal lobule (SPL), and right supramarginal gyri (SMG).
11 iated with the thickness of left angular and supramarginal gyri as well as the left lateral occipital
12  an embolic infarct of the right angular and supramarginal gyri in a setting of chronic migraine.
13 lower FA bilaterally in the parietal region (supramarginal gyri), right posterior cingulate gyrus, an
14  temporal, postcentral/superior parietal and supramarginal gyri).
15 sulted in activation of Broca's area and the supramarginal gyri, areas associated with phonological r
16 wed greater response in the left angular and supramarginal gyri, regions that play important roles in
17 he middle temporal cortex to the angular and supramarginal gyri.
18 socaudally towards the superior temporal and supramarginal gyri.
19 ateral middle frontal gyri and the bilateral supramarginal gyri.
20 ial magnetic stimulation (rTMS) of the right supramarginal gyrus (rSMG) in humans lengthened the perc
21 iated with increased activation in the right supramarginal gyrus (rSMG), in a location distinct from
22  whether the functional contribution of left supramarginal gyrus (SMG) during action reprogramming de
23 ethods have shown the importance of the left supramarginal gyrus (SMG) for pitch memory.
24 signal differences at bilateral sites in the supramarginal gyrus (SMG) of the inferior parietal lobul
25 stently after lesions that include the right supramarginal gyrus (SMG), a part of the inferior pariet
26 ion was administered on 50% of trials to the supramarginal gyrus (SMG), anterior intraparietal sulcus
27  levels (HI>MI>LI) was a subarea of the left supramarginal gyrus (SMG).
28  36, z = 8; FWE-corrected P = .009), and the supramarginal gyrus (t168 = 5.03; peak MNI coordinates x
29 ylvian fissure, which included the posterior supramarginal gyrus and adjacent anterior angular gyrus,
30 vely with calculation activation in the left supramarginal gyrus and bilateral anterior cingulate cor
31 emporal areas, had higher degree in the left supramarginal gyrus and right gyrus rectus, and had high
32 ignificantly less metabolic activity and the supramarginal gyrus and vermis had significantly more me
33 rtex, there was a dissociation such that the supramarginal gyrus exhibited greater activity to the ta
34 gulate cortex, bilateral precuneus, and left supramarginal gyrus for fearful (relative to neutral) fa
35 ial role of the superior parietal lobule and supramarginal gyrus in mediating competition between vis
36 mulation focused on either the left anterior supramarginal gyrus or opercular part of the left inferi
37  regions including middle frontal gyrus, and supramarginal gyrus relative to young subjects and those
38 ngulate/anterior cingulate cortex, and right supramarginal gyrus than control subjects.
39 nal cortex thickness, hippocampal volume and supramarginal gyrus thickness demonstrated an area under
40 h inattention and impulsivity; additionally, supramarginal gyrus thickness mediated the association w
41 nother dataset, which previously yielded the supramarginal gyrus using a univariate adaptation-fMRI p
42                        In contrast, the left supramarginal gyrus was somewhat more specific to sequen
43                  In the left hemisphere, the supramarginal gyrus was thinner in both patients with MD
44 emotor cortex, pre- and postcentral gyri and supramarginal gyrus with minimal extension into auditory
45  that dysfunction of left Brodmann areas 40 (supramarginal gyrus) and 37 (posterior-inferior temporal
46 ty in a phonologically related brain region (supramarginal gyrus) correlated with the verbalizer dime
47  parietal lobule (IPL) (corresponding to the supramarginal gyrus) exhibited reduction in neural activ
48 motor cortex) and sensory-motor integration (supramarginal gyrus) were unaffected by remifentanil.
49 ; the right ventrolateral prefrontal cortex, supramarginal gyrus, and anterior thalamus; and bilatera
50 otor cortex, dorsolateral prefrontal cortex, supramarginal gyrus, and in ipsilateral posterior pariet
51 al prefrontal cortex, right anterior insula, supramarginal gyrus, and left inferior parietal lobule.
52  cingulate and paracingulate gyri, posterior supramarginal gyrus, and planum temporale.
53 regions included the caudate, lingual gyrus, supramarginal gyrus, and right and left superior and rig
54 stral middle frontal and frontal pole), left supramarginal gyrus, and right transverse temporal gyrus
55 ppocampus, fusiform/inferior temporal gyrus, supramarginal gyrus, and visual association cortex in wo
56 e superior temporal gyrus extending into the supramarginal gyrus, as well as lesions within the basal
57 ch has stronger connections to the posterior supramarginal gyrus, can be distinguished from both the
58 frontal gyrus, superior parietal lobule, and supramarginal gyrus, comparison subjects showed signific
59 interaction effect on activation in the left supramarginal gyrus, irrespective of diagnostic group (Z
60 before the UP of lexical competition in left supramarginal gyrus, left superior temporal gyrus, left
61 in right anterior to middle cingulate, right supramarginal gyrus, left thalamus, and midbrain bilater
62 and to the white matter adjacent to the left supramarginal gyrus, over and above overt speech product
63  postcentral gyri, supplementary motor area, supramarginal gyrus, posterior temporal cortex, and infe
64 posterior cingulate, inferior parietal lobe, supramarginal gyrus, striatum, and thalamus.
65 posterior cingulate, inferior parietal lobe, supramarginal gyrus, striatum, and thalamus.
66                             In addition, the supramarginal gyrus, which is densely connected to prefr
67 vity in the right inferior frontal gyrus and supramarginal gyrus.
68 flow values, in a subnetwork centered at the supramarginal gyrus.
69 gyrus, whereas area 44 is connected with the supramarginal gyrus.
70 rus, has strong connections with the rostral supramarginal gyrus.
71 al areas of the cerebral cortex, as well the supramarginal gyrus.
72 hy, including the inferior frontal gyrus and supramarginal gyrus.
73 ts in the left middle frontal gyrus and left supramarginal gyrus.
74 well as the superior parietal lobule and the supramarginal gyrus.
75 nt part of the middle temporal gyrus and the supramarginal gyrus.
76 t categorically processing area was the left supramarginal gyrus: stimuli from different phonetic cat
77 e: left posterior superior temporal lobe and supramarginal gyrus; executive functions: bilateral fron
78                     Cells that are initially supramarginal ingress mainly there, sometimes quite far
79 amarginal, posterior superior temporal, left supramarginal, left postcentral, and occipital regions (
80 High centrality nodes were identified in the supramarginal, middle, and superior temporal and inferio
81                                              Supramarginal on submarginal calculus was found only in
82 ern-like; 5) individual islands/spots; or 6) supramarginal on submarginal.
83 n cortical volume and thickness of the right supramarginal, posterior superior temporal, left suprama
84 in the inferior frontal gyrus (IFG) and IPL (supramarginal) regions revealed differential contributio

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