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1 he thalamus, substantia nigra, brainstem and superior frontal gyrus.
2 dorsal anterior cingulate cortex and in the superior frontal gyrus.
3 as, including supplementary motor cortex and superior frontal gyrus.
4 fusivity measures in the white matter of the superior frontal gyrus.
5 fibres that project from the thalamus to the superior frontal gyrus.
6 ompassing the posterior cingulate cortex and superior frontal gyrus.
7 ior hub of the default network and the right superior frontal gyrus.
8 uding the posterior cingulate cortex and the superior frontal gyrus.
9 ose in visual cortex, and 5% of those in the superior frontal gyrus.
10 in the anterior cingulate gyrus but not the superior frontal gyrus.
11 owed weaker functional connectivity with the superior frontal gyrus, a component of the task-positive
12 ship between cortical thickness in the right-superior frontal gyrus and BMI, which was fully mediated
13 ask-specific relationship between the medial superior frontal gyrus and both anterior cingulate and t
14 ociated with cerebral perfusion in the right superior frontal gyrus and cingulate gyrus, regions asso
15 frontal gamma power, source-localized to the superior frontal gyrus and dorsal cingulate cortex), acc
16 l prefrontal cortex (dmPFC) as well as right superior frontal gyrus and left and right occipital regi
18 us exhibiting quadratic trajectories and the superior frontal gyrus and putamen exhibiting cubic traj
19 rally in the medial frontal lobes, including superior frontal gyrus and rostral cingulate gyrus; the
20 ed from typically developing controls in the superior frontal gyrus and superior temporal gyrus, regi
21 Furthermore, close effects were found in the superior frontal gyrus and the inferior frontal gyrus th
22 ation of white matter tracts directed to the superior frontal gyrus and the thalamus is associated wi
23 ted that the strength of connectivity to the superior frontal gyrus and the thalamus were positively
24 e targets for neuromodulation in obesity (ie superior frontal gyrus) and a quantifiable mediator of t
25 topolar regions, sweeping toward the mid and superior frontal gyrus) and medial (descending down the
26 eductions in frontal regions (medial OFC and superior frontal gyrus) and primary and higher-order vis
28 bilateral caudate and thalamus, left middle/superior frontal gyrus, and left ACC, whereas controls h
30 ns of cortical thickness in frontal pole and superior frontal gyrus, and similar effects were found i
31 The PACAP levels in cerebrospinal fluid, the superior frontal gyrus, and the middle temporal gyrus we
32 essed in the hippocampus, entorhinal cortex, superior-frontal gyrus, and postcentral gyrus across the
34 ral changes in the white matter of the right superior frontal gyrus are associated with late-life dep
35 lobule (area 40), left middle (area 10) and superior frontal gyrus (area 8), temporal pole, and visu
36 s (lateral dorsal, lateral posterior), right superior frontal gyrus (areas 32, 24, and 10), and right
38 ion best predicted cognitive function in the superior frontal gyrus, but it was less predictive in th
39 (ACC) and posterior cingulate cortex (PCC), superior frontal gyrus, caudate nucleus, and substantia
40 ignal intensity in areas of the hippocampus, superior frontal gyrus, cerebellum, and superior parieta
41 s were significantly altered with age in the superior-frontal gyrus, compared with 1,110 in the entor
42 ersal of sex differences in the right mesial superior frontal gyrus, consistent with disruption by CP
44 everal prefrontal sources, including lateral superior frontal gyrus, dorsal anterior cingulate gyrus,
45 rogen also increased activation in the right superior frontal gyrus during retrieval tasks, accompani
46 r postcentral gyri bilaterally, and enlarged superior frontal gyrus, gyrus rectus, cuneus, and precun
48 f a stimulus held in WM enhanced activity in superior frontal gyrus, midtemporal, and occipital areas
49 rdinates: 51, -51, -11; t value, 4.83), left superior frontal gyrus ( MNI Montreal Neurological Insti
50 l gyrus of CEN, left precuneus and bilateral superior frontal gyrus of DMN, and right anterior insula
51 hysin concentration in entorhinal cortex and superior frontal gyrus of normal elderly control (ND) pa
52 < .001, family-wise error [FWE] corrected), superior frontal gyrus (p = .001, FWE corrected), and pr
56 creased betweenness centrality in the medial superior frontal gyrus, precentral gyrus, Rolandic operc
57 ctivity between the right amygdala and right superior frontal gyrus, right paracingulate/anterior cin
58 to the superior temporal gyrus), left medial superior frontal gyrus (SDM estimate = -0.163; P = .001)
59 rease in rsFC between the DLPFC and the left superior frontal gyrus (SFG) and anterior cingulate cort
60 cortex, posterior cingulate cortex and right superior frontal gyrus (SFG) during conflict anticipatio
61 ults, we showed that activation of the right superior frontal gyrus (SFG) during conflict anticipatio
62 ors were labeled autoradiographically in the superior frontal gyrus (SFG) from 9 RS patients and 10 f
63 trodorsal medial prefrontal cortex (rd-mPFC)/superior frontal gyrus (SFG) that was also sensitive to
64 y coactivation of a frontal-parietal system [superior frontal gyrus (SFG), middle frontal gyrus (MFG)
65 l peduncle and left hemispheric masks of the superior frontal gyrus (SFG), precentral gyrus (PcG), mi
67 erebellum (lobules IV/V and VIII), bilateral superior frontal gyrus (SFG, medial rostral part), right
70 In particular, the anterior cingulate and superior frontal gyrus showed more restricted activation
71 e two bands were found in fusiform gyrus and superior frontal gyrus (slow-4> slow-5), and in basal ga
72 rs34997829 showed reduced power of the left superior frontal gyrus (t=-3.386, p=9.56 x 10(-4)) and i
74 nd white matter region proximate to the left superior frontal gyrus (Tailerach coordinates -24, 57, 2
75 tex/angular gyrus, medial prefrontal cortex, superior frontal gyrus, temporal lobe, and parahippocamp
76 In particular, intracranial volume and left superior frontal gyrus thickness exhibit significant and
77 late cortex (vACC) and adjacent ventromedial superior frontal gyrus (vmSFG), the right ventromedial p
78 , which, in turn, were associated with lower superior frontal gyrus volume (ie, an indirect effect) (
81 volumes of the anterior cingulate gyrus and superior frontal gyrus were computed from contiguous 1.5
82 parietal cortex, middle temporal gyrus, and superior frontal gyrus, whereas people with greater B12
83 er fractional anisotropy values in the right superior frontal gyrus white matter of depressed patient
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