ライフサイエンスコーパス: right anterior

1 In nonhuman primates, greater relative right anterior activation has been associated with highe

2 alues in the whole WM (p = 0.015) and in the right anterior and bilateral middle cerebral artery terr

3 ted brain regions, comprising left amygdala, right anterior and left posterior insula and midcingulat

4 Three patients had decreased CBF in right anterior and middle cerebral artery territories co

5 n in right prefrontal regions, including the right anterior and right dorsolateral prefrontal cortice

6 erences were also seen in the left anterior, right anterior, and right posterior medial subdivisions.

7 In patients with CFS, right anterior arcuate FA increased with disease severit

8 Right anterior arcuate FA may serve as a biomarker for C

9 The observation of right-anterior ascending aorta wall/jet impingement in r

10 relationship between executive function and right anterior caudate functional connectivity.

11 otropy and decreased mean diffusivity in the right anterior CB, but not in the posterior CB, were rel

12 Metabolism also was significantly higher in right anterior cerebellum, orbitofrontal cortex, and str

13 rtery, the right middle cerebral artery, the right anterior cerebral artery and the right posterior c

14 CA was induced in the right anterior cerebral artery-olfactory artery (ACA/OA)

15 tasks, increased rCBF in cerebellar vermis, right anterior cingulate and right insula covaried with

16 ncrease in phase synchronization between the right anterior cingulate and temporo-occipital areas may

17 ynchronization in the alpha band between the right anterior cingulate and temporo-occipital regions t

18 Right anterior cingulate area 24' was significantly smal

19 rom intracranially implanted electrodes: the right anterior cingulate cortex (ACC), right thalamus (P

20 supplementary motor area (BA 6), and in the right anterior cingulate cortex (BA 24/32).

21 th tissue loss in the ventral portion of the right anterior cingulate cortex (vACC) and adjacent vent

22 mpanied by reduced glucose metabolism in the right anterior cingulate cortex and right medial frontal

23 mate = -0.163; P = .001) (extending into the right anterior cingulate cortex), and left fusiform gyru

24 ation in the ventromedial prefrontal cortex, right anterior cingulate cortex, and left amygdala, wher

25 alysis revealed a gray matter cluster in the right anterior cingulate cortex, anterior to the eventua

26 l area, left geniculum body, left precuneus, right anterior cingulate cortex, right claustrum, right

27 trastriate cortex, left superior frontal and right anterior cingulate gyri, and left thalamus.

28 medial frontal gyrus (BA9), spreading to the right anterior cingulate gyrus (BA32); and in the left m

29 neocortical activations were observed in the right anterior cingulate gyrus (Brodmann area 24), in th

30 AD patients had increased rCBF in the right anterior cingulate gyrus (P = .02) compared with t

31 ciated with gray matter deficits only in the right anterior cingulate gyrus and ventral striatum.

32 ctrum disorders showed reduced volume of the right anterior cingulate gyrus, specifically in Brodmann

33 HD subjects recruited the caudal part of the right anterior cingulate more than did the healthy subje

34 k, the patients showed decreased flow in the right anterior cingulate, right thalamus, and bilateral

35 observed in cerebellar vermis, brainstem and right anterior cingulate.

36 driven by the right anterior insula and the right anterior cingulate.

37 with MCI and were related, additionally, to right anterior cingulum microstructure.

38 tructural alterations of the bilateral PaVN, right anterior commissure, and left fornix (FX).

39 nisotropy in the left thalamic radiation and right anterior corona radiata.

40 correlated with PDM duration while FA of the right anterior CR positively correlated with PDM severit

41 MS-defined motor representations of left and right anterior digastric (LAD, RAD), masseter, buccinato

42 s gave rise to right-handed helical flow and right-anterior flow jets (n = 11), whereas right and non

43 tegorical patterns were observed in left and right anterior frontal cortex (BA 10) and right inferior

44 h the cingulate (R>L), right subcallosal and right anterior frontal cortex.

45 er right globus pallidus (P = .005), smaller right anterior frontal region (P = .02), smaller cerebel

46 nce in both groups predicted activity in the right anterior fusiform gyrus and the temporal poles, wh

47 ance on two expressive verbal tasks, whereas right anterior fusiform metabolism predicted performance

48 Right anterior hippocampal activation 12 months postoper

49 ft temporal lobe epilepsy, greater left than right anterior hippocampal activation on word encoding c

50 connections available for future travel and right anterior hippocampal activity reflects global prop

51 oral lobe epilepsy patients showed increased right anterior hippocampal and frontal activation at bot

52 or vertical and horizontal locations and the right anterior hippocampus (HC) expressed place informat

53 anterior cingulate cortex (sgACC, Z=3.7) and right anterior hippocampus (Z=3.5) GMV.

54 the integrity of multivoxel patterns in the right anterior hippocampus across encoding and delay per

55 + compared with CXT- significantly activated right anterior hippocampus and bilateral amygdala.

56 Dysfunction of right anterior hippocampus and parahippocampal cortices

57 Functional coupling between right anterior hippocampus and VTA was enhanced followin

58 rriers exhibited increased activation of the right anterior hippocampus during encoding of novel face

59 was associated with reduced activity in the right anterior hippocampus during encoding.

60 Regional CBF increased in the right anterior hippocampus in all patients irrespective

61 rs, while responders showed increased GMV in right anterior hippocampus only.

62 Nevertheless, the right anterior hippocampus showed greater hemodynamic re

63 x age interaction (Z=3.6) was present in the right anterior hippocampus.

64 y was identified in the right insula and the right anterior hippocampus.

65 entified increased grey matter volume in the right anterior hippocampus/amygdala and parahippocampus

66 hypothalamic nucleus, right lateral HT, and right anterior hypothalamic area.

67 associated with increased activation in the right anterior inferior parietal lobe (aIPL), bilateral

68 h is positively associated with the left and right anterior inferior temporal cortex in males and wit

69 t they had reduced grey matter volume in the right anterior inferior temporal lobe and in the superio

70 The hub role of the right anterior insula (AI) has been emphasized in cognit

71 d, co-varying with narcissistic features, in right anterior insula (AI).

72 gdala (beta, -0.19; 95% CI, -0.30 to -0.08), right anterior insula (AI; beta, -0.23; 95% CI, -0.37 to

73 ilable from before and after a stroke to the right anterior insula (n = 3; comparison n = 13).

74 were detected for any metabolite within the right anterior insula (P > 0.11 for all comparisons).

75 right inferior frontal cortex (rIFC) and the right anterior insula (rAI) have been implicated consist

76 bilateral frontoparietal cortex (biFPC) and right anterior insula (rAI) showed activities in negativ

77 ts, functional connectivity (FC) between the right anterior insula (rAI), a key node of the SN, and t

78 d allyship estimates, in contrast, recruited right anterior insula (rAI).

79 al prefrontal cortex), and salience network (right anterior insula [rAI]).

80 ted fear, the skin conductance response, and right anterior insula activity (experiment 1).

81 m negative brain states (reduced task-evoked right anterior insula activity, 0.39 SD).

82 n selling, experienced traders exhibit lower right anterior insula activity, but no differences in nu

83 ne-induced ASCs mediated opposing effects on right anterior insula activity.

84 ive emotion, brain activity increased in the right anterior insula and ACC (BA24 and 32).

85 The rCMRglu in the right anterior insula and adjacent prefrontal and striat

86 Activations in the right anterior insula and amygdala were markedly reduced

87 C, PTSD patients showed hyperactivity in the right anterior insula and bilateral cerebellum, and hypo

88 re was a treatment x opponent interaction in right anterior insula and dorsal caudate.

89 pe, revealed that 5HT(2A) BP in the adjacent right anterior insula and insula proisocortex was negati

90 In FTLD-SD, dysfunction in the right anterior insula and its connected regions, includi

91 vels of generalization at two such loci: the right anterior insula and left ventral hippocampus.

92 The effect was driven by lesions to the right anterior insula and not explained by stroke extent

93 n to the functional connectivity between the right anterior insula and precuneus being lower in autis

94 that the functional connectivity between the right anterior insula and precuneus was lower in autism

95 ctional collaboration of two critical nodes, right anterior insula and precuneus, may play a critical

96 resonance spectroscopy session in which the right anterior insula and right posterior insula were ex

97 reased inhibition-related neural activity in right anterior insula and right putamen in smokers and d

98 ption in reciprocal connectivity between the right anterior insula and the left dorsolateral prefront

99 and the supplementary motor area and (2) the right anterior insula and the left temporoparietal/tempo

100 icated that these changes were driven by the right anterior insula and the right anterior cingulate.

101 ced SFC from the left anterior insula to the right anterior insula and TPJ; increased SFC from the le

102 ype (increased or decreased HR), implicating right anterior insula as a mismatch comparator between e

103 r, using simultaneous fMRI, particularly the right anterior insula as part of the salience network wa

104 C from the left centromedial amygdala to the right anterior insula correlated with clinical improveme

105 gulate cortex, medial prefrontal cortex, and right anterior insula during negative valence processing

106 The right anterior insula has been shown to modulate activit

107 study shows some evidence for a role of the right anterior insula in the clinical choice of major de

108 from lower concentrations of GABA within the right anterior insula may play a role in the pathophysio

109 The right anterior insula might be an emergent pathophysiolo

110 We tested the hypothesis that right anterior insula modulation of central executive an

111 ing, corroborative evidence of disruption of right anterior insula modulation of central executive an

112 Individuals with schizophrenia have impaired right anterior insula modulation of large-scale brain ne

113 The strength of right anterior insula modulation of these networks predi

114 anges with right inferior frontal sulcus and right anterior insula occupying more central positions a

115 bilateral superior frontal gyrus of DMN, and right anterior insula of SN.

116 leus and its effective connectivity with the right anterior insula predicts children's inhibitory con

117 Conversely, right precuneus and right anterior insula ranked first and 15th in degree ce

118 ional traits were positively correlated with right anterior insula responses.

119 d cortical regions were identified, with the right anterior insula showing the most robust discrimina

120 These findings indicate that right anterior insula supports a representation of visce

121 ite based on effective connectivity from the right anterior insula to the left dorsolateral prefronta

122 usion metrics of a tract projecting from the right anterior insula to the NAcc were associated with s

123 Likewise, the right anterior insula was specifically sensitive to outc

124 GABA levels in the right anterior insula were significantly lower in FM pat

125 lly in reducing conflict errors, despite the right anterior insula's higher predictive value for pros

126 s revealed significantly diminished frontal (right anterior insula) to posterior (precuneus) function

127 tween subcallosal cingulate cortex (SCC) and right anterior insula, 2) decreased RSFC between SCC and

128 the right medial anterior temporal lobe, the right anterior insula, and bilateral occipital cortex.

129 ular "salience" network (SN) anchored in the right anterior insula, dorsal anterior cingulate cortex

130 gulate cortex, left/right amygdala, and left/right anterior insula, in 20 endurance athletes and 21 n

131 sed SCR included right orbitofrontal cortex, right anterior insula, left lingual gyrus, right fusifor

132 ratings and brain responses in the left and right anterior insula, left ventral hippocampus, dorsola

133 gyri, lateral and medial orbitofrontal gyri, right anterior insula, putamen, thalamus, and caudate, a

134 resonance spectroscopy session in which the right anterior insula, right posterior insula, anterior

135 arrhythmic broadband neural dynamics in the right anterior insula, right precentral gyrus, and the r

136 te cortex (rACC), lateral prefrontal cortex, right anterior insula, supramarginal gyrus, and left inf

137 ltiple brain regions, including the left and right anterior insula, the ventrolateral prefrontal cort

138 interoceptive activity is engendered in the right anterior insula, which seems to provide the basis

139 head, the right orbitofrontal cortex and the right anterior insula.

140 positron emission tomography activity in the right anterior insula.

141 late cortex, posterior cingulate cortex, and right anterior insula.

142 racterised by progressive involvement of the right anterior insula.

143 dynamic response to tastes of sucrose in the right anterior insula.

144 F increases within the IPCG bilaterally, the right anterior insula/claustrum, and the left cerebellum

145 and pre-supplementary motor area as well as right anterior insula/frontal operculum and anterior lat

146 a significantly more posterior region of the right anterior insula/frontal operculum than healthy con

147 d bilateral thalamus/caudate, as well as the right anterior insula/frontal operculum, supramarginal g

148 matter damage in the SN tract connecting the right anterior insulae to the presupplementary motor are

149 The right anterior insular cortex (AIC) was identified as th

150 gions implicated in depression: the left and right anterior insular cortex (AIC), amygdalae, and dors

151 trols showed (1) increased activation in the right anterior insular region, dorsal anterior cingulate

152 In right anterior insular/opercular cortex, neural activity

153 ving the left posterior parietal cortex, the right anterior intermediate cerebellum, and the left pri

154 ODI was reduced in the right anterior internal capsule and the right PCG.

155 classified from responses in either left or right anterior intraparietal sulcus (aIPS).

156 this deficit by also activating the left and right anterior lateral prefrontal cortices, in which act

157 ly reduced fractional anisotropy (FA) in the right anterior limb of the internal capsule and right un

158 The volume of the right anterior lobe of the cerebellum distinguished dysl

159 he dyslexics exhibited significantly smaller right anterior lobes of the cerebellum, pars triangulari

160 cortex (SCC-FC), bilateral anterior insula, right anterior midcingulate cortex, and the right premot

161 -old man with fever and a tender mass in his right anterior neck was found to have a branchial cleft

162 ion task, the pitch deviants evoked an early right anterior negativity (ERAN) in both groups.

163 AF procedures were 67.8+/-21 minutes in the right anterior oblique (RAO) and 61.9+/-16.6 minutes in

164 posterior, left anterior oblique (LAO), and right anterior oblique (RAO), and this sequence was repe

165 ween the tip and the cardiac contours in the right anterior oblique 30 (96.7% of leads in the non-MS

166 Knowing the right anterior oblique 30 lead position can ensure prope

167 The cardiac shadow on the right anterior oblique 30 was divided into 4 quadrants p

168 d left circumflex (LCX) arteries (30 degrees right anterior oblique and 20 degrees caudally angulated

169 d left circumflex (LCX) arteries (30 degrees right anterior oblique and 20 degrees caudally angulated

170 d left circumflex (LCX) arteries (30 degrees right anterior oblique and 20 degrees caudally angulated

171 d left circumflex (LCX) arteries (30 degrees right anterior oblique and 20 degrees caudally angulated

172 Right anterior oblique projections resulted in the least

173 l memory activated the amygdala bilaterally, right anterior parahippocampal gyrus and left insula.

174 air was detected in the following locations: right anterior pararenal space (n = 8), right perirenal

175 tential for direct communication between the right anterior pararenal space and the right perirenal s

176 Additionally, iHUDs exhibited lower right anterior PFC (aPFC) and dorsolateral PFC (dlPFC) a

177 In addition, right anterior PFC activity selectively covaried with th

178 About the right anterior portal vein variant originating from the

179 ely with DMPFC RSFC in a region spanning the right anterior/posterior insula and right temporal pole

180 (1) Right anterior prefrontal activation (similar to that se

181 an neutral cues in multiple areas, including right anterior prefrontal and bilateral parietal cortex.

182 task blocks revealed sustained activation in right anterior prefrontal cortex (PFC).

183 tex activation was lower in the patients and right anterior prefrontal cortex activation was preserve

184 this evidence, the response of the left and right anterior PTs better fulfills the criteria for sens

185 T-1 binding were significantly higher in the right anterior putamen (23%), right posterior putamen (3

186 We also modified Lee's method using right anterior (RA) and posterior (RP) where RHLV = SLVx

187 debridement of the retroperitoneal fat, the right anterior rectus sheath, and the right anterior thi

188 ior regions of the mapped network and that a right anterior region of the fusiform gyrus plays a cent

189 tectomy (resection of segments 4, 5, and 8), right anterior sectionectomy (resection of segments 5 an

190 in the alpha frequency range (8-12 Hz) over right anterior sensors were approximately antiphase in a

191 ach, the left coronary artery arose from the right (anterior) sinus of Valsalva, coursing between the

192 (but not to bodies or objects) in the rpSTS, right anterior STS (raSTS), and right amygdala, compared

193 but not to bodies or objects, in the rpSTS, right anterior STS (raSTS), and right amygdala.

194 ealed a finely graded gaze direction code in right anterior STS that was invariant to head view and p

195 n anterolateral superior temporal cortex and right anterior superior temporal cortex is a marker of r

196 dition, they highlight the importance of the right anterior superior temporal cortex where the respon

197 0(-4)) and reduced gray matter volume of the right anterior superior temporal gyrus (beta = -0.09, p

198 gyrus and posterior superior temporal gyrus, right anterior superior temporal gyrus, and left hippoca

199 en thought disorder and tissue volume in the right anterior superior temporal gyrus.

200 additionally supported by recruitment of the right anterior superior temporal lobe, a region previous

201 ally, generalization of voicing included the right anterior superior temporal sulcus associated with

202 The results suggest that the right anterior temporal and medial frontal regions are e

203 The syndrome accompanying predominant right anterior temporal atrophy has previously been desc

204 left and right precentral gyri, the left and right anterior temporal cortices, and the right inferior

205 ominant atrophy with relative sparing of the right anterior temporal lobe (n = 79) and left-predomina

206 The right Anterior Temporal Lobe (rATL), putatively involved

207 Activation in the right anterior temporal lobe and left Sylvian parietotem

208 a and semantic dementia, patients with early right anterior temporal lobe atrophy are more difficult

209 Focal right anterior temporal lobe atrophy is associated with

210 ation and care of patients with early, focal right anterior temporal lobe degeneration as well as in

211 r proper diagnosis and care of patients with right anterior temporal lobe disease.

212 The right anterior temporal lobe is likely to have a critica

213 The evidence suggests that both left and right anterior temporal lobe regions contribute to the r

214 poral lobe epilepsy before and after left or right anterior temporal lobe resection and the efficienc

215 ral lobe epilepsy is affected differently by right anterior temporal lobe resection than verbal memor

216 ed to controls between 3 and 12 months after right anterior temporal lobe resection that was associat

217 Following right anterior temporal lobe resection there was a progr

218 redicted greater visual memory decline after right anterior temporal lobe resection, while greater ri

219 llowing left and visual memory decline after right anterior temporal lobe resection.

220 able to predict visual memory decline after right anterior temporal lobe resection.

221 wing left and, to a lesser extent, following right anterior temporal lobe resection.

222 ot observed for visual memory function after right anterior temporal lobe resection.

223 following left, and visual memory following right anterior temporal lobe resection.

224 g criteria, we defined three patient groups: right anterior temporal lobe-predominant atrophy with re

225 erized, longitudinal cohort of patients with right anterior temporal lobe-predominant degeneration an

226 Right anterior temporal lobe-predominant degeneration is

227 ive (81%) and specific (84%) differentiating right anterior temporal lobe-predominant from frontal-pr

228 In the right anterior temporal lobe-predominant group, the earl

229 n (84%) was the most common pathology of the right anterior temporal lobe-predominant group.

230 ght analyses revealed a cluster spanning the right anterior temporal lobe.

231 cal Institute coordinates: -25, 2, -11), and right anterior thalamic radiation ( ATR anterior thalami

232 e test scores (P < .05) and FA values in the right anterior thalamic radiation and right geniculate n

233 s: beta = -0.042 [95% CI, -0.073 to -0.012]; right anterior thalamic radiations: beta = -0.045 [95% C

234 fornix: beta = 0.046 [95% CI, 0.019-0.074]; right anterior thalamic radiations: beta = 0.045 [95% CI

235 t, the right anterior rectus sheath, and the right anterior thigh fascia was required to gain control

236 ivalent current dipole locations of the M20 (right anterior to left), and the bipolar subjects with n

237 than in the low-(11)C-PIB group were seen in right anterior to middle cingulate, right supramarginal

238 onnectivity of bilateral ventral striatum to right anterior ventromedial subthalamic nucleus consiste

239 regional wall shear stress (P<0.0125) at the right-anterior walls for RL-BAV and right-posterior wall