ライフサイエンスコーパス: planum temporale

1 ot correlate with leftward laterality of the planum temporale.

2 abnormalities within the caudate nucleus and planum temporale.

3 ctors and the asymmetry of the length of the planum temporale.

4 itory areas: primary auditory cortex and the planum temporale.

5 tion between the two types of stimuli in the planum temporale.

6 temporal gyrus, Heschl's gyrus (HG), and the planum temporale.

7 erior temporal gyrus: Heschl's gyrus and the planum temporale.

8 right Heschl's gyrus or in the right or left planum temporale.

9 ent identification of Heschl's gyrus and the planum temporale.

10 ex, in parietal and frontal lobes and in the planum temporale.

11 ate gyri, posterior supramarginal gyrus, and planum temporale.

12 tic-lexical network, which also includes the planum temporale.

13 rence, -0.03 [95% CI, -0.04 to -0.01]), left planum temporale (0.26 [0.04] vs 0.28 [0.03]; mean diffe

14 tively), smaller gray matter volumes of left planum temporale (21.0% relative to both), and a smaller

15 volume was significantly reduced in the left planum temporale (28.2%) in schizophrenic patients compa

16 ime in the left Heschl gyrus (6.9%) and left planum temporale (7.2%) compared with patients with firs

17 and left hemisphere size predominance of the planum temporale, a language area of the human brain, ar

18 conclude that bilateral hippocampal and left planum temporale abnormalities are present near the onse

19 To investigate further the role of planum temporale abnormalities in schizophrenia, we meas

20 ationship between rightward asymmetry of the planum temporale and atypical language (R = 0.70, P < 0.

21 h language functions in humans including the planum temporale and frontal operculum.

22 Minicolumn distribution in planum temporale and Heschl's gyrus was assessed on Niss

23 response latencies up to 350 ms, and in both planum temporale and Heschl's gyrus.

24 Finally, the volumes of planum temporale and HG were significantly larger in the

25 polare and anterior STG, and (2) the lateral planum temporale and posterior STG.

26 ty only, were significantly increased in the planum temporale and posterior superior temporal gyrus c

27 ior planum polare) and posterior "where" (in planum temporale and posterior superior temporal gyrus)

28 es in lateral temporal cortex, including the planum temporale and superior temporal sulcus.

29 y between the left auditory motion-sensitive planum temporale and the left medial geniculate body.

30 Areas and volumes of Heschl's gyrus and planum temporale and the separation of the minicolumns t

31 emporale, manner discrimination to posterior planum temporale and voicing discrimination to pSTS.

32 face area, gray matter volume underlying the planum temporale, and gray matter thickness.

33 ces in volumes of the hippocampus, amygdala, planum temporale, and Heschl's gyrus were tested.

34 l gyrus and adjacent anterior angular gyrus, planum temporale, and posterior superior temporal gyrus.

35 y associated (P < 0.05) with atrophy of left planum temporale, angular gyrus and anterior cingulate g

36 rus of the inferior parietal lobule, and the planum temporale are brain regions that play a critical

37 the primary auditory cortex and the adjacent planum temporale are hardly affected by attention, where

38 trols) that normal age-associated changes in planum temporale are not found in schizophrenia.

39 Planum temporale area and asymmetry were measured in 16

40 adolescents and those with schizophrenia in planum temporale area or asymmetry were observed.

41 rimary auditory cortex (area 41/42), and the planum temporale (area 22).

42 We propose a model of the human planum temporale as a computational engine for the segre

43 al functional imaging studies identified the planum temporale as being motion selective.

44 These findings do not support anomalous planum temporale asymmetry as a basis for psychopatholog

45 Planum temporale asymmetry emerged as especially suscept

46 ed a reversal of the left greater than right planum temporale asymmetry found in normal controls.

47 Anomalous planum temporale asymmetry has been linked to both schiz

48 ychotic language disorder predicted abnormal planum temporale asymmetry in the adolescents with schiz

49 relation between language lateralization and planum temporale asymmetry in the control group.

50 anum temporale gray matter and a reversal of planum temporale asymmetry, which may underlie an impair

51 ntary and pre-supplementary motor areas, and planum temporale), b) domain-general creative-ideation r

52 whether the superior temporal gyrus and the planum temporale, both parts of the anatomic substrate f

53 between the primary auditory cortex and the planum temporale but largely fails to reach higher proce

54 Left posterior STG and the left planum temporale, but not other regions of interest, wer

55 Gray matter volume of the left planum temporale differed among the 3 groups.

56 sures of the superior temporal gyrus and the planum temporale for 17 community-dwelling patients with

57 condary auditory cortices (planum polare and planum temporale) for nonperiodic than periodic sequence

58 e measured gray matter volume underlying the planum temporale from high spatial resolution magnetic r

59 atients with schizophrenia have reduced left planum temporale gray matter and a reversal of planum te

60 Volume of planum temporale gray matter did not show significant as

61 ive volume reduction in the Heschl gyrus and planum temporale gray matter in patients with first-epis

62 with first-episode schizophrenia showed left planum temporale gray matter volume reduction and bilate

63 ch negativity amplitude and Heschl gyrus and planum temporale gray matter volumes.

64 The Heschl gyrus and planum temporale have crucial roles in auditory percepti

65 l response to the figure in auditory cortex (planum temporale, Heschl's gyrus).

66 tions were also tested on asymmetries of the planum temporale, Heschl's gyrus, and superior temporal

67 cations can be reliably decoded in the human planum temporale (hPT) and that they rely on partially s

68 n the processing of visual motion, while the planum temporale (hPT) specializes in auditory motion pr

69 g auditory motion processing, like the human planum temporale (hPT), remains equivocal.

70 rence for auditory motion in bilateral human planum temporale (hPT).

71 These findings causally implicate planum temporale in acoustic scene analysis and suggest

72 licate the posterior superior temporal gyrus/planum temporale in auditory motion processing.

73 n was higher in hMT(+)/V5 and lower in human planum temporale in blind relative to sighted people; an

74 bilaterally in the Heschl gyrus and in left planum temporale in patients with first-episode schizoph

75 gray matter volumes of the Heschl gyrus and planum temporale in patients with first-episode schizoph

76 The cortical surface area of planum temporale in the left hemisphere (usually asymmet

77 = 0.70, P < 0.0001); patients with a longer planum temporale in the right (unaffected) hemisphere we

78 The length of the planum temporale in the right hemisphere was the main pr

79 It is widely accepted that the planum temporale is a key component of Wernicke's recept

80 It is increasingly recognized that the human planum temporale is not a dedicated language processor,

81 contains the auditory cortex, including the planum temporale, is the most consistently altered neoco

82 The planum temporale, located on the posterior and superior

83 TTG, vowel discrimination to lateral TTG and planum temporale, manner discrimination to posterior pla

84 pants recruited left superior temporal gyrus/planum temporale, matching the pattern observed in Chine

85 We conclude that asymmetry of the planum temporale may be unrelated to language lateraliza

86 e auditory-motion-sensitive part of the left planum temporale (mPT).

87 f intracranially implanted electrodes in the planum temporale of a neurosurgical patient significantl

88 The authors examined the planum temporale of adolescents with childhood-onset sch

89 Here we examined the asymmetry of the planum temporale, one of the most striking asymmetries i

90 The second, localized to planum temporale only in language-dominant cortex and in

91 terior superior temporal sulcus (RTPJ/pSTS), planum temporale/parietal operculum (PT/PO), and posteri

92 This cortical region, the planum temporale (part of Brodmann's area 22), has a cyt

93 l posterior network of activation, including planum temporale (PT) and parieto-temporal operculum (PT

94 mplanted intracranial electrodes in the left planum temporale (PT) of a neurosurgical patient signifi

95 ffin-embedded, 10-mum-thick section from the planum temporale (PT) of each hemisphere was prepared fr

96 Although delay-period activation in the planum temporale (PT) was insensible to the source modal

97 contralateral speech in Heschl's gyrus (HG), planum temporale (PT), and superior temporal gyrus (STG)

98 erolateral portion of Heschl's gyrus (HGAL), planum temporale (PT), planum polare, insula, and superi

99 located mainly in the posterior half of the planum temporale (PT).

100 ll found to activate Heschl's gyrus (HG) and planum temporale (PT).

101 auditory cortex posterior to Heschl's gyrus [planum temporale (PT)] and inferior parietal lobule.

102 , but the size of the right, contra-lesional planum temporale region may reflect a 'reserve capacity'

103 eview of 34 MRI and 5 post-mortem studies of planum temporale reveals that half of those measuring re

104 upts speech perception, while stimulation of planum temporale selectively disrupts speech production.

105 network-level functional analyses placed the planum temporale sites in between the sites in the prima

106 ver, the specificity of the Heschl gyrus and planum temporale structural abnormalities to schizophren

107 genetic influences on the right versus left planum temporale structure.

108 This included the planum temporale, superior parietal cortex, and premotor

109 s (ventral precentral gyrus), regular words (planum temporale, supramarginal gyrus, ventral precentra

110 This study extends the finding of reversed planum temporale surface area asymmetry in schizophrenic

111 triking reversal of the normal asymmetry for planum temporale surface area in the male and female sch

112 Although right planum temporale surface area is larger than normal in s

113 The authors measured planum temporale surface area, gray matter volume underl

114 e normal left-larger-than-right asymmetry of planum temporale surface area.

115 l gyrus, which includes the Heschl gyrus and planum temporale, the latter being an important substrat

116 The planum temporale, the posterior superior surface of the

117 ificantly stronger feedback connections from planum temporale to primary auditory cortex bilaterally,

118 roach and lower expression scores within the planum temporale using ICA.

119 drome Scale was associated with reduced left planum temporale volume in schizophrenic patients.

120 In Down's syndrome, planum temporale volume may be selectively smaller than

121 The planum temporale volume of the patients with Down's synd

122 schizophrenia had significantly smaller left planum temporale volume than controls (20.0%) and patien

123 yndrome, neither superior temporal gyrus nor planum temporale volume was significantly correlated wit

124 s had smaller bilateral hippocampal and left planum temporale volumes than the comparison subjects.

125 relations of the superior temporal gyrus and planum temporale volumes with performance on tests of la

126 icolumn asymmetry of both Heschl's gyrus and planum temporale was correlated with axon number in the

127 , and the gray matter thickness of the right planum temporale was only 50% of the comparison value.

128 Surface area asymmetry of planum temporale was reduced in patients with schizophre

129 The left planum temporale was significantly larger in 94 percent

130 Bilaterally, gray matter volume beneath the planum temporale was smaller in the schizophrenic patien

131 o difference in the activation levels in the planum temporale when comparing motion and stationary co

132 asymmetry in dyslexia similar to that of the planum temporale, which in our view reflects abnormality

133 ost prominent in primary auditory cortex and planum temporale, with no such changes in adjacent audit