ライフサイエンスコーパス: left temporal lobe

1 detected a single hyperintense lesion in the left temporal lobe.

2 se had atrophy that included portions of the left temporal lobe.

3 ion cortex in ventral-medial portions of the left temporal lobe.

4 ominantly or exclusively within the anterior left temporal lobe.

5 F volume, especially in the frontal lobe and left temporal lobe.

6 in anisotropy within the white matter of the left temporal lobe.

7 rocess, at least for verbal material, in the left temporal lobe.

8 confluent enhancing nodules and edema in the left temporal lobe.

9 ions that included the prefrontal cortex and left temporal lobe.

10 nderwent temporal lobe resective surgery (49 left temporal lobe, 36 right temporal lobe) for whom nam

11 sentation, was distributed along the ventral left temporal lobe and along the extent of both superior

12 uptake of both tracers was increased in the left temporal lobe and in the right temporal pole, as we

13 cortical thickness correlations between the left temporal lobe and left occipital cortex not showing

14 the frontal lobes, anterior cingulate gyrus, left temporal lobe, and of white matter bilaterally in t

15 semantic dementia patients with predominant left temporal lobe atrophy showed better recognition of

16 revealed a significant hypometabolism in the left temporal lobe (BAs 20, 36 and 38), in the right fro

17 , revealed significant hypometabolism in the left temporal lobe (Brodmann areas [BAs] 20, 36, and 38)

18 The manner in which the right and left temporal lobes contribute to semantic knowledge is

19 tion, are relatively common after unilateral left temporal lobe damage, and they clarify the lesion c

20 This P300 asymmetry suggests left temporal lobe dysfunction at the onset of schizophr

21 ted potential (ERP) has provided evidence of left temporal lobe dysfunction in schizophrenia.

22 uency tasks in 12 right-handed patients with left temporal lobe epilepsy (LTLE) and 12 right-handed h

23 Sixty-six patients with left temporal lobe epilepsy (LTLE) and 87 control patien

24 ypical dominance is greater in patients with left temporal lobe epilepsy and has been shown to be ass

25 agnetic resonance images of 21 patients with left temporal lobe epilepsy and medically intractable co

26 th improved verbal learning in patients with left temporal lobe epilepsy from preoperatively to 12 mo

27 related analysis revealed that patients with left temporal lobe epilepsy had greater activation in th

28 Left temporal lobe epilepsy patients showed increased ri

29 tients and the group effect in patients with left temporal lobe epilepsy suggest that minor structura

30 resonance imaging analysis revealed that in left temporal lobe epilepsy, greater left hippocampal ac

31 In left temporal lobe epilepsy, greater left than right ant

32 emporal lobe resection than verbal memory in left temporal lobe epilepsy.

33 ht into a functional dissociation within the left temporal lobe for compositional and distributional

34 oral regions for posterior cortical atrophy, left temporal lobe for logopenic progressive aphasia and

35 surgical resection from either the right or left temporal lobe for the relief of intractable epileps

36 of the anterior, inferolateral parts of the left temporal lobe for the representation of names and t

37 erebral cortices on the left side and severe left temporal lobe hypoperfusion.

38 Together, these results suggest that left temporal lobe injury is associated with potentially

39 e for other routes from visual cortex to the left temporal lobe language areas.

40 yrus metabolism, and increases in normalized left temporal lobe metabolism.

41 bally corrected ROI means indicated that the left temporal lobes of individuals with schizophrenia we

42 30 min, patients with epileptic foci in the left temporal lobe performed disproportionately poorly o

43 age was associated with reduced activity in left temporal lobe regions from 250 to 350 ms and in lef

44 e left hippocampal remnant at 3 months after left temporal lobe resection compared to control subject

45 rning occur among patients with right versus left temporal lobe resections.

46 o significant differences in total cerebral, left temporal lobe, right temporal lobe, or total tempor

47 y, and visual episodic memory improved after left temporal lobe surgery, indicating a functional rele

48 renics displayed smaller amplitudes over the left temporal lobe than first-episode affective psychoti

49 cts of music perception/reproduction and the left temporal lobe to language semantics; both these reg

50 ophy group was reduced by 37%, with the mean left temporal lobe volume reduced by 19%.

51 All tumors localized in the left temporal lobe were HGG.

52 Neural responses in the left temporal lobe were observed for both spoken sentenc

53 The pathology starts at the tip of the left temporal lobe where, in addition to cortical atroph

54 ss of the right ventral frontal area and the left temporal lobe, which represented a close mirror ima

55 s showed that volumes of cortex areas in the left temporal lobe, which were associated with postopera

56 phasia to ventral and medial portions of the left temporal lobe, while regression analyses in Alzheim