ライフサイエンスコーパス: medial wall

1 nsory areas in the lateral sulcus and on the medial wall.

2 s accompanied by degenerative changes of the medial wall.

3 more anteriorly along the dorsal surface and medial wall.

4 mproves visualization of the papilla and the medial wall.

5 Participants received lateral wall, medial wall, 2.5 wall, or 3 wall decompression and were

6 reased PCNA labeling of DNA synthesis in the medial wall 48 hours after injury.

7 s of individual activation patterns revealed medial wall abnormalities in schizophrenia patients.

8 ubjects with schizophrenia displayed maximum medial wall activation within the dorsal anterior cingul

9 The nostrils have a rectangular medial wall and a funnel-like lateral opening, nasal cha

10 nnected with the medial network areas on the medial wall and gyrus rectus (areas 10m, 10o, 11m, 13a,

11 ation of the palatonasal recess (PNR) on the medial wall and identify risk sites that are related to

12 ulate zone and rostral-cingulate zone in the medial wall and in the putamen.

13 upplementary motor area (SMA), cortex on the medial wall, and from posterior parietal areas 5L and 7b

14 For midfacial, lateral, supraorbital, medial wall, and nasoethmoidal fractures, repair within

15 cortex, the supplementary motor area on the medial wall, and the rostral and caudal cingulate cortex

16 ake had greater gray matter volume along the medial wall, anterior cingulate cortex, medial parietal

17 al medullary lamina site in thalamus and the medial wall area in frontal cortex produced impairments

18 imal area, medial wall area, neointimal area/medial wall area ratio, and neointimal thickness compare

19 bited significantly reduced neointimal area, medial wall area, neointimal area/medial wall area ratio

20 The medial wall areas 25 and 32 send the heaviest projection

21 ing (fMRI) to investigate the role played by medial wall areas in humans during working memory tasks.

22 , while the posterior cingulate and adjacent medial wall areas preferentially targeted 6DR.

23 A few motile cilia are also found on the medial wall, but most cilia (92-98%) in the otic vesicle

24 orbital apex angle, globe diameter, and bony medial wall contour were not associated with optic neuro

25 e of activity in the brain stem, but also in medial wall cortical regions projecting to the adrenal m

26 neuronal activity of these 2 regions on the medial wall during both perceptual and internally guided

27 We present a case with medial wall fracture and medial rectus entrapment.

28 Isolated medial wall fractures are far less common than floor fra

29 While isolated medial wall fractures are uncommon and most of the time

30 ith adduction or abduction deficit following medial wall fractures.

31 en extensively studied, the structure of the medial wall has never been investigated.

32 Consequently, each of the motor areas on the medial wall has the potential to generate and control mo

33 Treated mice developed severe medial wall hypertrophy, intima proliferation, and vario

34 hese results highlight the importance of the medial wall in choice, endorse a specific gradient-based

35 d activity over working memory delays in the medial wall in relation to these functional landmarks du

36 r multiple comparisons) located on the right medial wall in the supplementary motor area ('SMA proper

37 ime dramatic disparities in the frequency of medial wall invasion among pathological subtypes.

38 ictive value of intraoperative evaluation of medial wall invasion of 78%.

39 rgical timing, globe/soft tissue repair, and medial wall involvement.

40 h Ad-luc or PBS controls, with no changes in medial wall morphometry observed between the 3 groups.

41 Finally, we show that there is activity in medial wall motor areas, reflecting an urge to withdraw

42 cond, using fMRI, we show that two important medial wall motor cortical regions emerge in relation to

43 Somatotroph tumors invaded the medial wall much more often than other adenoma subtypes,

44 the intralaminar thalamic nuclei (ILn), the medial wall (MW) area of prefrontal cortex, and the hipp

45 ish a new functional axis characterizing the medial wall of prefrontal cortex.

46 put to glomeruli on the lateral or posterior medial wall of the bulb.

47 findings suggest that tumor invasion of the medial wall of the cavernous sinus may explain the relat

48 endoscopic intraoperative inspection of the medial wall of the cavernous sinus, which was surgically

49 Since the medial wall of the cerebral hemisphere is commonly spare

50 Because the medial wall of the cerebral hemisphere is often spared f

51 signal by pushing the electrode against the medial wall of the cochlea) were voluntarily recalled in

52 to increased production of CR cells from the medial wall of the cortex.

53 axons, the nascent internal capsule, or the medial wall of the dorsal telencephalon (MDT), respectiv

54 the gastroscope and for most lesions on the medial wall of the duodenum within 5 cm of the ampulla.

55 us, and the anterior cingulate cortex in the medial wall of the frontal lobe are the source of this i

56 tor cortex and in several motor areas on the medial wall of the hemisphere project to the vermis.

57 lar projections to two cortical areas on the medial wall of the hemisphere, the supplementary motor a

58 to identify the cingulate motor areas on the medial wall of the hemisphere.

59 or area and the cingulate motor areas on the medial wall of the hemisphere.

60 rtex, especially from the motor areas on the medial wall of the hemisphere.

61 inactivated part of the macaque PRR, in the medial wall of the intraparietal sulcus, and produced th

62 l surface of the cerebral hemisphere and the medial wall of the lateral ventricle on images that depi

63 howed bone destruction of the skull base and medial wall of the left orbit.

64 ence of the distance from the lateral to the medial wall of the maxillary sinus on the outcomes of si

65 side of the nostril sulcus representing the medial wall of the nostril is rectangular, whereas the s

66 ectopic delamination of some cells from the medial wall of the otic vesicle but with a low incidence

67 blated, and zp23 is expressed throughout the medial wall of the otic vesicle.

68 sonance imaging (fMRI), that a region of the medial wall of the precentral gyrus consistently activat

69 rence Task produced robust activation in the medial wall of the prefrontal cortex during cognitive in

70 nd neutral blocks revealed activation in the medial wall of the prefrontal cortex in 93% (N=14) of th

71 ht the importance of distinct regions on the medial wall of the right frontal lobe in regulating diff

72 ner should make a direct attempt to find the medial wall of the ventricle and distinguish it from the

73 cal smooth muscle cells in the neointima and medial walls of pulmonary arteries.

74 on the lateral and, in some cases, posterior medial walls of the olfactory bulb.

75 of orbital geometry, including bowing of the medial wall, orbital apex angle, globe diameter, and orb

76 s, with significantly reduced neointimal and medial wall PCNA labeling and cell counts after 14 days.

77 erior cingulate cortex (ACC) and the related medial wall play a critical role in recruiting cognitive

78 -treated CAs demonstrated a 50% reduction in medial wall proliferating cell nuclear antigen (PCNA) la

79 cumference at all the locations, whereas the medial walls proximal to the descending colon were out o

80 gnetic stimulation, that the fMRI-identified medial wall region is likely to generate pelvic floor mu

81 Medial wall resection in acromegaly resulted in the high

82 Medial wall resection was performed in 47% of pituitary

83 l cell layer and stenotic versus nonstenotic medial wall thickening.

84 Of these, carotid intimal-medial wall thickness (IMT) is particularly relevant, be

85 s used to determine carotid arterial intimal-medial wall thickness (IMT).

86 m and GC: 215+/-5 mum) with no difference in medial wall thickness (SF: 12.4+/-1.6 mum; GC: 12.2+/-1.

87 dle age, with average carotid artery intimal-medial wall thickness by B-mode ultrasound measured in m

88 etuses treated with placebo had an increased medial wall thickness of peripheral pulmonary vessels (4

89 omputed tomography and carotid artery intima-medial wall thickness using ultrasonography.

90 n small distal pulmonary arteries, increased medial wall thickness, and decreased arterial-to-alveola

91 ry endothelial vasodilation, carotid intimal-medial wall thickness, and distensibility of the carotid

92 nhances myogenic vasoconstriction, increases medial wall thickness, and elicits no change in the mech

93 ical cardiovascular disease (carotid intimal-medial wall thickness, ankle-arm blood pressure index, a

94 ples from the PA and aorta were analyzed for medial wall thickness, distribution of the staining of c

95 CB-EPCs show reduced vasoactivity, increased medial wall thickness, increased calcification and apopt

96 ment in terms of the largest decrease in the medial wall thickness, perivascular fibrosis, and vascul

97 ular disease, as measured by carotid intimal-medial wall thickness, with HIV infection, fat distribut

98 modeoxyuridine staining, or pulmonary artery medial wall thickness.

99 posterior parietal cortex extending from the medial wall to lateral to the intraparietal sulcus.

100 MKIIgamma and upregulation of CaMKIIdelta in medial wall VSM.

101 Removal of the cavernous sinus medial wall was not associated with permanent cranial ne