ライフサイエンスコーパス: anterolateral

1 he section) were as follows: anterior 11.9%, anterolateral 15.8%, inferolateral 7.0%, inferior 24.3%,

2 olated MV operations were performed using an anterolateral 6 cm 4th intercostal space small-incision.

3 Cervical spine vertebroplasty from anterolateral access seems to be a safe, effective and b

4 Procedures were performed from anterolateral access, under local anesthesia, under x-ra

5 was to evaluate the method of treatment from anterolateral access.

6 z-scores were significantly more negative in anterolateral (AL) and mesial (M) regions on the operate

7 thway, including the middle-lateral (ML) and anterolateral (AL) belt regions of the auditory cortex,

8 RC) is subdivided into functionally distinct anterolateral (alERC) and posteromedial (pmERC) subregio

9 Two types of complete disk displacement, anterolateral and anterior, occurred frequently in patie

10 extended to involve the distal and proximal anterolateral and inferior walls.

11 odal regions in posterior inferior parietal, anterolateral and medial temporal and medial prefrontal

12 Anterolateral and posteromedial PM areas were 19.9+/-7 c

13 The number of anterolateral and posteromedial PM heads was 2.7+/-0.7 a

14 oint between the mitral annulus commissures [anterolateral and posteromedial] and z-axis directed tow

15 tex, with the former being generated in more anterolateral and the latter in more posteromedial parts

16 In particular, comprehension is dependent on anterolateral and ventral left temporal regions, as sugg

17 by 66% to 81% in the anteroseptal, anterior, anterolateral, and lateral regions (P < .05).

18 l groups embedded within an undifferentiated anterolateral area (BSTal) that architectonically resemb

19 l levels of mouse visual cortex (area 17 and anterolateral area [AL]) and then determining the relati

20 cleus and the subcommissural zone and caudal anterolateral area of the BST - cell groups involved in

21 Of the three belt areas the anterolateral area shows the highest degree of specifici

22 r "L5 feedback") in higher visual areas, AL (anterolateral area) and PM (posteromedial area), display

23 dorsal area, dorsomedial nucleus, and caudal anterolateral area, and it moderately innervates the BST

24 cleus (BSTfu) and also innervates the caudal anterolateral area, anterodorsal area, rhomboid nucleus,

25 s (primary visual cortex, lateromedial area, anterolateral area, rostrolateral area, anteromedial are

26 treated with stellate-ganglion block at the anterolateral aspect of the C6 vertebra on the right sid

27 in nonhuman primates have characterized the anterolateral auditory pathway as a processing hierarchy

28 The small barrels in rat anterolateral barrel subfield and all barrel hollows in

29 n resulted in overlapping activations at the anterolateral belt and Wernicke's area, where the respon

30 When comparing these responses with those in anterolateral belt region of the auditory cortex, which

31 RP, and activation generated EPSCs in dorsal anterolateral BNST neurons that elicited two cell-type-s

32 ent views emphasize the contributions of the anterolateral BNST region in anxiety, accumulating data

33 We report here that neurons of the dorsal anterolateral BNST respond to glutamatergic synaptic inp

34 icted low-frequency cortical region near the anterolateral border of the primary auditory cortex, and

35 rophin releasing factor (CRF) neurons in the anterolateral cell group of the bed nucleus of the stria

36 The anterolateral cluster represents a lineage derived from

37 y or diagonally was investigated in cases of anterolateral cordotomy and in a case of thrombosis of t

38 e pattern consisted of late activation in an anterolateral corridor of the RA, and a second pattern c

39 s of diaphragm muscle were obtained from the anterolateral costal regions of the stimulated and inact

40 efined clusters located in the anteromedial, anterolateral, dorsal, and basoposterior brain, respecti

41 ic mitral regurgitation, at end systole, the anterolateral edge of the central scallop was displaced

42 nonprimary auditory cortex, overlapping the anterolateral end of Heschl's gyrus.

43 liest in brain regions that overlap with the anterolateral entorhinal cortex (alERC).

44 the early primitive streak was seen from the anterolateral epiblast.

45 whether the lateromedial field (LM) and the anterolateral field (AL), which are the principal target

46 ed the magnitude of hypertrophy in the basal anterolateral free wall (by 20+/-6%; P=0.001), as well a

47 ignificant regional conduction delays in the anterolateral free wall of the RV outflow tract of BS pa

48 ental LV hypertrophy largely confined to the anterolateral free wall, posterior septum, or apex, whic

49 nodes (receivers of influence) were found in anterolateral frontal, superior parietal, and superior t

50 ose that are already within the anterior and anterolateral funiculi and those that are crossing the c

51 Furthermore, we could detect an anterolateral gradient of WCS onset within one recording

52 The anterolateral group of the bed nuclei of the stria termi

53 The anterolateral group of the bed nucleus of the stria term

54 trol network (central amygdalar nucleus, BST anterolateral group, descending paraventricular hypothal

55 and location in parallel anterior "what" (in anterolateral Heschl's gyrus, anterior superior temporal

56 We also observed that, in anterolateral HG, the power of high gamma responses to p

57 Compared to posteromedial HG, responses from anterolateral HG-an auditory belt field-exhibited longer

58 fied a cortical network comprising the right anterolateral hippocampus-a region modulating the hypoth

59 striatum dorsale and hyperstriatum ventrale, anterolateral hyperstriatum adjacent to the vallecula, c

60 rtebrates, the peptidergic somata lie in the anterolateral hypothalamus.

61 nts (12 ankles) with arthroscopically proved anterolateral impingement and in 19 control subjects (20

62 l MR imaging of the ankle is insensitive for anterolateral impingement.

63 , the central cardiac region in one, and the anterolateral-inferior fundal border in one.

64 ntral arborisations in the ventral neuropil (anterolateral interneurones 1-6, ALIN1-ALIN6) and those

65 the anterior ectosylvian visual area and the anterolateral lateral suprasylvian visual area, as well

66 splaced from CTL by 2.9+/-0.23 mm toward the anterolateral left ventricle and 2.5+/-0.12 mm toward th

67 Coronary occlusion produced stunning of the anterolateral left ventricle that resolved over 24 hours

68 EPCM was sutured to the anterolateral left ventricular wall, which included the

69 ons may disrupt projections from M3, whereas anterolateral lesions may disrupt projections from M1 an

70 of the split in contact with the globe at an anterolateral location, suggesting an inadequate posteri

71 e undetected areas of wall thickening in the anterolateral LV free wall (17 to 20 mm), which resulted

72 sment of LV hypertrophy, particularly in the anterolateral LV free wall, and represents a powerful su

73 The infarctions were localized to the anterolateral LV wall.

74 The nonvolitional technique of bilateral anterolateral magnetic stimulation of the phrenic nerves

75 Besides the generally identified groups of anterolateral, medial, and posterolateral neurons within

76 precursors were observed migrating from the anterolateral mesoderm in living embryos from 16 to 28 h

77 ood-sampling algorithm on recovery-corrected anterolateral myocardial regions of interest.

78 Patterning of the anterolateral neural plate (telencephalon) may be regula

79 sting that FGF8 regulates the development of anterolateral neural plate derivatives.

80 reas the spatial selectivity was better than anterolateral neurons.

81 in the hypothalamus, the pretectum, and the anterolateral optic tectum.

82 l 6 basal segments (anteroseptal, P=0.01 and anterolateral, P<0.001).

83 h arrhythmia foci being mapped at either the anterolateral papillary muscle or posteromedial papillar

84 cle level; also, in 1 patient, attachment of anterolateral papillary muscle with the lateral free wal

85 nd septally (5.8+/-1.5 mm, P<0.001), and the anterolateral papillary tip underwent greater septal-lat

86 fourth pattern defines two other nuclei, the anterolateral periolivary nucleus (rostral) and the post

87 te (dACC), right dorsolateral, and bilateral anterolateral prefrontal (alPFC) cortices.

88 rate that the functional organization of the anterolateral processing pathway in humans is largely co

89 ing evidence supports the hypothesis that an anterolateral processing pathway mediates sound identifi

90 1 had normal tests, but the other developed anterolateral Q waves.

91 of sensory loss following transection of the anterolateral quadrant of the cord consists of a narrow

92 ted by stimulation sites that were both more anterolateral (r = .51, p < .01) and more negatively cor

93 fication of a late-activated corridor in the anterolateral RA.

94 s (diameter 25-40 mu m) are clustered in the anterolateral region of the eighth abdominal neuromere,

95 in the inferobasal region, 9 (39.1%) in the anterolateral region, 4 (17.4%) in the RVOT, and 6 (26.1

96 in the inferobasal region, 12 (26.6%) in the anterolateral region, 8 (17.7%) in the RV outflow tract

97 e midpart of the mitral annulus and near the anterolateral region; 3) increased posterior mitral leaf

98 Electrograms were recorded from the anterolateral right atrium, His bundle position, and cor

99 mostly because of a significant delay in the anterolateral right ventricular outflow tract.

100 ally and 0.9+/-0.6 mm apically away from the anterolateral scallop; such displacement correlated with

101 pontine parabrachial nucleus and targets its anterolateral sector (BNST-AL).

102 lusion led to hypokinesia of the anterior or anterolateral segments of the myocardium.

103 Hex-expressing cells reveals an anterior and anterolateral shift from their distal epiblast position.

104 icular apex) of the posterior leaflet on the anterolateral side (eg, 7.0 versus 6.2 mm), which is ana

105 nstrate that functional connectivity between anterolateral superior temporal cortex and right anterio

106 nguage deficits associated with altered left anterolateral superior temporal cortex connectivity in a

107 h comprehension in normal subjects with left anterolateral superior temporal cortex connectivity in a

108 normal narrative speech comprehension, left anterolateral superior temporal cortex displayed positiv

109 We compared the organization of left anterolateral superior temporal cortex functional connec

110 onnectivity and with local activation in the anterolateral superior temporal cortex.

111 ty of a key speech-processing region in left anterolateral superior temporal cortex.

112 frontal gyrus and homotopic cortex in right anterolateral superior temporal cortex.

113 with the degree of disruption of left-right anterolateral superior temporal cortical connectivity an

114 functional connection between left and right anterolateral superior temporal cortices.

115 nferiorly, extending to the pelvis along the anterolateral surface of the psoas muscle; and laterally

116 timodal 'wide dynamic range' neurones of the anterolateral system.

117 enhanced or depressed during arousal via the anterolateral system.

118 of structural deficit, revealed significant anterolateral temporal atrophy (especially on the left),

119 semantic dementia have prominent atrophy in anterolateral temporal cortex and also have significant

120 mine the consequences of focal damage to the anterolateral temporal cortex for the operation of this

121 enial cortices with predominately medial and anterolateral temporal cortex.

122 gion critical to semantic processing, is the anterolateral temporal lobe, especially on the left.

123 own to be severely impaired by damage to the anterolateral temporal lobe.

124 NTLE patients demonstrated seizure onset in anterolateral temporal neocortex on electroencephalograp

125 asurements of skin-to-muscle depth (STMD) at anterolateral thigh and anterior thigh were performed.

126 than AAI needle length (15.02 mm), using the anterolateral thigh as the recommended administration si

127 rapy, delivered via ice cup massage over the anterolateral thigh.

128 otomy in 227, partial sternotomy in 349, and anterolateral thoracotomy in 241.

129 complete sternotomy, partial sternotomy, and anterolateral thoracotomy, respectively.

130 tial sternotomy, and 42 (18 and 90) days for anterolateral thoracotomy.

131 organized somatotopically, with hand fibers anterolateral to foot fibers, not anteromedial as is cur

132 verlapping layer VI-to-II sequence and in an anterolateral to posteromedial gradient [the transverse

133 SAHS have excess fat deposition, especially anterolateral to the upper airway when compared with con

134 t in control subjects was localized to areas anterolateral to the upper airway, the differences were

135 egions of Pf as well as the posteromedial to anterolateral topographic gradient of increasing Pf proj

136 tk have significant [18F]-FHBG uptake in the anterolateral wall compared with background signal in co

137 Shortening FRPs in the anterolateral wall of the ventricle increased the amplit

138 selectively depressed left ventricular (LV) anterolateral wall strain (LWS) and right ventricular (R

139 in components were typically greatest in the anterolateral wall, increased toward the apex, and incre

140 ocardial probe accumulation, was seen in the anterolateral walls of the infarcted mice but not in the