ライフサイエンスコーパス: delayed phase

1 lower in attenuation than the thyroid in the delayed phase.

2 ons had a difference of -58 HU +/- 26 in the delayed phase.

3 ed from arterial phase and total volume from delayed phase.

4 ished the levels of GTP-bound Rho during the delayed phase.

5 noma, tumor attenuation increased during the delayed phase.

6 eatest tumor conspicuity occurred during the delayed phase.

7 he value of whole-body scanning in early and delayed phases.

8 econtrast, late arterial, portal venous, and delayed phases.

9 illustrates complications in both early and delayed phases.

10 dia were observed in all patients during the delayed phase (15 to 60 s after adenosine injection), su

11 Abeta status was determined from delayed-phase (18)F-FBB PET scans (90-110 min post-injec

12 ntain basal proteasome levels, and in a more delayed phase (7-10 days after denervation), it stimulat

13 AP1-mediated ubiquitination of RIP1, and the delayed phase, activated by TRAF2/cIAP1-dependent recrui

14 during the arterial, venous, and 3-5-minute delayed phases after intravenous bolus injection of gado

15 But MMPs may have a different role during delayed phases after stroke.

16 e of rescue medication) during the 25-120 h (delayed phase) after initiation of emetogenic chemothera

17 genes, and leads to a long circadian period, delayed phase, and defective overt circadian output at s

18 lower in attenuation than the thyroid in the delayed phase, and type C lesions were neither higher in

19 diagnostic performance was enhanced by using delayed phases at multiphase CT angiography examinations

20 Delayed-phase complete CIV control was more likely in pa

21 and antiemetic regimen were associated with delayed-phase complete CIV control.

22 terial enhancement and washout on venous and delayed-phase computed tomography (CT) imaging, which is

23 To retrospectively evaluate delayed-phase computed tomography (CT) in the differenti

24 Delayed phase CT did not improve lesion detection either

25 hemorrhage or a contained vascular injury at delayed-phase CT (P < .001).

26 In blunt splenic injury, delayed-phase CT helps differentiate patients with activ

27 pid decline on portal venous phase (PVP) and delayed phase (DP) at 5 minutes (type 1 pattern: normal

28 sea/vomiting (CINV), particularly during the delayed phase (DP; 25 to 120 hours).

29 Purpose To evaluate the performance of a delayed-phase dynamic contrast-enhanced (dDCE) MRI model

30 CIV control with complete CIV control in the delayed phase (end of acute phase until <= 96 hours late

31 te phase over the first 10 min followed by a delayed phase from 2 to 7 h.

32 o emesis or use of rescue medication) in the delayed phase (>24-120 h after initiation of chemotherap

33 o emesis or use of rescue medication) in the delayed phase (>24-120 h after initiation of chemotherap

34 mages may help to distinguish the CC seen on delayed phase images from lymph nodes, the azygos vein,

35 nenhanced, arterial phase, venous phase, and delayed phase images were 0.92, 0.98, 0.99, and 2.13, re

36 Arterial, portal, and delayed phase images were obtained after injection of ga

37 Comparison of delayed phase images with SSFSE and venous phase images

38 nced set, three (9%) endoleaks (seen only on delayed phase images) were missed.

39 ere compared on arterial, portal venous, and delayed phase images, the mean areas of hemorrhage acros

40 was measured on arterial, portal venous, and delayed phase images.

41 ent--similar to the enhancement of veins--on delayed phase images.

42 gh SI, similar to the azygos vein SI, on all delayed phase images.

43 portal venous phase phase images, and 30 on delayed phase images.

44 ned hyperattenuating or increased in size on delayed-phase images.

45 forming an oxime bond with allysine enabled delayed phase imaging of kidney fibrogenesis.

46 ed vascular injury (group 2) on the basis of delayed-phase imaging findings.

47 d decreased conspicuity at portal venous and delayed-phase imaging.

48 The delayed phase is particularly important because it ampli

49 within the gastrointestinal tract, while the delayed phase occurs following substance P (SP) release

50 The second, delayed phase occurs in response to LPS alone over long

51 ly weak elevation in phosphorylation and the delayed phase of a much more robust phosphorylation incr

52 periodic conditions, showing a significantly delayed phase of activity.

53 The delayed phase of arachidonic acid release and of PGD2 ge

54 CREB-regulated genes, cAMP triggers a second delayed phase of gene expression that proceeds via the H

55 lism and microbicidal function, reducing the delayed phase of intracellular bacterial clearance in CO

56 RNAs trigger cardioprotection similar to the delayed phase of IPC, possibly through upregulating eNOS

57 a, and IL-10, secrete IL-6 and demonstrate a delayed phase of PGD(2) generation that is dependent upo

58 inding to synaptotagmin-1; however, a second delayed phase of release, referred to as asynchronous re

59 ponse to TNF, an agonist triggering only the delayed phase of ROS generation, was also unaffected in

60 gesting that this enzyme may account for the delayed phase of superoxide production in these cells.

61 uiescent cells with IL-3 correlated with the delayed phase of the response.

62 central tachykinin NK1 receptors during the delayed phase of vomiting produced by chemotherapeutics.

63 ha activity augments injury in the acute and delayed phases of cerebral ischemia and reperfusion inju

64 ment for cPLA2 in both the immediate and the delayed phases of eicosanoid generation by bone marrow-d

65 to via selection on two major genes-one that delayed phasing of the clock with daylight, whereas the

66 ol group achieved a complete response in the delayed phase (p<0.0001).

67 to 3-fold amplification of PGHS-2 induction, delayed-phase PGD(2) generation, and IL-6 secretion in r

68 nic acid to concomitantly induced PGHS-2 for delayed-phase PGD2 biosynthesis in activated BMMC.

69 A2 inhibitor, 12-epi-scalaradial, suppressed delayed-phase PGD2 generation at concentrations that did

70 PGHS-2-dependent delayed-phase PGD2 generation elicited by IgE-dependent

71 n by providing arachidonic acid, its role in delayed-phase PGD2 generation is more complex and involv

72 ated and the cytokine-primed, IgE-dependent, delayed-phase PGD2 generation occurred in BMMC from C57B

73 ctivity rhythms such as greater eveningness (delayed phase), physical inactivity (blunted amplitude),

74 Additional dynamic or delayed phases resulted in better determination of equiv

75 (uniphasic/unenhanced set), (b) arterial and delayed phase scans only (biphasic set), and (c) arteria

76 ns only (biphasic set), and (c) arterial and delayed phase scans with unenhanced scans (complete set)

77 The structured oils effectively delayed phase separation, highlighting the potential of

78 lapitant group had complete responses in the delayed phase than did patients in the active control gr

79 ing rolapitant had complete responses in the delayed phase than did those receiving active control (4

80 dependent on prostaglandin synthase 1 and a delayed phase that is dependent on activation-induced pr

81 sone as standard antiemetic treatment in the delayed phase, the addition of a 5-HT(3) antagonist did

82 tumor SI on unenhanced, arterial phase, and delayed phase three-dimensional T1-weighted spoiled GRE

83 and ectopic rippling occur as a function of delayed phase transition, rather than as a function of p

84 constant light, and PRL-1 mutants display a delayed phase under short, but not long, photoperiod con

85 the NTSarea postrema of the brainstem and a delayed phase via the Arc, LHA, and PVN of the hypothala

86 The CC-SC SI ratio during the delayed phase was significantly higher than that during

87 The delayed phase was triggered by the binding of secreted L

88 iagnostic confidence level improved when the delayed phase was used.

89 (10 mg/kg, i.p.)-induced peak immediate and delayed phases were associated with concomitant increase

90 Areas of abnormal uptake on early and delayed phases were categorized into locations: metaphys

91 The lengthened circadian period leads to delayed phase, which could explain the short sleep durat