ライフサイエンスコーパス: oxygen requirement

1 nd 0.04 negative likelihood ratio for 30-day oxygen requirement.

2 ictive accuracy for intubation/mortality and oxygen requirement.

3 le tachypnea, tachycardia, and an increasing oxygen requirement.

4 multiple comorbidities were risk factors for oxygen requirement.

5 The primary outcome was supplemental oxygen requirement.

6 S) based on the need for hospitalization and oxygen requirement.

7 driven by fever, cough, hospitalization, and oxygen requirement.

8 iated with a small and transient increase in oxygen requirements.

9 r reasons independent of their physiological oxygen requirements.

10 gradients, global afterload, and myocardial oxygen requirements.

11 r BPD were prematurity of <28 weeks and high oxygen requirements.

12 SNO to bring local blood flow into line with oxygen requirements.

13 Analyses were stratified by oxygen requirements.

14 ty score matching and stratified by baseline oxygen requirements.

15 were consistent irrespective of supplemental oxygen requirements.

16 a on day 2 (2.90 [1.78-4.72]), supplementary oxygen requirement (1.89 [1.25-2.86]), and more than 1 w

17 mechanical ventilation (15%; n = 49), a new oxygen requirement (28%; n = 91), and death (1.2%; n = 4

18 .4%; risk ratio, 0.3; 95% CI, 0.12-0.71) and oxygen requirement (3.9% versus 13.6%; risk ratio, 0.29;

19 24 were outpatients or hospitalized without oxygen requirement, 35 hospitalized with oxygen requirem

20 3%) to hospitalization (60.6%), supplemental oxygen requirement (43.1%), mechanical ventilation (22.7

21 , P = 0.006) and 1-y mortality adjusting for oxygen requirement (adjusted hazard ratio 1.1 2.4 5.1 ,

22 Definitions using oxygen requirement alone as the criterion at various pos

23 at better predicts progression than baseline oxygen requirement alone.

24 omposite endpoint of nonrebreather or higher oxygen requirement and death (n events = 25 of 77) inclu

25 ups that are potentially correlated with the oxygen requirement and habitat conditions are in general

26 Finally, environmental factors, such as oxygen requirement and habitat, correlated with the util

27 se (compared to inhaled RBV), accounting for oxygen requirement and need for mechanical ventilation,

28 ry function tests, cessation of supplemental oxygen requirements and near normalization of daily acti

29 llation (VF) is known to increase myocardial oxygen requirements and to alter coronary vascular physi

30 patient clinically improved with decreasing oxygen requirements and was discharged home.

31 out oxygen requirement, 35 hospitalized with oxygen requirement, and 17 intubated/died.

32 time of transplant, continuous supplemental oxygen requirement, and presence of aortopulmonary colla

33 ers, including symptoms, comorbidities, CCI, oxygen requirements, and CRP levels were observed to be

34 n to the ED had the best accuracy for 30-day oxygen requirement (area under the receiver-operating ch

35 predictor of eventual COVID-19 severity and oxygen requirements, as well as EPCs.

36 Supplemental oxygen requirement at 28 postnatal days is associated wi

37 We found a reduced risk for oxygen requirement at 36 weeks (RR, 0.42 [95% CI, 0.21 t

38 Primary combined outcome was BPD, defined as oxygen requirement at 36 weeks' postmenstrual age (PMA),

39 Among proven/probable cases, oxygen requirement at diagnosis, low monocyte counts, an

40 .16; 4-9 days: OR, 1.01; 95% CI, 0.48-2.12), oxygen requirement at discharge (room air: OR, 0.91; 95%

41 se (odds ratio [OR], 7.4; 95% CI, 2.5-22.0), oxygen requirement at hospitalization (OR, 2.9; 95% CI,

42 rsus dexamethasone alone across all baseline oxygen requirements at 14-days (no supplemental oxygen c

43 rovided, the duration of oxygen therapy, and oxygen requirements at 36 weeks of age.

44 complication-free survival (survival without oxygen, requirement at 28 days, p = .018; survival witho

45 predicting 30-day intubation/mortality, and oxygen requirement by calculating the area under the rec

46 By Day 28 of follow-up, the level of oxygen requirement decreased in 96% and 89% of pregnant

47 By day 28 of follow-up, the level of oxygen requirement decreased in 96% and 89% of pregnant

48 Oxygen saturation and supplemental oxygen requirements did not differ significantly.

49 Fraction of inspired oxygen requirements dropped after surfactant, but not ai

50 yses were stratified by maximum supplemental oxygen requirement during index hospitalization.

51 ic culture, three bacteria with differential oxygen requirements (E. coli, A. viscosus, and F. nuclea

52 nimized the loss of substrate carbon and the oxygen requirement for redox balance.

53 iorgan failure (requirement for supplemental oxygen, requirement for hemodialysis, requirement for me

54 overy (hospital discharge or no supplemental oxygen requirement) from 15 to 11 days.

55 t early acute lung injury score (1 point for oxygen requirement > 2-6 L/min or 2 points for > 6 L/min

56 Oxygen requirement >2 L/min at diagnosis and forced expi

57 characterized in four dimensions--salinity, oxygen requirement, habitat and temperature, and are bas

58 We compared outcomes including oxygen requirement, hospitalization, and intensive care

59 mission, intubation/ventilation, hypoxaemia, oxygen requirement, hypercoagulopathy/venous thromboembo

60 nation with clinical information, to predict oxygen requirement in COVID-19 patients.

61 rity of disease and determining supplemental oxygen requirements in patients with LAM.

62 nterference analysis of the pro-Rp phosphate oxygen requirements in the two hammerhead forms.

63 B.1.617.2 was associated with higher odds of oxygen requirement, intensive care unit admission, or de

64 Oxygen requirement, maximal respiratory rate, and baseli

65 Secondary outcomes included supplemental oxygen requirement, mechanical ventilation, adverse birt

66 Disease severity outcomes including oxygen requirement, mechanical ventilation, and mortalit

67 Balancing oxygen requirements, neurologic outcomes, and systemic c

68 vir ("RDV" and "no RDV") and by supplemental oxygen requirements: no supplemental oxygen charges (NSO

69 in the form of an additional energy cost and oxygen requirement occurs during high-intensity exercise

70 However, due to the oxygen requirement of the bioluminescence system and the

71 form of the iron cofactor and quantitate the oxygen requirement of the THI5p reaction.

72 of daily ordinal severity scores reflecting oxygen requirements of 1051 patients hospitalized with C

73 surface environment failed to meet the high oxygen requirements of animals up until the middle to la

74 rance of metazoans in the fossil record, the oxygen requirements of basal animals remain unclear.

75 Oxygen requirements of our highest producer were reduced

76 st X-ray AI model), that predicts the future oxygen requirements of symptomatic patients with COVID-1

77 hlighting the contribution of the DCP to the oxygen requirements of the photoreceptors as well as the

78 Oxygen requirements on day 14 after transfusion worsened

79 ilated (regardless of ventilator settings or oxygen requirements) or who were receiving noninvasive r

80 None of the patients developed dyspnea, oxygen requirement, or high temperature.

81 kers, and clinical outcomes, with a focus on oxygen requirements over time.

82 e, during, and after the procedure to record oxygen requirement, oxygen saturation, respiratory rate,

83 1), with no deaths, significant decreases in oxygen requirements (P < 0.05), and more days without in

84 D-19 therapies are initiated on the basis of oxygen requirements, RNAemia on presentation might serve

85 asodilators in coupling blood flow to tissue oxygen requirements, thus fulfilling an essential functi

86 to offer benefits in reducing inflammation, oxygen requirements, vasopressor support, and mortality.

87 Supplemental oxygen requirement was decreased and 79% of patients rep

88 5 patients, fever resolved and supplemental oxygen requirement was reduced within 3 days, whereas 2

89 ry function parameters, quality of life, and oxygen requirement were analyzed.

90 Oxygen requirements were much greater in children with P

91 art rate, respiratory rate, and supplemental oxygen requirements were observed in both groups.

92 and Anammox biofilm activity can also reduce oxygen requirements while maintaining an appropriate hyd

93 omplication of acute liver failure, and high oxygen requirements will frequently lead to removal of p