ライフサイエンスコーパス: noninvasive ventilation

1 ventilation; and 22.5% for those who failed noninvasive ventilation.

2 None of the patients received noninvasive ventilation.

3 ved after 2 hrs of total face mask-delivered noninvasive ventilation.

4 d criteria for extubation, reintubation, and noninvasive ventilation.

5 milar for patients treated with invasive and noninvasive ventilation.

6 echanical ventilation, 12,480 (19%) received noninvasive ventilation.

7 c obstructive pulmonary disease treated with noninvasive ventilation.

8 core, including 91 of 180 (51%) who received noninvasive ventilation.

9 re and respiratory acidosis nonresponsive to noninvasive ventilation.

10 etween the two groups of patients undergoing noninvasive ventilation (11.7% for CPAP and 11.1% for NI

11 mortality was 7.4% for patients treated with noninvasive ventilation; 16.1% for those treated with in

12 % incorrect), and recognizing indication for noninvasive ventilation (27% incorrect).

13 respiratory distress syndrome, and 32 failed noninvasive ventilation (51%).

14 with an endotracheal tube, tracheostomy, and noninvasive ventilation, 8%, 39%, and 53% were mobilized

15 d oxygen therapy (9.8%) and those undergoing noninvasive ventilation (9.5%, P=0.87).

16 Noninvasive ventilation, a standard-of-care management o

17 their exact role needs confirmation: one is noninvasive ventilation after extubation in high-risk or

18 rs, weaning duration, adverse events, use of noninvasive ventilation after extubation, successful wea

19 se exacerbation including 27.7% who received noninvasive ventilation and 45.5% who received invasive

20 There was an increasing use of noninvasive ventilation and a decreasing use of invasive

21 vitamin D, respiratory management including noninvasive ventilation and diaphragmatic pacing, secret

22 etermine the relationship between receipt of noninvasive ventilation and outcomes for patients with p

23 primary end point for the comparison between noninvasive ventilation and standard oxygen therapy was

24 that increasing experience favors the use of noninvasive ventilation and was associated with a strong

25 e the dynamic behavior of pressure-supported noninvasive ventilation, and confirmed the predicted beh

26 ing and flushing liquid waste, bronchoscopy, noninvasive ventilation, and nebulized medication admini

27 ying sleep-disordered breathing triggered by noninvasive ventilation, and optimizing noninvasive vent

28 ant, high-frequency oscillatory ventilation, noninvasive ventilation, and use of extracorporeal membr

29 Noninvasive ventilation applied in ordinary wards was ef

30 These results support the use of noninvasive ventilation as a first-line therapy in appro

31 We will discuss the use of noninvasive ventilation as a mode to prevent intubation

32 significantly higher in patients who failed noninvasive ventilation as compared with those who succe

33 Use of noninvasive ventilation as first-line mode of mechanical

34 in studies allowing crossover of controls to noninvasive ventilation as rescue treatment.

35 All but one patient undergoing noninvasive ventilation at extracorporeal membrane oxyge

36 hirty-seven patients, nine of whom underwent noninvasive ventilation at the time of extracorporeal me

37 The application of noninvasive ventilation by a trained and experienced int

38 determine the relationship between hospital noninvasive ventilation caseload and outcomes among pati

39 h hypoxemic acute respiratory failure, early noninvasive ventilation compared with oxygen therapy alo

40 ort study of patients undergoing invasive or noninvasive ventilation, conducted during 4 consecutive

41 Noninvasive ventilation (continuous positive airway pres

42 atient selection and timing of initiation of noninvasive ventilation could lead to less variability i

43 s, however, substantial harm associated with noninvasive ventilation could not be excluded.

44 Noninvasive ventilation delivered as bilevel positive ai

45 Bronchoscopy without NMA and noninvasive ventilation did not generate significant aer

46 t with high-flow oxygen, standard oxygen, or noninvasive ventilation did not result in significantly

47 Additional studies are required to evaluate noninvasive ventilation efficacy in the wards compared w

48 pulmonary disease exacerbation treated with noninvasive ventilation; even hospitals with low noninva

49 ls, high-volume hospitals did not have lower noninvasive ventilation failure (odds ratio quartile 4 v

50 olume was not related to outcomes, including noninvasive ventilation failure (p = 0.87), in-hospital

51 nts should be monitored closely for signs of noninvasive ventilation failure and promptly intubated b

52 also highlighting the risks associated with noninvasive ventilation failure and the need to be cauti

53 dal volume was independently associated with noninvasive ventilation failure in multivariate analysis

54 Noninvasive ventilation failure occurred in 15.2%, and i

55 ith that of invasive mechanical ventilation; noninvasive ventilation failure was associated with the

56 Noninvasive ventilation failure was recorded in 13.7% fr

57 tors that were independently associated with noninvasive ventilation failure were Simplified Acute Ph

58 ve 9.5 mL/kg predicted body weight predicted noninvasive ventilation failure with a sensitivity of 82

59 We also assessed predictors for noninvasive ventilation failure.

60 kg predicted body weight accurately predicts noninvasive ventilation failure.

61 idal volume is independently associated with noninvasive ventilation failure.

62 propensity score-matched analyses, receiving noninvasive ventilation first was associated with a sign

63 iteria were applied: 4,804 (31.7%) received "noninvasive ventilation first," whereas 10,221 (67.5%) r

64 ew the strong evidence supporting the use of noninvasive ventilation for acute respiratory failure to

65 Weaker evidence supports consideration of noninvasive ventilation for chronic obstructive pulmonar

66 al volume can be difficult to achieve during noninvasive ventilation for de novo acute hypoxemic resp

67 chieve in the majority of patients receiving noninvasive ventilation for de novo acute hypoxemic resp

68 The use of noninvasive ventilation for patients with pneumonia shou

69 o 86%), with a marked increase in the use of noninvasive ventilation (from 18% to 49%) and a decrease

70 patients overall (41.4%), 73 (38.2%) in the noninvasive ventilation group and 82 (44.8%) in the oxyg

71 s 9 L/min (interquartile range, 5-15) in the noninvasive ventilation group and 9 L/min (interquartile

72 All patients in the noninvasive ventilation group received the first noninva

73 with a reduction in mortality (12.6% in the noninvasive ventilation group vs 17.8% in the control ar

74 ation, 46 deaths (24.1%) had occurred in the noninvasive ventilation group vs 50 (27.3%) in the oxyge

75 e standard group, and 50% (55 of 110) in the noninvasive-ventilation group (P=0.18 for all comparison

76 the standard-oxygen group and 19+/-12 in the noninvasive-ventilation group; P=0.02 for all comparison

77 ed analysis, patients initially treated with noninvasive ventilation had a 41% lower risk of death co

78 Noninvasive ventilation has assumed an important role in

79 Noninvasive ventilation has assumed an important role in

80 Noninvasive ventilation has been applied mostly in ICUs,

81 Noninvasive ventilation has been recommended to decrease

82 and 1) the proportion of patients receiving noninvasive ventilation (highest vs lowest case-volume t

83 Noninvasive ventilation improves quality of life and ext

84 his comprehensive metaanalysis suggests that noninvasive ventilation improves survival in acute care

85 These methods include the use of noninvasive ventilation in appropriately selected patien

86 analysis of a randomized controlled trial of noninvasive ventilation in critically ill immunocompromi

87 sons brought to an increasing application of noninvasive ventilation in ordinary wards.

88 idence is mixed as to the appropriate use of noninvasive ventilation in patients with pneumonia.

89 l care (i.e., conventional oxygen therapy or noninvasive ventilation) in adults with respiratory fail

90 evaluated the outcomes of patients receiving noninvasive ventilation including long-term follow-up.

91 ents with acute cardiogenic pulmonary edema, noninvasive ventilation induces a more rapid improvement

92 AM on the second, third, or fourth day after noninvasive ventilation initiation.

93 Noninvasive ventilation is a life-saving technique incre

94 uld be lost in some subgroups of patients if noninvasive ventilation is applied late as a rescue trea

95 Acute noninvasive ventilation is generally applied via face ma

96 Noninvasive ventilation is increasingly applied to preve

97 Whenever noninvasive ventilation is indicated, an early adoption

98 ategories, including respiratory physiology, noninvasive ventilation, lung protective ventilation, we

99 Patients randomized to noninvasive ventilation maintained the survival benefit

100 dies with unclear methodology, comparing two noninvasive ventilation modalities, or in palliative set

101 Patients were randomly assigned to early noninvasive ventilation (n = 191) or oxygen therapy alon

102 mechanical ventilation after treatment with noninvasive ventilation needs further investigation.

103 Despite extensive noninvasive ventilation (NIV) and continuous positive ai

104 ive pulmonary disease (COPD) requiring acute noninvasive ventilation (NIV) are poor and there are few

105 RATIONALE: During noninvasive ventilation (NIV) for chronic obstructive pu

106 The use of noninvasive ventilation (NIV) has become increasingly po

107 RATIONALE: Noninvasive ventilation (NIV) is increasingly used in pa

108 Noninvasive ventilation (NIV) is widely used in episodes

109 It has not been established whether noninvasive ventilation (NIV) reduces the need for invas

110 To be most effective, noninvasive ventilation (NIV) ventilators should synchro

111 Noninvasive ventilation (NIV) with a face mask is relati

112 A total of 33 patients were treated with noninvasive ventilation (NIV), of which 21 avoided intub

113 d controlled trials focused on the effect of noninvasive ventilation on mortality.

114 The noninvasive ventilation-only group was created applying

115 The GenMatch identified 21 patients for the noninvasive ventilation-only group.

116 three times higher in patients treated with noninvasive ventilation-only than in patients treated wi

117 O2 removal was 12% (95% CI, 2.5-31.2) and in noninvasive ventilation-only was 33% (95% CI, 14.6-57.0)

118 gned to lung-protective ventilation required noninvasive ventilation or intubation for acute respirat

119 -3.7 to 3.8 days), or need for mechanical or noninvasive ventilation (OR 1.03; 95% CI 0.70-1.51).

120 xpired tidal volume and its association with noninvasive ventilation outcome.

121 -year survival rate of patients treated with noninvasive ventilation outside the ICU for acute respir

122 rm birth, high illness severity, tracheal or noninvasive ventilation, parental absence and use of con

123 ntilation-only than in patients treated with noninvasive ventilation-plus-extracorporeal CO2 removal

124 Twenty-five patients were included in the noninvasive ventilation-plus-extracorporeal CO2 removal

125 Intubation rate in noninvasive ventilation-plus-extracorporeal CO2 removal

126 Use of noninvasive ventilation, rather than invasive ventilatio

127 Although noninvasive ventilation reduces desaturation during intu

128 Noninvasive ventilation reduces dyspnea and improves exe

129 We conducted a study to determine whether noninvasive ventilation reduces mortality and whether th

130 tients with concomitant respiratory failure, noninvasive ventilation represents a promising treatment

131 nvasive ventilation group received the first noninvasive ventilation session immediately after random

132 riables were systematically recorded at each noninvasive ventilation session.

133 ange) expired tidal volume averaged over all noninvasive ventilation sessions (mean expired tidal vol

134 Noninvasive ventilation sessions did not prevent patient

135 occurred and sleep quality was better during noninvasive ventilation sessions than during spontaneous

136 d by noninvasive ventilation, and optimizing noninvasive ventilation settings.

137 Whether noninvasive ventilation should be administered in patien

138 g an acute exacerbation of COPD, adding home noninvasive ventilation to home oxygen therapy prolonged

139 ompare the outcomes of patients treated with noninvasive ventilation to those treated with invasive m

140 was used-the differential distance to a high noninvasive ventilation use hospital.

141 The median hospital annual volume of noninvasive ventilation use was 627 and varied from 234

142 eumonia who received mechanical ventilation, noninvasive ventilation use was not associated with a re

143 t for unmeasured confounding associated with noninvasive ventilation use, an instrumental variable wa

144 =0.046) and 2.50 (95% CI, 1.31 to 4.78) with noninvasive ventilation versus high-flow oxygen (P=0.006

145 Noninvasive ventilation versus invasive mechanical venti

146 nvasive ventilation; even hospitals with low noninvasive ventilation volume are able to successfully

147 ort study suggest that hospitals with higher noninvasive ventilation volume do not achieve better out

148 Noninvasive ventilation was administered to 180 patients

149 Annual hospital volume of noninvasive ventilation was analyzed as a continuous var

150 lmonary disease exacerbation, the receipt of noninvasive ventilation was associated with a lower risk

151 Noninvasive ventilation was associated with a reduction

152 As compared with standard oxygen therapy, noninvasive ventilation was associated with greater mean

153 Noninvasive ventilation was associated with significantl

154 al was added to noninvasive ventilation when noninvasive ventilation was at risk of failure (arterial

155 ed that, among marginal patients, receipt of noninvasive ventilation was not significantly associated

156 Use of noninvasive ventilation was related to case-volume, sugg

157 ion were required in 38 patients (35.8%) and noninvasive ventilation was required in 17 patients (16.

158 Noninvasive ventilation was uniformly delivered using a

159 Noninvasive ventilation was used less often by physician

160 Mortality was reduced when noninvasive ventilation was used to treat (14.2% vs 20.6

161 Patients receiving noninvasive ventilation were more likely to be older, ma

162 Extracorporeal CO2 removal was added to noninvasive ventilation when noninvasive ventilation was

163 Patients were randomly assigned to receive noninvasive ventilation with either an ICU ventilators (

164 To compare outcomes of children receiving noninvasive ventilation with those receiving invasive ve

165 as been used as a novel interface to deliver noninvasive ventilation without applying direct pressure