ライフサイエンスコーパス: atelectasis

1 , primarily manifested by significantly less atelectasis.

2 tem bronchus was needed to relieve left lung atelectasis.

3 ry function to those with DPT and no rounded atelectasis.

4 and 20 cm H2O to induce different levels of atelectasis.

5 ailable tool to differentiate pneumonia from atelectasis.

6 ctioning during extubation may contribute to atelectasis.

7 ecision tree to differentiate pneumonia from atelectasis.

8 , pleural effusion, pulmonary opacities, and atelectasis.

9 tilation, and 32 with clinically significant atelectasis.

10 n inflammation, consolidation, flooding, and atelectasis.

11 e sickness to airway obstruction, apnea, and atelectasis.

12 ral ventilation is present it prevents lobar atelectasis.

13 oss of sighs, which was associated with lung atelectasis.

14 tilation in order to induce lobar absorption atelectasis.

15 pressure in the recruitment of diaphragmatic atelectasis.

16 ors, particularly alveolar derecruitment and atelectasis.

17 nical ventilation often develop pneumonia or atelectasis.

18 ty-related changes consistent with dependent atelectasis.

19 ociated lung injury is cyclic recruitment of atelectasis.

20 verage precision scores of 0.25 +/- 0.03 for atelectasis, 0.34 +/- 0.03 for consolidation, 0.33 +/- 0

21 eving macro AUC scores of 0.72 +/- 0.004 for atelectasis, 0.75 +/- 0.007 for consolidation, 0.76 +/-

22 for lungs and pleura labels were as follows: atelectasis, 0.77 (95% CI: 0.74, 0.81); nodule, 0.65 (95

23 15 of 40), pulmonary edema (40%, 16 of 40), atelectasis (10%, 4 of 40), adult respiratory distress s

24 s included hypertrophic scar formation (35), atelectasis (12), pleural effusion (13), recurrent stern

25 two, by slight thickening or minimal linear atelectasis; 16, by thicker linear or subsegmental atele

26 ontinuation of narcotics), 3 (0.3%) cases of atelectasis, 2 (0.2%) corneal abrasions, 1 (0.1%) subacu

27 st common complications were ileus (27%) and atelectasis (26%).

28 ry 2019 (350 with pleural effusion, 376 with atelectasis, 409 with neither, 14 with both).

29 r in group 1 compared with group 2 patients: atelectasis, 44% vs. 73% (p < .001); postextubation stri

30 Diagnoses included pneumonia/atelectasis (5), respiratory failure (2), and sepsis (2)

31 After the development of atelectasis, a decremental positive end-expiratory press

32 nt positive end-expiratory pressure to avoid atelectasis, a tidal volume that is limited to less than

33 lmonary infiltrates, aspiration pneumonitis, atelectasis, acute respiratory distress syndrome, pleura

34 ning in interstitial edema, and deflation in atelectasis all result in similar reductions in dark-fie

35 ventilation) or injury from ventilation with atelectasis and alveolar flooding at end-expiration (ope

36 mice die within 3 days of birth due to lung atelectasis and breathing failure.

37 barrier functions are compromised by purely atelectasis and dysregulated by additional systemic infl

38 ng hallmarks of respiratory distress such as atelectasis and hyaline membranes.

39 e correlates with characteristic patterns of atelectasis and pleural fluid collection on conventional

40 Our patients had less atelectasis and pneumonia than previously published seri

41 ictive pulmonary disease, ineffective cough, atelectasis and pneumonia, and chronic respiratory insuf

42 Preventing atelectasis and preserving lung volume can reduce lung s

43 Mild frequent PPCs (eg, atelectasis and prolonged oxygen therapy need) deserve i

44 tion, C/EBPgamma-deficient newborns die from atelectasis and respiratory failure, which can be mitiga

45 Atelectasis and surfactant depletion may contribute to g

46 e was placed on a lung area with significant atelectasis and the following parameters measured: (1) t

47 placement, surface tension will increase and atelectasis and VILI will occur.

48 abnormalities resulting from CVtV result in atelectasis and VILI.

49 However, the effects of atelectasis (and recruitment) on aerated airspaces remai

50 at they totally collapsed at end expiration (atelectasis) and reinflated during inspiration.

51 tusion, acute respiratory distress syndrome, atelectasis) and the nonspecific radiographic and clinic

52 tusion, acute respiratory distress syndrome, atelectasis) and the nonspecific radiographic and clinic

53 ators that are focused around the regions of atelectasis, and 2) ventilate in a patient-dependent man

54 four conditions: pneumonia, fluid overload, atelectasis, and acute respiratory distress syndrome.

55 tal lethality, lung abnormalities resembling atelectasis, and dwarfism characterized by aberrant cart

56 CE mechanics demonstrated alveolar collapse, atelectasis, and leukocyte infiltration.

57 duce the FIO2, reduce the risk of absorption atelectasis, and maintain the same alveolar PO2, by incr

58 h monolayer collapse pressures, help prevent atelectasis, and minimize the flow of lung surfactant ou

59 eumothorax, ventilator-associated pneumonia, atelectasis, and pleural effusions.

60 ed complications, including wound infection, atelectasis, and pneumonia.

61 (stroke), pulmonary complication (pneumonia, atelectasis, and prolonged ventilation), and renal compl

62 ults in prenatal lung malformation, neonatal atelectasis, and respiratory failure.

63 rmal lungs (baseline), unilateral whole-lung atelectasis, and unilateral and bilateral lung injuries

64 , hyper-attenuated lung, and multi-segmental atelectasis as a diagnostic "triad of anthracosis" was 1

65 EEP are useful not only to treat hypoxia and atelectasis as the consequence of one-lung ventilation,

66 injured pig lung, in the absence of cyclical atelectasis (as determined with dynamic computed tomogra

67 ical mechanistic and therapeutic targets for atelectasis-associated lung injury.

68 ecame more homogeneous, and 3) the amount of atelectasis at end-expiration decreased from 24% to 16%

69 ree consecutive patients had left lower lobe atelectasis believed to be related to endotracheal tube

70 sing the left atrium and causing medium lobe atelectasis; bilateral pleural effusion was also present

71 normalities (pleuroparenchymal bands, linear atelectasis, bronchiectasis and/or bronchiolectasis) wer

72 onsolidation, pleuroparenchymal band, linear atelectasis, bronchiectasis and/or bronchiolectasis, ret

73 riable shunt fraction, such as with cyclical atelectasis, but it is generally presumed to remain cons

74 days, six of seven animals developed patchy atelectasis; by day 11, two of seven animals demonstrate

75 lations suggests that the static behavior of atelectasis cannot be accurately extrapolated to predict

76 y14 dataset, thoracic abnormalities included atelectasis, cardiomegaly, effusion, infiltration, mass,

77 n, aspiration pneumonitis, pleural effusion, atelectasis, cardiopulmonary edema, and pneumothorax.

78 be-specific agreement was for the finding of atelectasis/consolidation for both pulmonary ultrasound

79 MP alone), total inflammatory changes (i.e., atelectasis/consolidation plus total MP plus ground-glas

80 The items scored are atelectasis/consolidation, BE with and without mucus plu

81 bilateral pleural effusions and multi-lobar atelectasis/consolidation, which were significantly high

82 ng findings, including pleural effusions and atelectasis, correlated with cytokine release syndrome g

83 issure correlated with a curvilinear band of atelectasis coursing inferomedially and obliquely from i

84 Atelectasis develops in critically ill obese patients wh

85 trauma (high-stretch), but not atelectrauma (atelectasis), directly activates monocytes within the pu

86 levated pleural pressure (Ppl) and worsening atelectasis during mechanical ventilation in patients wi

87 vated pleural pressure (P(PL)) and worsening atelectasis during mechanical ventilation in patients wi

88 FI for the diagnosis of emphysema, fibrosis, atelectasis, edema, and pneumonia.

89 wo of 24 [8.3%; 95% CI: 0, 20]; P = .04) and atelectasis (eight of 14 [57%; 95% CI: 30, 84] vs six of

90 ch as those due to cancer, pleural effusion, atelectasis, emphysema, infiltrates, ground-glass opacit

91 sure (3 cm H2O) and sustained inflation; and atelectasis group received the same tidal volume as cont

92 ecrosis factor, in the high-stretch, but not atelectasis group.

93 In contrast, atelectasis had no effect on perfusate cytokines compare

94 Individuals with DPT and rounded atelectasis had similar pulmonary function to those with

95 Patients with rounded atelectasis have a history of asbestos exposure or pleur

96 pared with sham, LI animals had irreversible atelectasis, higher lung infection rates (P<0.0001) and

97 tress syndrome in preterm infants, including atelectasis, hyaline membranes, and the lack of pulmonar

98 preceded by a recruitment maneuver reverses atelectasis, improves lung mechanics, distribution of ve

99 ring cyclic recruitment and derecruitment of atelectasis in acute respiratory failure and might harm

100 uence of URI symptoms on anaesthesia-induced atelectasis in children has not been investigated.

101 symptoms induce aggravation of perioperative atelectasis in children.

102 itive end-expiratory pressure for recruiting atelectasis in dependent and diaphragmatic regions.

103 volume distributions at different levels of atelectasis in experimental lung injury.

104 Lung atelectasis in mutants correlates with reduced levels of

105 airway pressure is required to recruit lung atelectasis in patients with ARDS and class III obesity

106 airway pressure is required to recruit lung atelectasis in patients with ARDS and class III obesity

107 ges in 21 (33%), perigraft leak in 13 (21%), atelectasis in six (10%), mural thrombus within the sten

108 7, the chest radiographs showed patchy lobar atelectasis in six animals, which cleared by day 11 in a

109 ce regarding the prevention of postoperative atelectasis in sub-Saharan Africa.

110 s and linear opacities (fundamentally linear atelectasis) in the first chest X-ray with pathologic fi

111 Saline lavage increased atelectasis (increase in nonaerated tissue from 1.2% to

112 ventilation in the control group resulted in atelectasis, increased concentrations of bronchoalveolar

113 Together, proteomics of exclusively atelectasis indicates decreased immune response, which c

114 pithelium and endothelium that causes edema, atelectasis, inflammation, and fibrosis.

115 ted proteomics response is down-regulated in atelectasis irrespective of LPS.

116 Atelectasis is a frequent clinical condition, yet knowle

117 Rounded atelectasis is an atypical form of lung collapse that us

118 In acute lung injury, atelectasis is common and frequently develops in the dep

119 Overdistension of aerated lung occurs during atelectasis is detectable using clinically relevant magn

120 pirometry in the prevention of postoperative atelectasis is inconclusive.

121 the lung contusions and none of the cases of atelectasis, laceration, or pneumonia (P = .0001).

122 w, deep ventilation was associated with less atelectasis, less alveolar formation, and more elastin w

123 mal values, and that in lobar pneumonia with atelectasis, lung HA would be further decreased because

124 ma, cardiomegaly, hernias, edema, effusions, atelectasis, masses, and nodules.

125 d by pneumonia (n = 2), pleural effusion and atelectasis (n = 1), or liver abscess (n = 1).

126 herapy by nasal cannula (n = 235; 19.6%) and atelectasis (n = 206; 17.1%).

127 After 14 days of persistent atelectasis of the left lung despite thorascopic decorti

128 Rounded atelectasis of the lung is well described in medical lit

129 oxygenation, retractions, capillary refill, atelectasis or pneumonia on chest radiograph, and pleura

130 defined as pneumonia, clinically significant atelectasis, or prolonged mechanical ventilation (> 24 h

131 ung conditions" (p < 0.0001) and "unilateral atelectasis" (p = 0.0026).

132 Atelectasis plus lobar pneumonia further decreased lung

133 perioperative pulmonary risk and focuses on atelectasis, pneumonia, and respiratory failure.

134 eep vein thrombosis, respiratory depression, atelectasis, pneumonia, ileus, and postoperative nausea

135 r complications were anastomotic leak (13%), atelectasis/pneumonia (2%), intrathoracic hemorrhage, re

136 infrequent: wound infection/dehiscence, 3%, atelectasis/pneumonia, 2%, intrathoracic hemorrhage, rec

137 scans, four lung compartments-not inflated (atelectasis), poorly inflated, normally inflated, and hy

138 However, differential diagnosis of rounded atelectasis poses a challenge to pulmonary specialists a

139 piratory time constants, and 3) reduce tidal atelectasis, preventing hyperinflation.Methods: Three po

140 Instead, LPS-exposed atelectasis produced 174 differentially abundant protein

141 ng all offspring within 24 h of birth due to atelectasis-producing pulmonary hypoxia, which recapitul

142 ive days, including pneumonia, bronchospasm, atelectasis, pulmonary congestion, respiratory failure,

143 %) had other noninfectious etiologies (e.g., atelectasis, pulmonary edema, and shock).

144 ations include pleural effusion, hemothorax, atelectasis, pulmonary edema, diaphragmatic dysfunction,

145 eural sparing was also evaluated in cases of atelectasis, pulmonary laceration, and a control group o

146 The PPCs compromised of atelectasis requiring bronchoscopic intervention, pneumo

147 s of URI, which were not associated with the atelectasis score across the entire cohort.

148 ent of ARDS, pneumonia, pneumothorax, severe atelectasis, severe hypoxemia, or need for rescue therap

149 rio theorizes that the initiating problem is atelectasis that develops as a result of a surfactant ab

150 Atelectasis, the most common finding, was present in 20

151 ccurrence of alveolar hypoxia and absorption atelectasis, thus optimizing the residual lung function.

152 Pulmonary complications ranging from atelectasis to acute respiratory failure are common caus

153 tasis; 16, by thicker linear or subsegmental atelectasis; two, by contiguous tumor infiltration; one,

154 I, 1.7-2.2; p < 10), including pneumothorax, atelectasis, ventilator-associated pneumonia, hypoglycem

155 130 proteins were differentially abundant in atelectasis versus aerated lung, mostly (n = 126) with l

156 lation between severity of URI and degree of atelectasis was analysed by multiple linear regression.

157 ored using a questionnaire and the degree of atelectasis was defined by sonographic findings showing

158 Atelectasis was demonstrated using computerized tomograp

159 An animal model of obesity with reversible atelectasis was developed by placing fluid filled bags o

160 , hyper-attenuated lung, and multi-segmental atelectasis was identified as a reliable set of imaging

161 antly different for pneumonia, but dependent atelectasis was more common in patients with early ARDS

162 etained if the five patients with radiologic atelectasis were excluded from analysis.

163 chiectasis, cicatricial emphysema, and lobar atelectasis were similar in the two patient groups (p >

164 atively combinations of fibrosis, edema, and atelectasis, were present in all premature infants.

165 lowering distal airway pressure may lead to atelectasis, whereas raising distal airway pressure may

166 physiologic changes like edema formation and atelectasis, which are commonly seen in bacterial pneumo

167 General anaesthesia per se also induces atelectasis, which may worsen with URIs and yield detrim

168 similar across groups, with the exception of atelectasis, which was less common in the restrictive ox

169 s breathing caused a significant increase in atelectasis with cyclic collapse.

170 F-beta signaling were negatively enriched in atelectasis with decreased adhesive glycoprotein THBS1 r

171 In experimental atelectasis with minimal tidal recruitment/derecruitment

172 cond slower rhythm (for sighs) that prevents atelectasis without impeding eupnoea.

173 lung mechanics and limit tidal-EFL and tidal atelectasis, without increasing hyperinflation.