ライフサイエンスコーパス: ground glass opacity

1 manifests as diffuse lung consolidation and ground-glass opacity.

2 cavitating nodules to lobar consolidation to ground-glass opacity.

3 CT showed centrilobular granular shadow and ground glass opacities.

4 l lines were thickened in 7.3%, and 7.3% had ground-glass opacities.

5 -19 are bilateral and peripheral predominant ground-glass opacities.

6 Descriptors include "mosaic" attenuation and ground-glass opacities.

7 comparison to CT, MR imaging depicted 75% of ground-glass opacities.

8 reas of consolidation, often associated with ground-glass opacities.

9 in 108 of 171 patients (63%), mainly subtle ground-glass opacities.

10 r presentations, including consolidation and ground-glass opacities.

11 The findings of the 62 readings were: ground-glass opacities (100%), reticulation (83%), subpl

12 subglottic airway fluid (92%), and pulmonary ground-glass opacity (100%) but did not have evidence of

13 Overall, the most common CT findings were ground-glass opacity (114 of 119, 96%) and consolidation

14 The main manifestations on chest CT were ground glass opacities (31.4%), ground glass opacities a

15 nchiectasis (48%), pleural thickening (40%), ground glass opacity (32%), mass-like consolidation (20%

16 The residual lesions mainly presented as ground glass opacities (61.0%), and the main accompanyin

17 uted tomography images revealed cysts (76%), ground-glass opacities (73%), emphysema (49%), and retic

18 error group, the percentages of nodules with ground-glass opacity (91%) or judged to be subtle (91%)

19 hest CT were ground glass opacities (31.4%), ground glass opacities and consolidation (20.3%), ground

20 d glass opacities and consolidation (20.3%), ground glass opacities and reticular patterns (32.2%), m

21 Extent of ground glass opacity and lung fibrosis were assessed vis

22 circulation, resolution of the parenchymal "ground glass" opacity and absence of further episodes of

23 Initial CT scans identified ground-glass opacities and bilateral abnormalities as mo

24 The exudative phase would manifest as ground-glass opacities and consolidation, and the prolif

25 ificant relationship between the presence of ground-glass opacities and FEV1/FVC (P < 0.01).

26 Ground-glass opacities and linear bands (10 of 20 partic

27 our hospital due to respiratory failure with ground-glass opacities and mediastinal emphysema on ches

28 The most common findings in FWL were ground-glass opacities and micronodules.

29 from total lung function abnormalities; and ground-glass opacities and reticulation were present in

30 e percentage of residual lung abnormalities (ground-glass opacities and reticulations).

31 oking-related lung diseases characterized by ground-glass opacity and centrilobular nodules.

32 Measurements and Main Results: Increasing ground-glass opacity and decreasing lung volume showed c

33 ignificantly correlated with the presence of ground-glass opacity and irregular nodules or nodules wi

34 Chest computed tomography showed ground-glass opacity and some centrilobular nodules.

35 ury pattern at CT, manifesting as multifocal ground-glass opacity and/or consolidation, typically mul

36 NSIP is characterized by predominantly basal ground-glass opacity and/or reticular pattern, often wit

37 atelectasis/consolidation plus total MP plus ground-glass opacities), and total disease (i.e., all it

38 of CT features (including reticular pattern, ground glass opacity, and thin-walled cystic air spaces)

39 a, focal consolidation, reticular opacities, ground-glass opacities, and cysts or cavities.

40 o-nodules, consolidations, cavitary lesions, ground-glass opacities, and miliary nodules.

41 re classified into; pulmonary signs of which ground glass opacities are considered the characteristic

42 reas of consolidation, often associated with ground-glass opacities, are the predominant radiographic

43 I]; 1.03-2.20; P = .033) and the presence of ground-glass opacities at chest high-resolution computed

44 opacities (thickened interlobular septa and ground-glass opacities at CT), cysts or cavities, and fi

45 thology, but with a peripheral alveolar, and ground-glass opacities at lung bases, classic COVID-19 r

46 imaging findings may also be seen alongside ground glass opacities, based on the degree of disease p

47 Tree-in-bud, ground-glass-opacity, bronchiectasis, cicatricial emphys

48 s plugging (MP), airway wall thickening, MP, ground-glass opacities, bullae, airways, and parenchyma.

49 Ground-glass opacities by radiologist read occurred in 1

50 by exposure identification, HRCT findings of ground-glass opacities, centrilobular nodules, and mosai

51 jury is characterized by bilateral symmetric ground-glass opacities, consolidation, and a lower lobe

52 CT features recorded included ground-glass opacities, consolidation, micronodules, ret

53 diographic features from HRCT scans included ground-glass opacity, consolidation, air bronchogram, no

54 mediate changes manifesting as peribronchial ground glass opacities, consolidations, air-trapping, an

55 score (>= 25%) and CT patterns (presence of ground glass opacities, consolidations, crazy paving are

56 ed to single non-fibrotic changes, including ground glass opacity, consolidations, nodules/masses, pa

57 Among other radiologic findings, we analyzed ground-glass opacities, consolidations, linear opacities

58 omogeneous attenuation was classified as (a) ground-glass opacity due to infiltrative disease, (b) mo

59 Localization of subcentimeter ground glass opacities during minimally invasive thoraco

60 Pulmonary focal Ground-glass Opacities (fGGOs) would frequently be ident

61 ed diffuse 1- to 2-mm pulmonary nodules with ground-glass opacities ( Fig 1 ).

62 The most common imaging finding was ground glass opacities, followed by septal thickening.

63 sed as a percentage) and mean attenuation of ground glass opacities (GGO) and consolidation were quan

64 with severe lymphocytopenia or an extent of ground glass opacity (GGO) >50% on chest computed tomogr

65 ted tomography (CT) findings mainly included ground glass opacity (GGO) (93.3%), inter-lobular septal

66 ed each CXR in consensus for: consolidation, ground glass opacity (GGO), location and pleural fluid.

67 Predominant CT observations were ground-glass opacities (GGO) (59/70 lobes examined) and

68 1 lobe (75%; 95% CI: 0.68-0.82; p < 0.001), ground-glass opacities (GGO) (73%; 95% CI: 0.67-0.78; p

69 Compared with the non-critical group, mixed ground-glass opacities (GGO) and consolidation lesion, p

70 nfection presented consistent indications of ground-glass opacities (GGO), consolidation, and interlo

71 cal CT features are bilateral and multilobar ground-glass opacities (GGO).

72 y-four percent (113/120) of the patients had ground-glass opacities (GGO).

73 ents will have CT abnormalities that include ground-glass opacity (GGO) and subpleural bands with con

74 ervised machine learning to measure regional ground-glass opacity (GGO) and using inspiratory and exp

75 children is relatively high (658/987), with ground-glass opacity (GGO) being the most prevalent feat

76 The most common HRCT presentation of COP was ground-glass opacity (GGO) in 83.9% of cases, followed b

77 The location and extent of ground-glass opacity (GGO) was compared with symptoms an

78 d specificity of the abnormal chest CT scan, ground-glass opacity (GGO), consolidation opacity, and b

79 The imaging features analyzed were ground-glass opacity (GGO), consolidation, pleuroparench

80 Bilateral lung involvement, pure ground-glass opacity (GGO), mixed (GGO pulse consolidati

81 lities that included airspace consolidation, ground-glass opacity (GGO), reticulation, honeycombing,

82 lung, overall opacity and opacity subtypes (ground glass opacity [GGO] and consolidation) were extra

83 terlobular septal thickening (ILST;100%) and ground glass opacities (GGOs; 91.7%), resulting in crazy

84 Ground-glass opacities (GGOs) are a non-specific high-re

85 Rationale: Ground-glass opacities (GGOs) in the absence of intersti

86 Sensitivity and PPV for the detection of ground-glass opacities (GGOs) were 77.7% and 53.8%, resp

87 X-ray showed multiple patchy ground glass opacities in both lungs.

88 st computed tomography on admission revealed ground glass opacities in the right upper and lower lung

89 walls of numerous bronchial branches and a "ground glass" opacity in the anterior segment of the rig

90 phy scan showed a diffuse, random pattern of ground-glass opacities in the lungs.

91 sidered to include patchy consolidations and ground-glass opacities in the peribronchial and subpleur

92 Chest radiographic findings included ground-glass opacity in 14 of 14 (100%) and consolidatio

93 CT findings included ground-glass opacity in 14 of 14 (100%), consolidation i

94 Diffuse disease, including ground-glass opacities (k = 0.57) and tree-in-bud nodule

95 uencies of developing lung adenocarcinoma or ground-glass opacity lung lesions than those who do not

96 ed that stepwise progression of lesions with ground-glass opacity, manifested as an increase in size

97 While ground-glass opacities, micronodules, or both were found

98 A total of 50.2% of group 1 PH subjects had ground glass opacities on chest computed tomography.

99 spectively; unexpected, frequent presence of ground glass opacities on computed tomography; and sleep

100 d on March 20, 2020 with fever, hypoxia, and ground-glass opacities on chest X-ray.

101 ormalities on computed tomography, including ground-glass opacities or reticulations, lung distortion

102 thy fluid in the airways, pulmonary opacity (ground-glass opacity or airspace consolidation), interlo

103 resence of patchy and/or confluent, bandlike ground-glass opacity or consolidation in a peripheral an

104 pants showed subtle subpleural reticulation, ground-glass opacities, or both, and 18 of 91 (20%) part

105 fusion, atelectasis, emphysema, infiltrates, ground-glass opacities, or pneumothorax.

106 construct validity of HRCT-reported nodules, ground-glass opacity, or other typical findings.

107 eral lung involvement, subpleural reticulum, ground-glass opacity, peripheral lung lesions, and bronc

108 ients hospitalized for severe COVID-19, with ground-glass opacity pneumonia and arterial partial oxyg

109 c PAP was interlobular septal thickening and ground glass opacities, resulting in crazy-paving patter

110 nspicuity scores (a) improved in group 2 for ground-glass opacity, reticulation, and bronchiectasis a

111 nd 18 of 91 (20%) participants had extensive ground-glass opacities, reticulations, bronchial dilatio

112 LIP is associated with a CT pattern of ground-glass opacity sometimes associated with perivascu

113 The most common chest CT findings were ground glass opacities (three of five), with mild to mod

114 The presence of nodules, consolidations, and ground-glass opacities was evaluated.

115 Ground-glass opacity was the most common radiological fi

116 frequently in the early phase (25%), whereas ground-glass opacities were more common in the intermedi

117 ipants with positive RT-PCR and CT findings, ground-glass opacities were present in all 58 (100%), bo

118 Whereas ground-glass opacities were the most common characterist

119 re airspace opacities (consolidations and/or ground-glass opacities), which are typically bilateral,

120 -19 pneumonia in Rome, Italy, was peripheral ground-glass opacities with multilobe and posterior invo

121 (89%) of the drowning subjects had pulmonary ground-glass opacity with septal lines, which was mild w

122 subglottic tracheal and bronchial fluid, and ground-glass opacity within the lung at multidetector CT

123 anasal sinuses and mastoid air cells and had ground-glass opacity within the lungs.