ライフサイエンスコーパス: mucus plug

1 which is filled with a dense and protective mucus plug.

2 al ascension across a dysfunctional cervical mucus plug.

3 topathology, obstructions were identified as mucus plugs.

4 helial biology that produce MUC5AC-dominated mucus plugs.

5 t intercrypt crevices, and absence of apical mucus plugs.

6 participants (37%) in the discovery set had mucus plugs.

7 goblet cells, circumscribed MUC5AC-dominated mucus plugs.

8 nt steroid sensitivity pathways and decrease mucus plugging.

9 itive T2-inflammation associated with severe mucus plugging.

10 from airway inflammation, bronchospasm, and mucus plugging.

11 c target for airway diseases associated with mucus plugging.

12 nce in mice with AAD, resulting in increased mucus plugging.

13 e of barotrauma, hemodynamic instability, or mucus plugging.

14 AHR reversal is directly related to reduced mucus plugging.

15 a T2-driven proximalization associated with mucus plugging.

16 on of pathologic mucus which leads to airway mucus plugging.

17 ated airways and often airway thickening and mucus plugging.

18 e from uninfected mice with AAD demonstrated mucus plugging after 14 and 21 days of ovalbumin-aerosol

19 ntly type 2 airway immune responses and with mucus plugging, air trapping, and airway remodeling.

20 sputum MUC5AC expression and high scores for mucus plugging, air trapping, and other measures of airw

21 ing micro-CT and matched histology to assess mucus plugs, airway wall remodelling and mucus compositi

22 In asthmatic lungs, mucus-plugged airways had thickened airway walls, narrow

23 flammation, and lung image-based measures of mucus plugging and airway remodeling.

24 aluation of lung sections revealed extensive mucus plugging and epithelial cell hypertrophy/hyperplas

25 e (COPD); however, the association of airway mucus plugging and mortality in patients with COPD is un

26 gether with decreases in pulmonary function, mucus plugging and oxygen consumption by host neutrophil

27 of airway hyperresponsiveness and to assess mucus plugging and remodelling as wall thickening with i

28 that is fraught with complications including mucus plugging and tracheoesophageal fistula.

29 alities in lung morphology, including airway mucus plugging and wall thickening, in adolescent and ad

30 in Results: Among 400 smokers, 229 (57%) had mucus plugs and 207 (52%) had emphysema, and subgroups c

31 of airway remodeling and contributes to the mucus plugs and airflow obstruction associated with seve

32 trum of mucus pathophysiology contributes to mucus plugs and chronic bronchitis symptoms.

33 Rationale: The relative roles of mucus plugs and emphysema in mechanisms of airflow limit

34 bjectives: To relate image-based measures of mucus plugs and emphysema to measures of airflow obstruc

35 The relationship between mucus plugs and spatially overlapping ventilation abnorm

36 h osteochondral destruction, bronchiectasis, mucus plugging, and a pulmonary nodule.

37 ll as MRI-defined airway wall abnormalities, mucus plugging, and abnormal lung perfusion in infants a

38 on have been shown to improve lung function, mucus plugging, and airway structural changes that can e

39 Scores for trapped air, mucus plugging, and bronchial wall thickening improved s

40 MUC5AC is the secretory mucin implicated in mucus plugging, and MUC5AC gene expression has been asso

41 ed bronchial wall thickening/bronchiectasis, mucus plugging, and perfusion deficits from the first ye

42 goblet cell hyperplasia; hyper IgE syndrome; mucus plugging; and extensive inducible BALT.

43 flecting decreased formation of asphyxiating mucus plugs; and 3) in Scnn1b-Tg mice, neutrophilia, muc

44 Objectives: To determine if mucus plugs are a persistent asthma phenotype and if cha

45 In asthma, mucus plugs are a prominent and spatially heterogeneous

46 Conclusions: Computed tomography-detected mucus plugs are associated with an increased risk for fu

47 Whether mucus plugs are associated with prospective exacerbation

48 Airway mucus plugs are common in patients with chronic obstruct

49 < 0.001).Conclusions: Symptomatically silent mucus plugs are highly prevalent in smokers and independ

50 of disease heterogeneity, including regional mucus plugging associated with abnormal lung perfusion i

51 Conclusion Airway mucus plugging at CT was associated with reduced ventila

52 Segmental mucus plugs at CT were scored by two readers, with segme

53 ace enlargement, but had no effect on airway mucus plugging, bacterial infection, or pulmonary mortal

54 We scored mucus plugging based on the number of lung segments with

55 ailure, ventilation failure, barotraumas, or mucus plugging between treatment groups.

56 Mucus plugging can worsen asthma control, lead to reduce

57 erized by lung eosinophilia, remodeling, and mucus plugging, controlled by adaptive Th2 effector cell

58 disease was believed to arise from abnormal mucus plugging exocrine ducts.

59 Mucus plug formation and chronic bronchitis are manifest

60 pneumothorax development in one patient and mucus plug formation in one patient.

61 Here, we demonstrated that mucus plugs from individuals with fatal asthma are heter

62 Segments containing mucus plugs had a median segmental VDP of 25.9% (25th-75

63 Participants with one or more mucus plugs had a median whole-lung VDP of 11.1% (25th-7

64 ssion patterns are linked to the presence of mucus plugs, highlighting biological pathways involved i

65 ng based on the number of lung segments with mucus plugs identified on chest computed tomography scan

66 Conclusions: Mucus plugs identify a persistent asthma phenotype, and

67 c variations that may underlie propensity to mucus plugging in asthma and could be important in targe

68 tasis and likely represents a major cause of mucus plugging in asthma.

69 may serve to identify occult central airway mucus plugging in the ventilated asthmatic patient.

70 95% CI, 50.7%-57.4%) in participants who had mucus plugs in 0, 1 to 2, and 3 or more lung segments, r

71 53 (21.8%), and 825 (18.9%) participants had mucus plugs in 0, 1 to 2, and 3 or more lung segments, r

72 The presence of mucus plugs in 1 to 2 vs 0 and 3 or more vs 0 lung segme

73 Background Airway mucus plugs in asthma are associated with exacerbation f

74 r luminal O(2), airway epithelia surrounding mucus plugs in chronic obstructive pulmonary disease (CO

75 Rationale: Cross-sectional analysis of mucus plugs in computed tomography (CT) lung scans in th

76 target for mucin depolymerization to remove mucus plugs in COPD and other lung pathologies.

77 airflow over time supports a causal role for mucus plugs in mechanisms of airflow obstruction in asth

78 ciated with protection from the formation of mucus plugs in T2-high asthma.

79 , accidental extubation, desaturation and/or mucus plugging/inhalation, hypotension and/or arrhythmia

80 foreign bodies, virus infection, tumors, or mucus plugs intrinsic to airway disease, including cysti

81 ary lesions (k = 1.00), effusion (k = 0.64), mucus plug (k = 0.68), and solid scattered nodularity (k

82 hyperpolarized helium 3 MRI, suggesting that mucus plugging may be an important cause of ventilation

83 electasis/consolidation, BE with and without mucus plugging (MP), airway wall thickening, MP, ground-

84 ever, some features are different, including mucus plugging, mucus "tethering" to goblet cells, plasm

85 In in vivo models of airway mucus plugs, neutrophil migration was inhibited by thick

86 lbumin-aerosol challenge, with resolution of mucus plugging occurring by 42 days.

87 tent asthma phenotype, and susceptibility to mucus plugs occurs at the subject and the bronchopulmona

88 act infection can result in inflammation and mucus plugging of airways.

89 t represent a protective strategy to prevent mucus plugging of distal airways and thus impaired venti

90 f partially dispersed Paneth granules in the mucus plugs of CF mouse intestinal crypts, and this mucu

91 use mortality compared with patients without mucus plugging on chest CT scans.

92 Objective: To examine associations between mucus plugs on chest computed tomography (CT) and future

93 Radiologists scored mucus plugs on CT lung images, and imaging software auto

94 n alone is not sufficient to trigger luminal mucus plugging or airways inflammation/goblet cell hyper

95 n adult Scnn1b-Tg mice, but did not decrease mucus plugging or neutrophilia.

96 ter the overall permeability of the cervical mucus plug, our findings suggest that the latter mechani

97 ersistent asthma phenotype and if changes in mucus plugs over time associate with changes in lung fun

98 secretion, which formed a thick, protective mucus plug overlying the surface epithelium, entrapping

99 radiographic infiltrates, coughing up thick mucus plugs, peripheral and pulmonary eosinophilia, and

100 ogists generated mucus plug scores to assess mucus plug persistence over time.

101 thma Research Program (SARP)-3 showed a high mucus plug phenotype.

102 redicted; 36.2% female), 44.4% and 46.0% had mucus plugs, respectively.

103 icted FEV(1), and FVC stratified by baseline mucus plug score (high/low defined by score >=4/0-3.5, r

104 The association between change in mucus plug score and change in airflow over time support

105 Mucus plug score and emphysema percentage were independe

106 The relationships between mucus plug score and lung function outcomes were stronge

107 Fewer dupilumab-receiving patients had high mucus plug score at Week 24 than at baseline (32.8% vs 6

108 Associations between ordinal mucus plug score categories (0, 1-2, and >=3) and prospe

109 Post hoc analyses included mucus plug score change from baseline, and patient propo

110 The change in mucus plug score from baseline to Year 3 was significant

111 sults: In 164 participants, the mean (range) mucus plug score was similar at baseline and Year 3 (3.4

112 Changes in mucus plug score were analyzed in relation to changes in

113 moderate-to-severe asthma with high baseline mucus plug score, and increased the likelihood of achiev

114 nadjusted and adjusted relationships between mucus plug score, emphysema percentage, and lung functio

115 Assess dupilumab efficacy by baseline mucus plug score.

116 chieving FeNO <25 ppb regardless of baseline mucus plug score.

117 0.30 mL [0.01-0.59]; P = 0.0399) in the high-mucus-plug score subgroup.

118 likely to achieve FeNO <25 ppb in high-/low-mucus-plug score subgroups (odds ratio: 6.64; P = 0.003/

119 e To assess regional associations between CT mucus plugs scored by individual bronchopulmonary segmen

120 Dupilumab reduced mucus plug scores and improved lung function in patients

121 Only 33% of smokers with high mucus plug scores had mucus symptoms.

122 SARP-3 participants, radiologists generated mucus plug scores to assess mucus plug persistence over

123 Compared with smokers with low mucus plug scores, those with high scores had worse COPD

124 bstruction, frequent exacerbations, and high mucus plug scores.

125 mental VDP of 18.9% (95% CI: 15.7, 22.2) for mucus-plugged segments versus 5.1% (95% CI: 3.3, 7.0) fo

126 reduced the airway eosinophil infiltration, mucus plugging, smooth muscle hyperplasia, and subepithe

127 segments with AT more frequently had airway mucus plugging than lung segments without AT (48% vs. 18

128 function and was more weakly associated with mucus plugs than that of epithelial-related genes.

129 Mucus plugs that completely occluded airways on chest CT

130 In participants with COPD, the presence of mucus plugs that obstructed medium- to large-sized airwa

131 Relative to those without mucus plugs, the presence of 1-2 and >=3 mucus plugs was

132 In MCMV/AAD mice, mucus plugging was observed after 7 days of ovalbumin-ae

133 In the distal lung, MUC5B-dominated mucus plugging was observed in 90% of subjects with COVI

134 The presence of 1-2 and >=3 mucus plugs was also associated with increased risk for

135 out mucus plugs, the presence of 1-2 and >=3 mucus plugs was associated with increased risk (adjusted

136 Mucus plugs were comprised of 84% and 82% MUC5AC and 16%

137 ltiple types of obstruction characterized as mucus plugs were identified in smokers with emphysema an

138 Mucus plugs were observed in 49 total bronchopulmonary s

139 Methods: Mucus plugs were visually identified on baseline chest c

140 severe in those with airway eosinophilia and mucus plugging, whereas those who are obese have less se

141 from airway epithelial cells and subsequent mucus plugging, which serves as the focus for infections

142 from airway epithelial cells and subsequent mucus plugging, which serves as the focus for infections

143 nd 21% of transitional bronchioles contained mucus plugs, with a high coefficient of variation in the

144 ue to the resolution of CT, it is unknown if mucus plugs within the distal small airways (<2mm in dia