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1 pectrum of injury and abnormal repair of the alveolar wall.
2 membrane to directly disseminate through the alveolar wall.
3 e lung to the most peripheral vessels in the alveolar wall.
4 hyperoxia-induced apoptosis of cells in the alveolar wall.
5 the epithelium of bronchi, bronchioles, and alveolar walls.
6 ed pulmonary inflammation and destruction of alveolar walls.
7 nd with a decrease in apoptotic cells in the alveolar walls.
8 ury and caspase-3 activation in cells of the alveolar walls.
9 l airways, airway epithelium, submucosa, and alveolar walls.
10 modeling process in the connective matrix in alveolar walls.
11 alveolar surface area due to destruction of alveolar walls.
12 ified the strain experienced in the adjacent alveolar walls.
13 t localized in intrapulmonary airways and in alveolar walls.
14 ha5 is prominent in the basement membrane of alveolar walls, airways, and pleura in developing and ad
15 nd overall inflammation in small airways and alveolar walls, along with alveolar wall thickening in 6
16 blast migration and proliferation within the alveolar wall and airspace after lung injury can lead to
18 and pneumomediastinum due to the rupture of alveolar walls and barotrauma in mechanically ventilated
19 n the lungs of CD18-/- mice by 68 and 35% in alveolar walls and by 28 and 26% in venous walls, respec
20 the amplitude of the strain in the adjacent alveolar walls and extended the strain amplification dee
21 y, absence of TLOs attenuated destruction of alveolar walls and inflammation in bronchoalveolar lavag
23 zed initially by lymphocytic infiltration of alveolar walls and spaces, followed by an exuberant mono
24 incorporation of fibroblastic material into alveolar walls, and (c) cigarette smoke-related inflamma
25 ith a type II cell phenotype, grew along the alveolar walls, and projected into the alveolar septa.
26 alveolar septa; congested capillaries within alveolar walls; and congested capillaries within the wal
28 prilysin had no effect on baseline airway or alveolar wall architecture, vessel density, cardiac func
29 tronger structural breakdown at the level of alveolar walls, as well as accelerated decay of stiffnes
30 expressed by epithelial cells that lined the alveolar walls, as well as by inflammatory cells and slo
33 pase-3, Bax, and p53) were more prevalent in alveolar wall cells from the patients who died with ALI
34 aspase 3 demonstrated increased apoptosis in alveolar wall cells in wild-type mice in hyperoxia compa
36 t adeno-associated virus markedly attenuated alveolar wall destruction and oxidative stress caused by
38 sema is a pulmonary disease characterized by alveolar wall destruction, resulting in enlargement of g
40 the edge of a lung tumor and in surrounding alveolar walls experience increased strain during respir
41 The degree of alveolar space cellularity, alveolar wall fibrosis, and cellularity did not affect s
42 we show that a subset of AMs attached to the alveolar wall form connexin 43 (Cx43)-containing gap jun
43 BAL fluid probably reflect a high burden of alveolar wall granulomas and/or the removal of granuloma
44 ngs at day 4 revealed less disruption of the alveolar wall in SP-C-GM mice compared to wild-type mice
45 cinoma, the tumour cells slowly spread along alveolar walls in a non-destructive manner and have low
46 fter zoster revealed SVV antigen in the lung alveolar wall, in ganglionic neurons and nonneuronal cel
47 ter tail vein injection of tumor cells, with alveolar wall infiltration seen with AQP1-expressing tum
48 ons were characterized by hyperplasia of the alveolar walls, infiltration of polymorphonuclear leukoc
49 Emphysema causes a permanent destruction of alveolar walls leading to airspace enlargement, loss of
50 2 activity in turn causes the destruction of alveolar walls leading to emphysema, making it potential
51 gs show that IAV infection blocked defensive alveolar wall liquid (AWL) secretion and induced airspac
52 compartments, studies on the composition of alveolar wall liquid, and neutrophil and platelet traffi
59 ppearance of an inflammatory reaction in the alveolar wall that can be triggered by different antigen
60 e COPD: in spite of the destructive process, alveolar wall thickening and focal fibrosis may be detec
63 small airways and alveolar walls, along with alveolar wall thickening in 67 subjects undergoing lung
64 Histopathological correlates of acid injury (alveolar wall thickening, edema, and leukocyte infiltrat
65 prenatal hormone exposure was a decrease in alveolar wall thickness and an increase in aerated paren
66 ar myofibroblast proliferation and increased alveolar wall thickness compared with saline-treated con
69 ormone exposure, but there was a decrease in alveolar wall thickness with advancing gestation and at
70 eal pressure, lung aeration measured via CT, alveolar wall thickness, cell infiltration, and surfacta
71 cient mice exhibited significantly decreased alveolar wall thickness, inflammatory cell infiltration,
74 which Mycobacterium tuberculosis crosses the alveolar wall to establish infection in the lung is not
75 fibroblastic foci, an abnormal adjacency of alveolar walls was seen, suggesting alveolar collapse.
76 ent stages of bacterial crossing through the alveolar wall, we established a two-layer transwell syst
78 ficantly larger in stretched than in relaxed alveolar walls with a linear relation between k(off) and