ライフサイエンスコーパス: alveolus

1 lly localized in regenerating regions of the alveolus.

2 collagen antigens in the glomerulus and lung alveolus.

3 t transport atmospheric oxygen to the distal alveolus.

4 ings, and midline notch in the upper lip and alveolus.

5 ) is important for immune defense within the alveolus.

6 ive Na+ transport and fluid clearance in the alveolus.

7 nt of the gas exchange machinery of the lung alveolus.

8 umber of propidium iodide-positive cells per alveolus.

9 icrobes and particulates at the level of the alveolus.

10 -B dimer in surface tension reduction in the alveolus.

11 esterol, which it can scavenge from the lung alveolus.

12 one of two collectins found in the pulmonary alveolus.

13 vels of leukotriene (LT) B(4) in the injured alveolus.

14 and key signaling networks in the developing alveolus.

15 e radically altered ecosystem of the injured alveolus.

16 ation radially outward, to the next adjacent alveolus.

17 ture system that recapitulates the lactating alveolus, activation of the basolateral CaR increases tr

18 crepancy between Fio2 and o2 fraction in the alveolus affects the Pao2/Fio2 ratio.

19 ribe a microphysiological system integrating alveolus and blood-brain barrier (BBB) tissue chips that

20 piratory-circulatory functions at the single-alveolus and capillary levels during disease progression

21 metry by balancing surface forces within the alveolus and changes in lung volume with exercise.

22 ously interpreting cues initiated within the alveolus and communicated via immediately adjacent type

23 n the regeneration and repair of the injured alveolus and in the therapeutic treatment of genetic dis

24 aditionally been considered a disease of the alveolus and lung matrix, the dominant environmental (ci

25 unveiled that AMs migrated from alveolus to alveolus and phagocytosed bacteria identically regardles

26 pable of both sensing the environment of the alveolus and providing feedback to the cells regulating

27 f C57BL/6 mice, Francisella localized to the alveolus and replicated within alveolar type II epitheli

28 micro (red blood cell), meso (capillary and alveolus) and macro (lung).

29 esisting bending forces close to the incisor alveolus, and may act with the arch-like mandibular shap

30 um2), average number of epithelial cells per alveolus, and relative area occupied by overall epitheli

31 to-lingual dimension of both soft tissue and alveolus, and the position and angulation of the teeth i

32 ns for alveolar capillary, interstitium, and alveolus are coupled by crossflows at the capillary and

33 pe II (ATII) pneumocytes as defenders of the alveolus are critical to repairing lung injury.

34 Type II cells in the wall of the alveolus are specialized to produce surfactant and they

35 mmunomodulatory process in which a subset of alveolus-attached AMs intercommunicates immunosuppressiv

36 control group (PCG), with blood-clot in the alveolus; BG, beta-tricalcium phosphate-based biomateria

37 ergillus fumigatus (AF) in an in vitro human alveolus bilayer model and in the lungs of neutropenic i

38 cells are crucial for repair of the injured alveolus by differentiating into alveolar epithelial typ

39 th air where it prevents the collapse of the alveolus by lowering surface tension and that the surfac

40 The Alveolus Chip is also used to evaluate the potential abi

41 BB, and infusion of medium from the infected alveolus chip led to more severe injuries on the BBB chi

42 These data demonstrate that the Lung Alveolus Chip provides a human relevant alternative for

43 Here we use a human lung alveolus chip that experiences cyclic breathing-like def

44 interfaced with pulmonary endothelium (Lung Alveolus Chip) is used to model acute RILI in vitro.

45 An in vitro model of the human alveolus, consisting of a bilayer of human alveolar epit

46 The lung alveolus constitutes a morphologically and mechanistical

47 response to virus in the SARS-CoV-2-infected alveolus differs from that in other types of pneumonia(2

48 refers to a visibly obvious collapse of the alveolus during expiration, whether this collapse is tot

49 It remains unclear whether the alveolus exhibits an intra-alveolar ion/liquid transport

50 cal cellular retinoid stores within the lung alveolus for maintaining its health in the face of an ac

51 ous mesh of capillary vessels surrounds each alveolus, forming the vast respiratory surface across wh

52 lectively injuring the cortical plate of the alveolus has been an approach to speed tooth movement an

53 duplex nature of the lining of the pulmonary alveolus has long been appreciated.

54 Each alveolus in the microscopic field was assigned to one of

55 Alveolar instability varied from alveolus to alveolus in the same microscopic field and included alve

56 rectly depicts transfer of oxygen across the alveolus into the pulmonary vasculature.

57 The lung alveolus is the functional unit of the respiratory syste

58 The function of SP-A in the alveolus is to facilitate the surface tension-lowering p

59 The effect of KGF in the human alveolus is unknown.

60 e activation of NF-kappaB-dependent genes in alveolus-like A549 cells.

61 ral ductal branching and extensive arrays of alveolus-like protuberances.

62 lipids to reduce surface tension within the alveolus, maintaining lung volume at end expiration.

63 towards disease, and is transmitted from the alveolus of the lung.

64 er (OR, 0.40 [95% CI, 0.26-0.62]), maxillary alveolus (OR, 2.16 [95% CI, 1.11-4.22]) and retromolar t

65 d with saline solution and blood-clot in the alveolus; positive control group (PCG), with blood-clot

66 via classical pathway activation within the alveolus, providing a C3-dependent entry pathway into re

67 tached to the lung, and the size of each was alveolus quantified by measuring the alveolar area by co

68 Of the 16, only one type III atelectatic alveolus recruited at the first inflection point and onl

69 Surgical injury to the alveolus that induced a significant increase in tissue t

70 cs; similar to the epithelium that lines the alveolus, the alveolar endothelium is made up of two int

71 early clearance of pneumococci from the rat alveolus, the effects of ethanol ingestion on surfactant

72 rrets, including trachea, bronchus, and lung alveolus tissues.

73 experiments unveiled that AMs migrated from alveolus to alveolus and phagocytosed bacteria identical

74 Alveolar instability varied from alveolus to alveolus in the same microscopic field and i

75 cess and small metal pins were placed in the alveolus to be used as fixed points to make measurements

76 In the lung alveolus, type 2 epithelial cells (AT2) have been descri

77 a the number of injured subpleural cells per alveolus was similar in the three groups (0.48 +/- 0.34

78 ale of small airway, small blood vessel, and alveolus, where they serve to distend and stabilize stru

79 hed thick-walled spherical model of a single alveolus with wavy collagen fibers during positive press