ライフサイエンスコーパス: alveolus

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1 e radically altered ecosystem of the injured alveolus.

2 ) is important for immune defense within the alveolus.

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

4 umber of propidium iodide-positive cells per alveolus.

5 icrobes and particulates at the level of the alveolus.

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

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

8 one of two collectins found in the pulmonary alveolus.

9 collagen antigens in the glomerulus and lung alveolus.

10 t transport atmospheric oxygen to the distal alveolus.

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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