ライフサイエンスコーパス: elastic tissue

1 There were no significant changes in elastic tissue.

2 d to measure changes in collagen subtype and elastic tissue.

3 the mechanics of water transport through an elastic tissue.

4 erred a functional evolutionary advantage in elastic tissue.

5 plicated in the formation and homeostasis of elastic tissues.

6 otein that is essential for the formation of elastic tissues.

7 of extracellular networks in elastic and non-elastic tissues.

8 struction, endothelial regeneration, loss of elastic tissue and calcification.

9 th Verhoff von Giesen (VVG) stain to discern elastic tissue and Herovici stain to differentiate types

10 even in cells not typically associated with elastic tissues and in a manner unexpected of typical su

11 Stretching elastic tissues and using their recoil to power movement

12 plant and analyzed by hematoxylin and eosin, elastic tissue, and immunohistochemical stains, and the

13 stic movements that are powered by recoil of elastic tissues are less thermally dependent than moveme

14 (PXE) is a classic inherited disorder of the elastic tissue characterized by progressive calcificatio

15 horter time scales (adhesion, repulsion, and elastic tissue deformation over minutes) and longer time

16 guish active cell contractility from passive elastic tissue deformations.

17 thogenic similarities, including proteolytic elastic tissue degeneration and smooth muscle dysfunctio

18 desmosine and isodesmosine, as biomarkers of elastic tissue degradation.

19 We hypothesize a mechanism of elastic tissue destruction by complement fixation with r

20 s a highly prevalent disorder also involving elastic tissue dysfunction and is associated with glauco

21 are important for the proper development of elastic tissues found in the aorta and lung, as well as

22 nd maintained by chondrocytes form a strong, elastic tissue functioning to cushion and protect the su

23 sential roles in elastic fiber formation and elastic tissue homeostasis, as well as transforming grow

24 lls and fibroblasts in regions of fragmented elastic tissue in the lamina media.

25 mulation in vitro and to alter morphology of elastic tissues in vivo.

26 which are required for proper development of elastic tissues, including the heart and lungs.

27 tein component of the elastic fiber found in elastic tissues is elastin, an amorphous, cross-linked b

28 lar inefficiencies to non-experts, they used elastic tissues more effectively, achieving equivalent a

29 We establish elastic tissue motion as a key indicator of general moto

30 arning and optical flow analysis, we tracked elastic tissues (muscles and associated connective tissu

31 Elastic tissues rich in MAGP-1-containing microfibrils d

32 Histological study of elastic-tissue stained sections disclosed that the leafl

33 es are essential components of all mammalian elastic tissues such as blood vessels, lung and skin, an

34 Series elastic tissues such as tendon can save energy by perfor

35 s were half normal diameter, or collagen and elastic tissue were very sparse.

36 nm in diameter are found in elastic and non-elastic tissues with fibrillin as a major component.