ライフサイエンスコーパス: annulus fibrosus

1 ller AV sulcus and a severely underdeveloped annulus fibrosus.

2 h receptors in both the nucleus pulposus and annulus fibrosus.

3 or the development of both the AV valves and annulus fibrosus.

4 during the development of AV valves and the annulus fibrosus.

5 septal leaflet, and the atrial border of the annulus fibrosus.

6 IDC, and 289 cases (63%) were located in the annulus fibrosus.

7 lus fibrosus or puncturing both sides of the annulus fibrosus.

8 arity and matrix organization throughout the annulus fibrosus.

9 disordered ECM (extracellular matrix) in the annulus fibrosus.

10 organization due to mechanical damage in the annulus fibrosus.

11 zed disruptions that remained limited to the annulus fibrosus.

12 rtebral disc generate prestrain in the outer annulus fibrosus.

13 (IVD) herniation involves disruption of the annulus fibrosus (AF) caused by ageing or excessive mech

14 tenance of healthy nucleus pulposus (NP) and annulus fibrosus (AF) have not been fully elucidated.

15 Efficacious annulus fibrosus (AF) repair strategy that delivers cell

16 The annulus fibrosus (AF) represents a complex, multilamella

17 n growth plate (GP), cartilage endplate (EP) annulus fibrosus (AF), and nucleus pulposus (NP) with va

18 ounded by a multi-layered fibrocartilagenous annulus fibrosus (AF).

19 ained samples resolved the nucleus pulposus, annulus fibrosus and constituent lamellae, and finer str

20 nerves extended into the inner third of the annulus fibrosus and into the nucleus pulposus in 21 (46

21 common in elderly persons, especially in the annulus fibrosus and lower thoracic spine.

22 d reporter and immunohistochemical staining, annulus fibrosus and nucleus pulposus cells of young-adu

23 placement of intervertebral disk structures (annulus fibrosus and nucleus pulposus) by cartilage and

24 bute to the mesenchyme of the AV sulcus, the annulus fibrosus, and the parietal leaflets of the AV va

25 the contribution of EPDCs to the AV sulcus, annulus fibrosus, and the parietal leaflets of the AV va

26 ell and nucleus in meniscus, tendon, and the annulus fibrosus, as well as in stem cell-seeded scaffol

27 assessed by magnetic resonance imaging, with annulus fibrosus cell apoptosis and anti-cytochrome c st

28 ical overload (1.3 MPa) for 24 hours induced annulus fibrosus cell apoptosis and led to severe degene

29 caspase-9-dependent mitochondrial pathway in annulus fibrosus cell apoptosis induced by overload was

30 Healthy bovine annulus fibrosus cells, however, demonstrated a protecti

31 esults from human samples, mouse models, and annulus fibrosus culture experiments demonstrate that th

32 12.5 kPa +/- 1.3; grade 5, 16.5 kPa +/- 2.1; annulus fibrosus grade 1, 90.4 kPa +/- 9.3; grade 5, 120

33 ntervertebral disc (IVD) cells such as human annulus fibrosus (hAF) and nucleus pulposus (hNP).

34 model involving degenerative inflamed human annulus fibrosus (hAF) cells was established in vitro an

35 ified nerve fibres in the outer third of the annulus fibrosus in 48 (60%) of the 80 samples of interv

36 By using puncture surgery of the annulus fibrosus in rabbits, ex vivo puncture experiment

37 stricted to the outer or middle third of the annulus fibrosus in the 34 control samples.

38 ulposus surrounded by an aligned collagenous annulus fibrosus in the caudal spine of athymic rats for

39 7.5 revealed an abnormal organization of the annulus fibrosus in the dKOs, with chondrocyte-like cell

40 or IVD degeneration resulting from localized annulus fibrosus injuries.

41 d nucleus pulposus cells, disorganization of annulus fibrosus lamellae, reduced disc height, and incr

42 ficant increase in both nucleus pulposus and annulus fibrosus MR elastography-derived shear stiffness

43 In the annulus fibrosus, mRNA expression of the Notch ligand Ja

44 ted partitions: nucleus pulposus (NP), outer annulus fibrosus (oAF), inner AF (iAF), notochord, muscl

45 Injured annulus fibrosus of mutant and wild type mice contained

46 Cells of the nucleus pulposus and annulus fibrosus of rat disc tissue expressed components

47 the healthy back only the outer third of the annulus fibrosus of the intervertebral disc is innervate

48 produced by either incising one side of the annulus fibrosus or puncturing both sides of the annulus

49 juries were localized within one side of the annulus fibrosus or spanned the full width of the IVD.

50 lts for both nucleus pulposus (R = 0.92) and annulus fibrosus (R = 0.83) regions.

51 shear stiffness of the nucleus pulposus and annulus fibrosus regions of all lumbar IVDs were assesse

52 ted fibrocartilaginous tissues (meniscus and annulus fibrosus) remain largely unknown.

53 tension-activated repair patches (TARPs) for annulus fibrosus repair and local delivery of the anti-i

54 tion alleviates pain but does not repair the annulus fibrosus, resulting in a high incidence of recur

55 However, for complex tissues such as the annulus fibrosus, scaffolds have failed to capture their

56 p nerve ingrowth into the inner third of the annulus fibrosus, the nucleus pulposus, or both was seen

57 crodiscectomy owing to a large defect in the annulus fibrosus, this study's findings suggest that ann

58 Here, we present a novel strategy for annulus fibrosus tissue engineering that replicates this

59 nd adherent to the ventricular wall, and the annulus fibrosus was disrupted resulting in ventricular

60 mposed by nucleus pulposus surrounded by the annulus fibrosus, were often missing in Gdf5-Cre;Ext1(f/

61 Transcriptomic comparisons of the SM/J annulus fibrosus with human tissues showed shared pathwa