ライフサイエンスコーパス: tissue fluid

1 r oxygen dissolved in plasma or interstitial tissue fluid.

2 , which was identified at high levels in the tissue fluid and by immunohistology, was responsible in

3 n of prion seeds in a wide variety of cervid tissues, fluids and excreta.

4 lass I MHC molecules secreted into blood and tissue fluids are not currently understood.

5 The lymphatic vasculature preserves tissue fluid balance by absorbing fluid and macromolecul

6 The lymphatic system is important in tissue fluid balance regulation, immune cell trafficking

7 The lymphatic system maintains tissue fluid balance, and dysfunction of lymphatic vesse

8 The lymphatic system maintains tissue fluid balance, and its dysfunction can result in

9 The lymphatic system regulates interstitial tissue fluid balance, and lymphatic malfunction causes e

10 Lymphangiogenesis is critically involved in tissue fluid balance, graft rejection, and tumor metasta

11 ture plays major roles in the maintenance of tissue-fluid balance, the immune response, and in lipid

12 for vascular homeostasis and maintenance of tissue-fluid balance.

13 n so that the normally highly bacteriostatic tissue fluid became significantly more supportive of the

14 d in diverse locations that have in common a tissue-fluid boundary.

15 ith direct administration of 11C7 mAb in CNS tissues/fluids, but not with peripheral administrations

16 ecrete siderophores that extract Fe(3+) from tissues, fluids, cells, and proteins; the ligand gated p

17 Although liver tissue fluid enrichment of [13C]Leu and [15N]Phe and tha

18 cell barrier (EC) properties regulate blood tissue fluid flux.

19 (FN), a soluble multidomain protein found in tissue fluids, forms insoluble fibrillar networks in the

20 helial cells (LECs) that are responsible for tissue fluid homeostasis and immune cell trafficking.

21 The lymphatic system plays a key role in tissue fluid homeostasis and lymphatic dysfunction cause

22 Impairment of tissue fluid homeostasis and migration of inflammatory c

23 r after inflammatory injury is essential for tissue fluid homeostasis and normalizing leukocyte trans

24 vessels are critical for the maintenance of tissue fluid homeostasis and their dysfunction contribut

25 ctions as a semipermeable barrier regulating tissue fluid homeostasis and transmigration of leukocyte

26 Lymphatic vessels maintain tissue fluid homeostasis by returning to blood circulati

27 vel of injury, resulting in dysregulation of tissue fluid homeostasis in afflicted skin.

28 It actively regulates tissue fluid homeostasis, absorption of gastrointestinal

29 c system is essential for the maintenance of tissue fluid homeostasis, gastrointestinal lipid absorpt

30 The lymphatic system plays a key role in tissue fluid homeostasis, immune cell trafficking, and f

31 ally organized complex network essential for tissue fluid homeostasis, immune trafficking and absorpt

32 The lymphatic system plays a key role in tissue fluid homeostasis.

33 mune response but, even more so, to maintain tissue fluid homeostasis.

34 s that are critical for lymph propulsion and tissue fluid homeostasis.

35 plasma membrane receptors and is crucial for tissue fluid homeostasis; its dysfunction causes disease

36 ich drive active lymph transport to maintain tissue-fluid homeostasis and support immune surveillance

37 n and inner retinal barriers) that regulates tissue-fluid homeostasis, transport of nutrients, and mi

38 hat regulates several EC functions including tissue-fluid homeostasis.

39 crease conduction velocity (CV) close to the tissue-fluid interface, inducing transmural wavefront cu

40 consistent with those obtained using KIC or tissue fluid Leu or Phe as precursor pools.

41 ntral regions of carcinomas exhibit elevated tissue fluid levels, compressed lymphatic lumina, and de

42 Tissue fluid obtained from the site of PPD challenge in

43 Whereas the tissue fluid remained significantly elevated in the RESU

44 atic capillaries efficiently drain increased tissue fluid, thereby maintaining tissue hemodynamics.

45 compartments (plasma, interstitial fluid and tissue fluid) with exchange between them.

46 o their full size via osmosis of surrounding tissue fluid, with up to a 10-fold increase in volume.