ライフサイエンスコーパス: vascular volume

1 vasation into the interstitium to reduce the vascular volume.

2 in regulation of arterial blood pressure and vascular volume.

3 control of epithelial surface hydration and vascular volume.

4 ns of vasculature to assess intraparenchymal vascular volumes.

5 h a novel Evans blue dye assay that measured vascular volumes.

6 re able to observe a significant increase in vascular volume 1 week after FGFR1 activation.

7 hange that contributed to the restoration of vascular volume after ischemia.

8 a hypoxia-response element markedly promotes vascular volume and blood flow, increased proliferation

9 aintaining sodium balance and, hence, normal vascular volume and blood pressure.

10 sel formation, increasing parameters such as vascular volume and connectivity while decreasing degree

11 ium transporters in response to the expanded vascular volume and hypertension.

12 ontractility, adrenergic responsiveness, and vascular volume and increased peripheral vascular resist

13 Vascular volume and oxygenation were assessed across eig

14 the STZ model of type 1 diabetes, changes in vascular volume and permeability associated with early s

15 These tumors had high vascular volume and permeability surface area, as determ

16 time, that pericyte depletion causes loss of vascular volume and spiral ganglion neurons (SGNs) and a

17 wed that MCF-7/Twist tumors exhibited higher vascular volume and vascular permeability in vivo than t

18 hips between CT metrics of emphysema, venous vascular volume, and sarcopenia with the LV epicardial v

19 r intensitometry was used to assess relative vascular volume, and the renal arteriovenous transit tim

20 ent with the possibility that regions of low vascular volumes are hypoxic, which induces increased ex

21 s no statistically significant difference in vascular volume between patients with SSc and HC (mean o

22 predominantly associated with an increase in vascular volume contributed by the medium-size (96 to 14

23 The vascular volumes differ significantly between both cohor

24 icrovascular dysfunction, and alterations in vascular volume, flow, and permeability have been report

25 a-to-tissue transport rate (k(1)), and local vascular volume fraction (beta) for head and neck cancer

26 ctively determine the feasibility of imaging vascular volume fraction (VVF) and its therapeutic inhib

27 Network features such as vascular volume fraction, branch point density, vessel d

28 tissue to access features such as cell size, vascular volume fraction, intra- and extracellular volum

29 for perfused and nonperfused vessels (e.g., vascular volume fraction, vessel length and number, numb

30 4, grow significantly faster and have higher vascular volume fractions than control tumours.

31 rval (CI), 0.96-0.99]; P = 0.001), increased vascular volume (HR, 1.30 [95% CI, 1.12-1.51]; P = 0.001

32 he major contributor (188%) to the change in vascular volume in response to ischemia.

33 e and the histologically derived fraction of vascular volume in the capillaries.

34 The vascular volume in the nailfold capillaries were compute

35 workflow to determine the development of the vascular volume in zebrafish.

36 These studies showed a large reduction in vascular volume, induction of extensive necrosis in tumo

37 Vascular volume is of fundamental significance to the fu

38 uned from histology data, including relative vascular volume, mean vessel diameter, and distance from

39 We sought to determine if small vascular volumes measured on computed tomography scans w

40 ibody bevacizumab decreases tumor perfusion, vascular volume, microvascular density, interstitial flu

41 l radius, and our novel metric named Macular Vascular Volume (MVV), were extracted to assess consiste

42 etic resonance imaging showed an increase in vascular volume of TRAMP tumors grown in VDR KO mice com

43 tissue to cancer-relevant parameters such as vascular volume, oxygenation, extracellular matrix exten

44 The transport parameters derived included vascular volume, permeability surface area product, macr

45 ed more easily, were characterized by higher vascular volume, permeability, and total choline and a m

46 In some patients, the ratio of vascular volume to total tumor volume increased signific

47 Vascular volume was highest in VEGF120 and control tumor

48 MRI measurements showed that vascular volume was significantly lower in fluorescing r

49 Whilst vascular volume was similar between groups, digital arte

50 els (48 to 160 microm) comprising 85% of the vascular volume were the major contributor (188%) to the

51 Specifically, tumor vascular volumes were diminished and vessels were fewer