ライフサイエンスコーパス: renal parenchymal

1 isual assessment of the images showed little renal parenchymal activity and no bowel activity up to 2

2 shows that CD40 is expressed on a variety of renal parenchymal and non-parenchymal cells in normal ki

3 erived macrophages functions to preserve the renal parenchymal architecture, and this function depend

4 occlusion of the renal vascular pedicle and renal parenchymal bleeding following tumor excision and

5 eceived heart transplants and donor-specific renal parenchymal cells (n=4); group 4 animals received

6 tractant protein-1 (MCP-1) is upregulated in renal parenchymal cells during kidney disease.

7 Direct infection of renal parenchymal cells has been implicated in the patho

8 We detected a large number of apoptotic renal parenchymal cells in advanced nephritis and determ

9 and TNF-alpha), and apoptotic destruction of renal parenchymal cells in MRL-Fas(lpr) autoimmune kidne

10 port a role of productive HIV-1 infection of renal parenchymal cells in the pathogenesis of HIV-assoc

11 toimmune lupus nephritis, while apoptosis of renal parenchymal cells is a feature of advanced human l

12 Therefore, activation of TLR4 on renal parenchymal cells may activate p38 MAPK pathways,

13 cern that inflammatory mediators produced by renal parenchymal cells may influence the function of re

14 The inability of renal parenchymal cells to secrete IL-1beta may explain

15 ld be delivered by intact MyD88 signaling on renal parenchymal cells.

16 xploration of whether HIV-1 directly infects renal parenchymal cells.

17 non-invasive test for the detection of early renal parenchymal changes in diabetic nephropathy.

18 Renal parenchymal (cortical) scintigraphy (planar or SPE

19 ich is characterized by 2,8-dihydroxyadenine renal parenchymal crystal deposition.

20 characterized by 2,8-dihydroxyadenine (DHA) renal parenchymal crystal deposition.

21 adaptive changes that result in progressive renal parenchymal damage accompanied by a loss of renal

22 juries with calcification and focal gliosis, renal parenchymal damage and liver lobular inflammation

23 on of VUR, urinary tract infection (UTI) and renal parenchymal damage is well established.

24 the circadian gene Clock, renal fibrosis and renal parenchymal damage were significantly worse after

25 Renal fibrosis and renal parenchymal damage were significantly worse in Mrc

26 y was to investigate the diagnostic value of renal parenchymal density differences in distinguishing

27 Crystalline nephropathy refers to renal parenchymal deposition of crystals leading to kidn

28 Renal parenchymal disease after urinary tract infection

29 in children hospitalized with UTI predicted renal parenchymal disease on (99m)Technetium-dimercaptos

30 e 2 DM in the United States is likely due to renal parenchymal disease other than classic diabetic gl

31 erstitial fibrosis are associated with lower renal parenchymal elasticity.

32 The number of detectors, peak tube voltage, renal parenchymal enhancement level, and cyst diameter w

33 l cysts are scanned during maximal levels of renal parenchymal enhancement.

34 Stone diameter and renal parenchymal enlargement were also measured.

35 ydronephrosis, renal fascial thickening, and renal parenchymal enlargement were not significantly dif

36 lial cells ameliorated fibrosis and restored renal parenchymal function and metabolic homeostasis.

37 eviews the recent literature in the field of renal parenchymal hemostasis and its role in improving o

38 We believe that advances in secure renal parenchymal hemostasis will increase the applicabi

39 in achieving renal hypothermia and securing renal parenchymal hemostasis.

40 pertension and dyslipidemia due to secondary renal parenchymal hypertension and secondary dyslipidemi

41 useful and may be offered as a rapid (4 min) renal parenchymal imaging procedure, or it may precede p

42 Renal parenchymal injury in HIV-associated nephropathy (

43 evelopment of tools to predict reliably when renal parenchymal injury is beyond recovery and/or when

44 thology is required for the demonstration of renal parenchymal involvement; urine cytology and viral

45 Renal parenchymal lesions showed decreased enhancement a

46 sis and clinical management of patients with renal parenchymal malacoplakia (RPMP), a rare disease as

47 Catheter navigation times, renal parenchymal perfusion, and renal artery flow rates

48 ren with various clinical indications, SPECT renal parenchymal scintigraphy was performed with a thre

49 an explorative single-center clinical trial, renal parenchymal tissue perfusion of 32 stable kidney a

50 Renal parenchymal tissues express a limited repertoire o

51 marrow chimeric mice, it was determined that renal parenchymal TLR4, rather than myeloid TLR4, mediat

52 aging aid in preoperative differentiation of renal parenchymal tumors.

53 recognized as the standard of care for small renal parenchymal tumors.

54 d segmentation algorithm was used to measure renal parenchymal volume from CT images.

55 ctual and as a percent of total volume), and renal parenchymal volume were 3.4, 7.2, 5.3, and 5.6%, r

56 olumes correlated positively with age, while renal parenchymal volumes and GFR correlated negatively

57 dney and renal cyst volumes increased, while renal parenchymal volumes and GFR declined.

58 e of measuring total kidney, renal cyst, and renal parenchymal volumes reproducibly; (2) total kidney

59 erminations of total kidney, renal cyst, and renal parenchymal volumes, using fast electron-beam comp