ライフサイエンスコーパス: serum albumin concentration

1 95% CI, 0.42 to 0.74 per 1 g/dl increase in serum albumin concentration).

2 entify and manage conditions that reduce the serum albumin concentration.

3 with greater prognostic accuracy than total serum albumin concentration.

4 he blood urea nitrogen concentration and the serum albumin concentration.

5 veloped age-dependent PH associated with low serum-albumin concentration.

6 factor 3 and blood urea nitrogen but higher serum albumin concentrations.

7 italization than those with normal or higher serum albumin concentrations.

8 postdischarge weight and had repleted their serum albumin concentrations.

9 associated with lower BMI but not with lower serum albumin concentrations.

10 0.91 (95% CI: 0.84, 0.99) for a 1-g/L higher serum albumin concentration].

11 2 +/- 8.1 yr; Child-Pugh score, 8.5 +/- 1.0; serum albumin concentration, 3.0 +/- 0.6 g/dl) were stud

12 The key dependent variables were serum albumin concentration and BMI.

13 There was no association between serum albumin concentration and changes in CD4(+) T-cell

14 The inverse relationship between serum albumin concentration and its half-life suggested

15 ges include altered fluid status, changes in serum albumin concentrations and renal and hepatic funct

16 sclerosis on initial biopsy as well as age, serum albumin concentration, and CKD stage at onset affe

17 urea nitrogen level, impaired sensorium, low serum albumin concentration, and partial thromboplastin

18 urea nitrogen level, impaired sensorium, low serum albumin concentration, and partial thromboplastin

19 sation algorithm using platinum sensitivity, serum albumin concentration, and stage as stratification

20 Lower serum albumin concentrations appear to be associated wit

21 is study suggests that decreases with age in serum albumin concentrations are associated with muscle

22 p can be adjusted for the effect of abnormal serum albumin concentrations as follows: adjusted anion

23 mplete normalization of ALT at 6 months, low serum albumin concentration at diagnosis, and age at pre

24 The association between serum albumin concentration at the time of listing for l

25 a) concentrations, as well as increased mean serum albumin concentrations at 12 weeks, relative to pl

26 e analysis, the serum monoclonal protein and serum albumin concentrations at diagnosis were the only

27 mass per unit length, skinfold thickness and serum albumin concentration, but only in a sea lion colo

28 perimental studies have shown that a reduced serum albumin concentration can increase the volume of d

29 Serum albumin concentrations can identify adults initiat

30 Serum albumin concentrations decrease with age and value

31 n 2)(Vd)/days, where albumin 1 and 2 are the serum albumin concentrations (g/L) at the beginning and

32 Serum albumin concentration has been recognized as a mar

33 have assessed whether individuals with a low serum albumin concentration have delayed progression to

34 ndicators of poor outcome were adjusted for, serum albumin concentration in the hospital was a strong

35 The mean serum albumin concentration increased by 1.42 g/dL in th

36 Pretransplant serum albumin concentration is a strong prognostic marke

37 Low serum albumin concentration is associated with short-ter

38 Serum albumin concentration is determined by its rate of

39 6 +/- 1.9 vs. 2.2 +/- 0.6; P =.03) and lower serum albumin concentrations (low: 2.8 +/- 0.1 vs. norma

40 Ninety-six percent of the patients had serum albumin concentration < or = 3 SD below the mean o

41 Nineteen percent had serum albumin concentrations < 35 g/L (3.5 g/dL).

42 Prospective studies of serum albumin concentration measurement as a low-cost pr

43 at the increased risk of disability with low serum albumin concentrations observed in the elderly may

44 =34%; blood urea nitrogen of > or =24 mg/dL; serum albumin concentration of < or =4.0 g/dL (< or =40.

45 the critically ill patients: 49% of them had serum albumin concentration of <20 g/L.

46 dividuals with hypoalbuminemia (defined as a serum albumin concentration of <35 g/L) at ART initiatio

47 .37-6.07; P < .001) that of individuals with serum albumin concentrations of >/= 35 g/L, after multiv

48 Secondary analyses suggested that serum albumin concentrations of <38 g/L were associated

49 s to investigate the impact of pretransplant serum albumin concentration on post-transplant outcome i

50 Variability was explained by the serum albumin concentration (P < .0001), concomitant use

51 arm (P < .001) and was related to a greater serum albumin concentration (P < .001) and to a lower ex

52 correlations between the hematocrit and the serum albumin concentration (P = 0.009) and between the

53 Serum albumin concentration (p=0.43), thromboprophylaxis

54 ty of the nephrotic syndrome (as assessed by serum albumin concentration), preexisting thrombophilic

55 nificantly during the study period, but only serum albumin concentrations showed a significant associ

56 Additional adjustment for serum albumin concentration substantially attenuated the

57 For each 0.5 g/dL decrease in serum albumin concentration the 1-year and overall morta

58 The mean serum albumin concentration was 3.8 +/- 0.4 g per decili

59 In the albumin group, the target serum albumin concentration was 30 g per liter or more u

60 Serum albumin concentration was determined before and af

61 Serum albumin concentration was measured at ART initiati

62 ameter, lymph node metastasis) and decreased serum albumin concentration were unfavorable for long-te

63 in patients with liver failure, the average serum albumin concentrations were 30.55 g/L.

64 Lower serum albumin concentrations were associated with advanc

65 Serum albumin concentrations were good predictors of the

66 Variables in the model for lower serum albumin concentrations were sex, increased age, in