ライフサイエンスコーパス: blood sugar

1 variable, accuracy at times of low and high blood sugar.

2 They too had normal fasting blood sugars.

3 improve outcomes more than tight control of blood sugars.

4 were treated with insulin to normalize their blood sugars.

5 /L; 95% CI: -0.03, 0.28 mmol/L), and fasting blood sugar (-0.16 mmol/L; 95% CI: -0.44, 0.11 mmol/L).

6 istration of anti-resistin antibody improves blood sugar and insulin action in mice with diet-induced

7 e were treated with the RIPtk gene, and both blood sugars and animal viability were monitored.

8 ed atherosclerotic process, managing lipids, blood sugar, and blood pressure.

9 ), respectively; obesity, hypertension, high blood sugar, and regular cigarette smoking were rare.

10 ith the risk of high blood pressure, fasting blood sugar, and triglycerides, with marginal significan

11 e present study was to determine whether low blood sugar augments glucagon's ability to increase gluc

12 Blood pressure, non-fasting blood sugar, body mass index and abdominal girth were me

13 ese findings support the hypothesis that low blood sugar causes greater participant cooperation - whi

14 vascular biomarkers, including lipoproteins, blood sugar, circulatory pressure, proinflammatory marke

15 erapies to control cerebral amyloid-beta and blood sugar concentrations.

16 describes how a food, meal, or diet affects blood sugar during the postprandial period.

17 drink causes some participants who have low blood sugar from fasting to give lower slant estimates.

18 tion (ureagenesis) and regulation of fasting blood sugar (gluconeogenesis).

19 DAN score (0 to 6 points) comprises baseline blood Sugar (glucose; 8.1-12.0 mmol/l [145-216 mg/dl] =

20 Weights, blood sugar, glycosylated hemoglobin, and detailed ERGs

21 At the time of rejection (blood sugar >300 mg/100 ml), grafts were harvested and a

22 d metabolic dysregulation (obesity, elevated blood sugar, high blood pressure, high levels of triglyc

23 Buruli ulcer pathogenesis is that changes in blood sugar homeostasis in infected patients are mirrore

24 reas has the crucial function of maintaining blood sugar homeostasis.

25 ent on the counterregulatory response to low blood sugar in dogs.

26 articles had no effect on the body weight or blood sugar level of rats.

27 n premedication, Wistar male rats presenting blood sugar levels >20 mmol/L were selected for investig

28 serum antibody titers to these bacteria, and blood sugar levels (glycosylated hemoglobin, HbAlc) were

29 significant changes in creatinine, urate, or blood sugar levels after conversion, but the mean plasma

30 ame protocol was used on animals with normal blood sugar levels and healthy gingiva.

31 Blood sugar levels and insulin sensitivity was not affec

32 physiological adaptation to maintain normal blood sugar levels during sleep loss.

33 The blood sugar levels of GK rats are significantly higher t

34 Graft survival monitored by blood sugar levels was compared among the groups.

35 the brain's ability to sense dangerously low blood sugar levels.

36 abolism may identify new strategies to lower blood sugar levels.

37 sulin secretion and effectively lowers their blood sugar levels.

38 One MN patch can quickly reduce the blood-sugar levels (BGLs) of chemically induced type-1 d

39 ical setting improves outcomes compared with blood sugars of approximately 150 mg/dl.

40 , periodontal index, body mass index, random blood sugar (RBS), and glycated hemoglobin (HbA1c).

41 Fasting blood sugar, serum insulin, fasting serum lipids and ser

42 o produce insulin Abs that may lower fasting blood sugars similar to an insulin autoimmune syndrome.

43 n B to 2p24-25; weight to 18q21; and fasting blood sugar to 1q31-1q43.

44 Shortly after admission, the patient's blood sugar was controlled with insulin; this led to a s

45 Blood sugars, weights, and ERGs were measured for a grou

46 Improvements in blood sugar were due in part to increased glucose uptake

47 ious history of diabetes or elevated fasting blood sugar were studied.

48 uous measures for blood pressure and fasting blood sugar were used instead of hypertension and diabet

49 ns were markedly elevated, but their fasting blood sugars were normal.

50 d consistently more often when their owner's blood sugars were reported to be outside, than within, t

51 he enhanced hyperammonemia and lower fasting blood sugar, which are both seen in the DKO mice, indica

52 The control of blood sugar (with similar doses of insulin) achieved by