ライフサイエンスコーパス: blood flow rate

1 1 day is usually more than 50% of the 6-week blood flow rate.

2 PAOM measured the sO2 and SD-OCT mapped the blood flow rate.

3 isoform expression did not affect growth or blood flow rate.

4 rements included minimum venous diameter and blood flow rate.

5 onstant velocity despite large variations in blood flow rate.

6 ficantly decreased vessel diameter and local blood flow rate.

7 t aggregation in SCD mice, thereby improving blood flow rates.

8 endocardial perfusion across a wide range of blood flow rates (0 to >5.0 mL/min/g).

9 er absolute 10% difference in FMD: change in blood flow rate =11.6%; 95% CI, 0.6% to 23.9%; P=0.04; c

10 er absolute 10% difference in NMD: change in blood flow rate =14.0%; 95% confidence interval [95% CI]

11 tients were randomized to receive one of two blood flow rates: 150 or 250 mL/min.

12 tely increased portal-drained visceral (PDV) blood flow rate (+25%) and intestinal blood volume (+51%

13 sis machine; Fresenius F80B dialyzer; median blood flow rate 400 ml/min; dialysate flow rate 600 ml/m

14 one filter (1.2 m2; mean pore size, 0.50 nm; blood flow rate, 400 mL/min; ultrafiltrate, "zero-balanc

15 = 0.01), and a significantly reduced venous blood flow rate (9.7 +/- 3.1 microL/min) compared with t

16 ere was no significant change in the retinal blood flow rate after treatment.

17 We studied blood flow rates along the sciatic nerve and in the supe

18 ociated with greater increases in 6-week AVF blood flow rate and AVF diameter (per absolute 10% diffe

19 eater NMD associated with greater 6-week AVF blood flow rate and AVF diameter (per absolute 10% diffe

20 tively associated with changes in 6-week AVF blood flow rate and diameter, suggesting that native fun

21 nt relationships with both postoperative AVF blood flow rate and diameter.

22 d concentration in portal vein blood, portal blood flow rate and glucagon concentration, with methion

23 2 is challenging because two parameters, the blood flow rate and hemoglobin oxygen saturation (sO2),

24 rticle assesses the hypothesis that the high blood flow rate and low O(2) extraction associated with

25 ng functional information from scans such as blood flow rate and oxygen consumption provides new pers

26 rative VFT to ultrasound measurements of AVF blood flow rate and venous diameter at 1 day, 2 weeks, a

27 left ventricular pressure, aortic pressure, blood flow rate, and aortic orifice area are examined.

28 Angiogenesis, vessel diameter, blood flow rate, and vascular permeability were proporti

29 Changes in carotid and mesenteric artery blood flow rates, as a percent of baseline values, showe

30 AVF blood flow rate at 1 day is usually more than 50% of the

31 an be used effectively to compare myocardial blood-flow rates at rest and stress levels.

32 Changes in pulmonary blood flow rate can alter the size of the perfused pulmo

33 Change in portal venous blood flow rates did not have an effect on the size and

34 (r = 0.95, P <.001) across the full range of blood flow rates encountered (from 0 to >5.0 mL/min/g).

35 record for reductions in prescribed time or blood flow rates followed by vascular access testing.

36 ximetry), end-tidal PCO2, and carotid artery blood flow rate, for which data were collected at 15-min

37 on of blood-borne therapeutic agents and low blood flow rate in tumors.

38 These adaptations resulted in hindlimb blood flow rates in IUGR that were similar to control fe

39 gnificantly higher cardiac outputs and renal blood flow rates in treated animals compared with sham c

40 rast, in skeletal muscle and left ventricle, blood flow rates increased in the albumin-transfused gro

41 To determine whether blood flow rate influences circuit life in continuous re

42 cid and p-cresyl glucuronide, an increase in blood flow rate is advantageous.

43 We conclude that retinal blood flow rate is reduced significantly in the diabetic

44 n 23 consecutive patients with an inadequate blood flow rate (< 200 mL/min) during hemodialysis.

45 tressed neonates with extremely low cerebral blood flow rates may have relatively normal short-term n

46 ior to 6 weeks, at least 50% of their 6-week blood flow rate measurement was achieved at 1 day.

47 ol circuit or NO test circuit for 4 hrs at a blood flow rate of 109-118 mL/min via roller pump.

48 no difference in circuit life whether using blood flow rates of 250 or 150 mL/min during continuous

49 2 microglobulin clearances were measured at blood flow rates of 300 ml/min (Qb 300) and 400 ml/min (

50 LP-2 plus L-NAME did not increase either PDV blood flow rate or glucose uptake.

51 did not differ in body size, treatment time, blood flow rate, or net fluid removal.

52 Each compartment was characterized by blood flow rate, organ volume and lymphatic flow rate, a

53 hat is required to reestablish baseline MAP, blood flow rates, oxygen delivery, PrCO2, and pHi.

54 l (r2 = .48; P < .0001) but not with in vivo blood flow rate (P = .45).

55 mulations were generated for eight different blood-flow rates reflecting the physiological range of i

56 Continuous renal replacement therapy using blood flow rate set at 250 mL/min was not more likely to

57 rapid H(+) and lactate efflux resulting from blood flow rates that are among the highest reported for

58 Performance parameters evaluated included blood flow rates, urea reduction percentages, and recirc

59 The average blood flow rate was 281.4 mL/min (range, 117.1-405.6 mL/

60 Retinal blood flow rate was found to decrease by approximately 3

61 jection of streptozotocin (STZ), and retinal blood flow rate was measured under anesthesia by a micro

62 ry normalized after transplantation, and the blood flow rate was reduced in all patients who underwen

63 The blood flow rate was then returned to 100 mL/kg/min.

64 AVF draining vein diameter and blood flow rate were assessed postoperatively after 1 da

65 Blood column diameter, blood velocity, and blood flow rate were measured in the major superior temp

66 Mean fistula diameters and blood flow rates were compared by using analysis of vari

67 rotid, superior mesenteric, and renal artery blood flow rates were measured at normocapnic baseline a

68 of 14 infants, both early and late cerebral blood flow rates were measured.

69 Right and left hemispheric cerebral blood flow rates were significantly correlated with each