ライフサイエンスコーパス: intestinal absorption

1 of dietary energy, and enhanced capacity for intestinal absorption.

2 istical pattern recognition model of passive intestinal absorption.

3 generally results from a chronic increase in intestinal absorption.

4 he inhibitory threshold values for Ca and Zn intestinal absorption.

5 se hydrolyzes dietary folates prior to their intestinal absorption.

6 and clearance in plasma indicative of small intestinal absorption.

7 facilitate the release of metal ions during intestinal absorption.

8 alternatives might be based on reducing its intestinal absorption.

9 n the colon, largely avoiding proximal small intestinal absorption.

10 en transformed back to the active drug after intestinal absorption.

11 y play a role in the regulation of vitamin A intestinal absorption.

12 f current knowledge on the regulation of its intestinal absorption.

13 Intestinal absorption and biliary excretion of cholester

14 lity to cholesterol gallstones by decreasing intestinal absorption and biliary secretion of cholester

15 Bile acids are required for intestinal absorption and biliary solubilization of chol

16 udy the role of this transporter in limiting intestinal absorption and brain penetration of substrate

17 ecessive disorder characterized by increased intestinal absorption and decreased biliary excretion of

18 mmendations are based on the balance between intestinal absorption and endogenous losses, we have stu

19 act the host's energy balance, their role in intestinal absorption and extraintestinal metabolism of

20 inhibitors were tested in in vitro models of intestinal absorption and found to have low absorption p

21 nd cholelithogenesis, possibly by decreasing intestinal absorption and hepatic bioavailability.

22 we show that GF versus SPF mice have reduced intestinal absorption and increased fecal excretion of c

23 Heme can also be acquired by intestinal absorption and intercellular transport.

24 nding cassette (ABC) transporters that limit intestinal absorption and promote biliary excretion of n

25 Intestinal absorption and renal reabsorption of phosphat

26 nd salt absorption caused by an imbalance in intestinal absorption and secretion.

27 Rates of intestinal absorption and surface hydrolysis are determi

28 erivatives that compete with cholesterol for intestinal absorption and thereby lower serum cholestero

29 ABCG5 and ABCG8 normally cooperate to limit intestinal absorption and to promote biliary excretion o

30 ) profiles of drug candidates, in particular intestinal absorption and transport across the blood-bra

31 sity, which would necessitate an increase in intestinal absorption and/or renal reabsorption of calci

32 s controlled mainly by endogenous synthesis, intestinal absorption, and hepatic excretion.

33 The aim of this study was to assess intestinal absorption at the time of weaning from parent

34 ry perception, autonomous functions, rate of intestinal absorption, behavior, including cognition and

35 Intestinal absorption, biliary excretion, and urinary ex

36 r gastrointestinal tract was used to compare intestinal absorption/bioaccessibility of blueberry anth

37 iles showed essentially identical effects on intestinal absorption but with lower fecal cholesterol e

38 The prodrug clopidogrel requires intestinal absorption by the efflux pump P-glycoprotein

39 To limit intestinal absorption, C7-sulfated analogues designed to

40 a new concept of "slow vs fast fat," whereby intestinal absorption can be modulated by structuring di

41 After intestinal absorption, circulating genistein and daidzei

42 currence at the sn-2 position allows optimal intestinal absorption conditions.

43 ses, but these bioactive components have low intestinal absorption due to their hydrophobic nature.

44 calcium demand was met by increased maternal intestinal absorption; early breast-milk calcium was pro

45 ansporter, plays a major role in determining intestinal absorption efficiency and hepatic secretion r

46 echniques, we show that an accurate model of intestinal absorption for a set of drugs can be construc

47 The low rates of intestinal absorption found in anaesthetised animals may

48 Studies on vitamin A intestinal absorption have shown the existence of a rece

49 These findings confirmed efficient intestinal absorption, hepatic extraction, and biliary s

50 ns of beta-carotene and canthaxanthin during intestinal absorption in humans.

51 Improvements in de novo synthesis and intestinal absorption increase glutamine availability ov

52 In mice lacking functional KCNQ1, impaired intestinal absorption is associated with reduced serum v

53 ffect of both systems acting together during intestinal absorption is difficult to ascertain.

54 Vitamin K1 (phylloquinone) intestinal absorption is thought to be mediated by a car

55 out overt diarrhea, have profound effects on intestinal absorption, nutrition, and childhood developm

56 ues examined, indicating that no appreciable intestinal absorption occurred.

57 ng mechanisms involved, the effects of NT on intestinal absorption of (3)H-D-glucose, (3)H-leucine, (

58 These values were compared to intestinal absorption of (59)Fe, which was significantly

59 impact of delayed enteral nutrition on small intestinal absorption of 3-O-methyl-glucose.

60 In the stressed mice, intestinal absorption of [(14)C]cholesterol was signific

61 effective than taurocholate in promoting the intestinal absorption of a range of drugs, showing that

62 erplasia of the intestine after VSG, but the intestinal absorption of alimentary glucose was reduced

63 cate that Slc10a2 is essential for efficient intestinal absorption of bile acids and that alternative

64 Intestinal absorption of bile acids depends on a sodium-

65 ol carriers, which may in turn influence the intestinal absorption of biliary cholesterol.

66 ot completely understood, but alterations in intestinal absorption of calcium are not thought to be i

67 c array detection enabled us to quantify the intestinal absorption of carotenoids ingested from a sin

68 mg/rat over 8 h, pyran diol 3 inhibited the intestinal absorption of cholesterol by 71% in rats.

69 We blocked intestinal absorption of cholesterol in milk fed to newb

70 sterol esterase is responsible for mediating intestinal absorption of cholesteryl esters but does not

71 objective was to measure total reduction in intestinal absorption of combustible energy after RYGB a

72 Thus, zinc prevents the intestinal absorption of copper.

73 in nitrogen supply to the body by mediating intestinal absorption of di- and tripeptides.

74 s combination with inhibitors that block the intestinal absorption of dietary and biliary cholesterol

75 nts of plasma cholesterol and phospholipids, intestinal absorption of dietary fat and cholesterol, an

76 Molecular defects in the intestinal absorption of dietary folates that precipitat

77 esence of the H475Y GCPII allele impairs the intestinal absorption of dietary folates, resulting in r

78 In hereditary hemochromatosis (HH), intestinal absorption of dietary iron is increased, lead

79 gical route to recycle bile salts and ensure intestinal absorption of dietary lipids.

80 ntrols intestinal epithelium homeostasis and intestinal absorption of dietary lipids.

81 Net intestinal absorption of dietary oxalate results from pa

82 Dietary intake and intestinal absorption of fat, protein, carbohydrate, and

83 obese than controls; they also had increased intestinal absorption of fatty acids and decreased energ

84 he acidic pH optimum for PCFT is relevant to intestinal absorption of folates and could afford a mean

85 transport in many tissues, most notably the intestinal absorption of folates, in terms of pH depende

86 r CEL include the direct facilitation of the intestinal absorption of free cholesterol and the modifi

87 The intestinal absorption of fructose is carried out by the

88 , Australia) with 20 MBq Tc-suphur colloid), intestinal absorption of glucose (3 g of 3-O-methyl-gluc

89 However, poor intestinal absorption of intact proteins is a major chal

90 ar weight multiligand receptor that mediates intestinal absorption of intrinsic factor-cobalamin and

91 ew, we focus on the key proteins involved in intestinal absorption of iron, zinc, and copper.

92 isoflavone glycosides, and the mechanism of intestinal absorption of isoflavones in humans is unclea

93 With rhGH, the intestinal absorption of leucine and glutamine increased

94 glucagon-like peptide-2 (GLP-2) facilitates intestinal absorption of lipids, but its role in chylomi

95 been thought to be caused by a defect in the intestinal absorption of magnesium, rather than by abnor

96 The intestinal absorption of many nutrients and drug molecul

97 ss I-related Fc receptor, FcRn, mediates the intestinal absorption of maternal IgG in neonatal rodent

98 Intestinal absorption of mercury is influenced by intera

99 Direct intestinal absorption of nanoFe(3+) was investigated usi

100 Mucosal atrophy induced by FM reduces total intestinal absorption of nutrients, but nutrient absorpt

101 tion of vitamin D(3) may allow modulation of intestinal absorption of OATP1A2 transport substrates.

102 the development of mucosal vaccines and the intestinal absorption of oral biologics.

103 The role of SR-BI in the intestinal absorption of other dietary lipids, including

104 as a major constitutive role in limiting net intestinal absorption of oxalate, thereby preventing hyp

105 results describing the bioaccessibility and intestinal absorption of phenolic compounds from strawbe

106 The intestinal absorption of PHIP-M1 is comparable with that

107 earance, 3.3 ml/min per kg), the average net intestinal absorption of phosphate over all balance peri

108 earance, 4.0 ml/min per kg), the average net intestinal absorption of phosphate over all balance peri

109 h the hypothesis that ezetimibe inhibits the intestinal absorption of plant sterols as well as choles

110 After oral administration (15 mg/kg), intestinal absorption of rosuvastatin was not impaired i

111 nce is maintained primarily by regulation of intestinal absorption of the metal from the diet.

112 tiligand endocytic receptor critical for the intestinal absorption of vitamin B12 and renal protein r

113 ion of vitamin D(3) (cholecalciferol) or the intestinal absorption of vitamin D(2) (ergocalciferol).

114 gs revealed that this analogue also promoted intestinal absorption of water and electrolytes during c

115 There is now a general consensus that the intestinal absorption of water-insoluble, dietary lipids

116 n of knowledge has also covered the field of intestinal absorption of water-soluble vitamins and is t

117 derstanding the mechanisms and regulation of intestinal absorption of water-soluble vitamins from the

118 hat the hZIP4 transporter is responsible for intestinal absorption of zinc.

119 and ileum and was not secondary to impaired intestinal absorption or hepatic biosynthesis of DHA.

120 r and molecular mechanisms and regulation of intestinal absorption processes of vitamins.

121 This leads to the conclusion that the intestinal absorption rate of the two resveratrol oligom

122 fated, and molybdate, which inhibits sulfate intestinal absorption, renal reabsorption, and sulfate i

123 tamin C (ascorbate) are tightly regulated by intestinal absorption, tissue accumulation, and renal re

124 chemistry of copper, including food sources, intestinal absorption, transport, tissue distribution, a

125 lacyclovir is attributed to carrier-mediated intestinal absorption, via the hPEPT1 peptide transporte

126 ation, and choleretic activity were defined; intestinal absorption was assessed by jejunal or ileal p

127 Intestinal absorption was higher in the SRSB group for t

128 e accumulation was nearly abolished, whereas intestinal absorption was marginally affected.

129 te these borderlines in the clinical setting.Intestinal absorption was measured from April 2003 to Ma

130 sometimes to an even greater extent than did intestinal absorption, yielding no net reduction in phos