ライフサイエンスコーパス: digestive system

1 the morphogenesis of multiple organs in the digestive system.

2 capable of releasing high isoflavone in the digestive system.

3 contributing to the form and function of the digestive system.

4 rve cords, photoreceptors, and the posterior digestive system.

5 lular plasticity within adult tissues of the digestive system.

6 uman tumor types, especially in those of the digestive system.

7 and spleen as well as several tissues of the digestive system.

8 eep time may also belong to cells within the digestive system.

9 B(6) in cereal-based baby foods an in vitro digestive system.

10 CCK)-A and CCK-B, mediate CCK effects in the digestive system.

11 ling exquisite details of the appendages and digestive system.

12 ds that germinate after passing the animal's digestive system.

13 ach, rectum, pancreas, and bile ducts of the digestive system.

14 MADs in disease progression to cancer in the digestive system.

15 sizes (75 and 105 mum) in a simulated human digestive system.

16 ciated with several conditions affecting the digestive system.

17 ric disorders, and diseases of the liver and digestive system.

18 ich has impact on their release in the human digestive system.

19 gatively related to body size, regardless of digestive system.

20 carcinoma (SRCC) is a malignant tumor of the digestive system.

21 -invasive means of drug delivery through the digestive system.

22 techin added in all the matrices in in vitro digestive system.

23 ate normal functions and pathobiology in the digestive system.

24 strains could be discerned within the murine digestive system.

25 a life-threatening disorder of the lungs and digestive system.

26 us, such as the smooth-muscle actions of the digestive system.

27 fiber that is not digested in the mammalian digestive system.

28 ses in its capacity as the first part of the digestive system.

29 eptide digestion and absorption in the human digestive system.

30 oesophagus and other narrow orifices in the digestive system.

31 oted Treg accumulation within lesions of the digestive system.

32 metabolic disorders and disturbances of the digestive system.

33 ammation, and carcinogenesis of cells of the digestive system.

34 ly transported and metabolized by the larval digestive system.

35 erves as a common opening to the urinary and digestive systems.

36 nervate the respiratory, cardiovascular, and digestive systems.

37 e expressed in the vertebrate vestibular and digestive systems.

38 eurons associated with sensory, muscular and digestive systems.

39 of which 12 kg would be absorbed into mussel digestive systems.

40 in the development of mammalian nervous and digestive systems.

41 skin (31%), prostate (15%), melanoma (13%), digestive system (10%), kidney (4%), thyroid (4%), breas

42 de (3.05, 1.41 to 6.60), and diseases of the digestive system (2.40, 1.01 to 5.68).

43 trials; 737 participants), disorders of the digestive system (31 trials; 321 participants), inflamma

44 se (3.74, 1.40 to 9.99), and diseases of the digestive system (4.83, 1.77 to 13.21).

45 tem (39.1%); trauma (10.2%); diseases of the digestive system (9.7%); pulmonary diseases (9.0%); infe

46 Cancers originating from the digestive system account for 290,000 or ~20% of all new

47 digestive tract, resulting in loss of proper digestive system acidification.

48 cular similarities in the development of the digestive system across species, we hypothesized that th

49 s such as behavioral and neurological AE and digestive system AE.

50 highly efficient and phenotypically plastic digestive system, allowing them to utilize diverse troph

51 addition to its well established role in the digestive system, also play a role in peripheral vitamin

52 the nervous system, liver, skin, lungs, and digestive system, among others.

53 les were detected in epithelial cells of the digestive system and in fecal pellets.

54 iew of its relative abundance throughout the digestive system and its apparent regulation by calcium-

55 E1 genes from Caniformia, which has a simple digestive system and lacks microbial digestion typical o

56 MCO1 is located on the basal surfaces of the digestive system and Malpighian tubules.

57 esults broaden the current knowledge of tick digestive system and may lead to the discovery of potent

58 n between developmental specification of the digestive system and one of its most basic functions, re

59 on factor SKN-1 initiates development of the digestive system and other mesendodermal tissues.

60 ex (DVC) receive direct information from the digestive system and project to second-order regions in

61 re likely to have died from disorders of the digestive system and suicide.

62 ges play roles in the nervous, skeletal, and digestive systems and may have contributed to primate in

63 Herbivores possess diverse microbes in their digestive systems and these microbial symbionts can modi

64 eria, protists, invertebrates, the mammalian digestive system, and other fungi can pose challenges to

65 Additionally, certain tissues (mesoderm, digestive system, and tracheal system) required more tha

66 tGFP line, that expresses GFP throughout the digestive system, and use this tool to analyze the devel

67 nary system anomalies, 83.2% (79.8-86.0) for digestive system anomalies, 97.6% (95.9-98.6) for orofac

68 absorption of mineral complexes by the human digestive system are complex and still under investigati

69 Complex glycans that evade our digestive system are major nutrients that feed the human

70 ncer, associations with other cancers of the digestive system are poorly established.

71 rvival within the hostile environment of the digestive system are the adhesins SabA and BabA; these m

72 Proper function and repair of the digestive system are vital to most animals.

73 lements of the circulatory, respiratory, and digestive systems are preserved, and they are essentiall

74 y be because immunological, neurological and digestive systems are still developing.

75 cs demonstrates the utility of the planarian digestive system as a model for elucidating the mechanis

76 tworms, which have only one opening to their digestive system, as the sister group to all remaining B

77 ight be low because of the immaturity of the digestive system at that age.

78 ematopoietic cancers and malignancies of the digestive system, brain, breast, and ovary.

79 ion within Teredinidae, the reduction of its digestive system by comparison with other family members

80 ing at any time had a higher risk of overall digestive system cancer (HR: 1.22; 95% CI: 1.10, 1.35),

81 th a significantly increased risk of overall digestive system cancer (HR: 1.27; 95% CI: 1.10, 1.46),

82 During follow-up, 2064 digestive system cancer cases were documented among 70,4

83 eating anything at any time, In total, 2081 digestive system cancer cases were documented among 72,4

84 physical activity were associated with lower digestive system cancer risk (hazard ratio [HR], 0.74 fo

85 ons between unrestrained eating behavior and digestive system cancer risk.

86 ted the role of physical activity in overall digestive system cancer risk.

87 stones and cholecystectomy may be related to digestive system cancer through inflammation, altered bi

88 5% CI 1.02-1.06; p < 0.001) but not with non-digestive system cancers (OR 1.01, 95% CI 0.99-1.02; p =

89 predicted BMI was positively associated with digestive system cancers (OR 1.04, 95% CI 1.02-1.06; p <

90 consistent causal role in increasing risk of digestive system cancers and a role for sex-specific can

91 mately 2-3 cups/d) had a 21% reduced risk of digestive system cancers combined (HR: 0.79; 95% CI: 0.6

92 tea) was associated with reduced risk of all digestive system cancers combined (HR: 0.86; 95% CI: 0.7

93 of tea consumption with the incidence of all digestive system cancers in Chinese women.

94 After a mean follow-up of 11 y, 1255 digestive system cancers occurred (stomach, esophagus, c

95 en questioned as a plausible risk factor for digestive system cancers, but epidemiological evidence r

96 k, was inversely associated with the risk of digestive system cancers, particularly digestive tract c

97 exercise was particularly beneficial against digestive system cancers, with the optimal benefit obser

98 ern with figure change, or both) and risk of digestive system cancers.

99 s are not associated with diagnosis of other digestive system cancers.

100 24 person-years, we documented 1370 incident digestive system cancers.

101 at common carcinogenic pathways may underlie digestive system cancers.

102 ntake (>/=3 times/wk for >6 mo) with risk of digestive system cancers.

103 interval [CI] 1.00-1.02; p = 0.043); several digestive system cancers: stomach (OR 1.13, 95% CI 1.06-

104 a protective role for tea in the etiology of digestive system cancers; however, results from prospect

105 Urinary tract infection and digestive system complications were also common readmiss

106 ome compositional variations reveal that the digestive system consists of multiple, longitudinally he

107 The mucosal lining of the respiratory and digestive systems contains the largest and most complex

108 possibly contribute to the evolution of the digestive system, cranial appendages, immune system, met

109 Despite descriptions of the ctenophore digestive system dating to Agassiz [16] that identify tw

110 ssible explanations for the craniofacial and digestive system defects observed in humans with mutatio

111 Digestive system development is orchestrated by combinat

112 Together, these data define aspects of digestive system development necessary for the character

113 modifications, we used a dynamic artificial digestive system (DIDGI(R)) that mimics the physicochemi

114 previous study, we used a dynamic artificial digestive system (DIDGI(R)) to investigate protein oxida

115 hol problems were associated with death from digestive-system disease, drug misuse with mental and be

116 rs (OR: 1.62; 95% CI: 1.18, 2.21) and non-CD digestive system diseases (OR: 1.58; 95% CI: 1.42, 1.77)

117 scribed in associations with psychiatric and digestive system disorders.

118 ses, including respiratory, circulatory, and digestive system disorders; nervous system, endocrine, a

119 e radial nerve cords, circumoral nerve ring, digestive system (e.g., cardiac stomach) and body wall-a

120 Incident cancer of the digestive system encompassing the digestive tract (mouth

121 ssage of Pb in contaminated soil through the digestive system, enhancing its elimination without abso

122 During organogenesis of the C. elegans digestive system, epithelial cells within a cyst-like pr

123 f which showed predominant expression in the digestive system (FABP1, FABP2, FABP6, FABP10, RBP1, and

124 otential to harvest energy directly from the digestive system for powering a future wireless endoscop

125 cting the dynamic processes of the mammalian digestive system for this hydrophobic organic contaminan

126 vely little is known about how the zebrafish digestive system forms.

127 that neurotrophins play a broad role in the digestive system from development through adult life, pe

128 have brilliant GFP fluorescence: the entire digestive system from tongue to anus; the male and femal

129 ing cancers into digestive system versus non-digestive system, genetically predicted BMI was positive

130 the prostate, lung (nonsmall cell), breast, digestive system, gynecological, urinary system, or head

131 neurological system, musculoskeletal system, digestive system, hematologic, infectious, mouth and den

132 ound within the enteroendocrine cells of the digestive system; however, less is known about nutrient

133 logous gene family (a major component of the digestive system in D. pulex ) could explain why fitness

134 r, we quantified the effect of body size and digestive system in determining movements of 30 populati

135 rved gene involved in the development of the digestive system in many animals, has an important role

136 participate in the building of a functional digestive system in metazoans, and genetic conditions in

137 in addition to GERD, as a comorbidity of the digestive system in patients with asthma.

138 de-offs between the cost and capacity of the digestive system in response to resource pulses: rare, e

139 doderm generate a highly ordered, multiorgan digestive system in vertebrate animals.

140 an-specific functions of SPs and KLFs in the digestive system including the oral cavity, esophagus, s

141 xpression in tissues other than those of the digestive system, including muscle and the central nervo

142 Bacteria play many important roles in animal digestive systems, including the provision of enzymes cr

143 .76; 95% CI = 1.53-2.03; P = 2.3 x 10(-15)), digestive system infections (HR 1.51; 95% CI = 1.32-1.73

144 Some data suggest digestive system involvement.

145 s account for the finding that the zebrafish digestive system is assembled from individual organ anla

146 The digestive system is essential for nutrient absorption, p

147 stive tract, develops before the rest of the digestive system is formed and blood feeding is initiate

148 bout how cells in the brain and possibly the digestive system keep time.

149 Colon adenocarcinoma (COAD), a common digestive system malignancy, involves crucial alteration

150 urce of nutrients for embryogenesis prior to digestive system maturation.

151 gical processes and their degradation in the digestive system may negatively impact them, leading to

152 Rs ranging from 0.84 [95% CI, 0.68-1.04] for digestive system MCMs to 1.20 [95% CI, 0.75-1.91] for ab

153 Despite the essential functions of the digestive system, much remains to be learned about the c

154 Here we investigated stem-cell death in the digestive system of adult Drosophila melanogaster.

155 ntioxidant activity was observed only in the digestive system of colonized micro-PS-exposed individua

156 Although the development of the digestive system of humans and vertebrate model organism

157 ails in the laboratory, probably because the digestive system of infected snails is compromised by C.

158 f ~65 kDa, present in the body periphery and digestive system of infective larvae (L3), as demonstrat

159 e in vivo levels of serotonin release in the digestive system of intact zebrafish embryos during earl

160 ns was dissolved from ingested Cu NPs in the digestive system of isopods.

161 udy we report that analysis of ESTs from the digestive system of Limnoria quadripunctata reveals a tr

162 rhythms play a major role in regulating the digestive systems of many organisms.

163 e assessment of load:capacity ratios for the digestive systems of predators in the wild, compiling 63

164 e in hospital admissions for diseases of the digestive system on the same day in 2-pollutant models (

165 assiz [16] that identify two openings of the digestive system opposite of the mouth-called "excretory

166 es from diverse phyla have evolved a reduced digestive system or lost it completely.

167 SNPs were associated with cardiovascular and digestive system phenotypes and disorders.

168 r lymphohematopoietic cancers, melanoma, and digestive system, prostate, kidney, and brain cancers.

169 esophagus, like other luminal organs of the digestive system, provides a potential environment for b

170 l and inflammation-related traits; Factor 5, digestive system-related diseases.

171 The mechanisms by which the female digestive system responds to mating remain poorly charac

172 unomodulation, and improving skin health and digestive system's function.

173 Vertebrate and invertebrate digestive systems show extensive similarities in their d

174 ented soymilk storage and after the in vitro digestive system simulation (DSS).

175 s increased significantly after the in vitro digestive system simulation of the product.

176 piratory (SMR, 0.13; 95% CI, 0.00-0.70), and digestive system (SMR, 0.13; 95% CI, 0.00-0.74) disorder

177 ertheless, metabolic allometry and different digestive systems suggest that resource selection should

178 tween milk cells and the infant's immune and digestive systems than previously recognized and highlig

179 ovel microbial communities within the oyster digestive system, the functions of the oyster microbiome

180 ffect of microbial colonization in the mouse digestive system, through analysis of the chemodiversity

181 ssified as a sactipeptide, requires the host digestive system to become active against pathogenic Clo

182 ur results demonstrated that exposure of the digestive system to H5N1 influenza viruses could initiat

183 getic trade-offs by rapidly modulating their digestive system to track variation in foraging opportun

184 plying a simulated in vitro gastrointestinal digestive system, together with the evaluation of its nu

185 or neoplastic disease trials, 61.3% (19) for digestive system trials, 58.1% (18) for inflammatory dis

186 or neoplastic disease trials, 58.8% (10) for digestive system trials, 88.2% (15) for inflammatory dis

187 eys, skin, eyes, central nervous system, and digestive system, triggering damage, leading to the fail

188 accumulate in the later compartments of the digestive system, triggers a functional switch between U

189 n radial nerve cords, circumoral nerve ring, digestive system, tube feet and innervation of interossi

190 roteins are expressed in the nervous system, digestive system, tube feet, and body wall.

191 ay(-1)) and the majority travels through the digestive system unabsorbed and enters the wastewater sy

192 es of the respiratory (including asthma) and digestive systems (VA), and diverse symptom diagnoses (V

193 When dividing cancers into digestive system versus non-digestive system, geneticall

194 Fourteen adult men without symptoms from the digestive system were recruited.

195 erlying UFP-mediated lipid metabolism in the digestive system with clinical relevance to gut homeosta

196 bution pattern by accumulating mainly in the digestive system with higher levels and faster egestion

197 assic examples of circadian variation in the digestive system, with an emphasis on rhythms in cell pr

198 y incorporate contingencies in body size and digestive system, with small-bodied ruminants selecting

199 Many defenses target the insect digestive system, with some altering the protective peri

200 internal organs of early arthropods only the digestive system withstands fossilization is challenged

201 ood uptake after injury, degeneration of the digestive system would often occur indicating limited en