ライフサイエンスコーパス: circulating blood

1 t microparticles are a normal constituent of circulating blood.

2 , which may occur on cell surfaces or in the circulating blood.

3 nly a small fraction of the concentration in circulating blood.

4 izeable yet underdeveloped organism requires circulating blood.

5 ching highly proliferative organs via, e.g., circulating blood.

6 ive TF has been detected in vessel walls and circulating blood.

7 d the degradation products are detectable in circulating blood.

8 ion and platelet-neutrophil complexes in the circulating blood.

9 ll with platelets and coagulation factors in circulating blood.

10 urvival, as assayed by their contribution to circulating blood.

11 erves as a carrier for the plasma zymogen in circulating blood.

12 ogenic surface, in a microfluidic model with circulating blood.

13 tabolomic profiling on 1045 metabolites from circulating blood.

14 h the number of RANKL + cells present in the circulating blood.

15 circulation to release pro/preplatelets into circulating blood.

16 ed weight loss and lower bacterial burden in circulating blood.

17 lycosylated SMPDL3A protein is detectable in circulating blood.

18 the prompt release of new platelets into the circulating blood.

19 sent in the lamina propria of the gut and in circulating blood.

20 es are filled with aqueous humor rather than circulating blood.

21 arrow and the nonadhesive environment of the circulating blood.

22 ouse models using microarray (RNA) data from circulating blood, 2) blood microarray data can be used

23 led to hepatic fat accumulation derived from circulating blood, a phenotype likely indicative of its

24 cular health, measuring the force exerted by circulating blood against arterial walls during each hea

25 We measured prestin protein levels from circulating blood and collected noise level data multipl

26 f the absence of the heat sink effect of the circulating blood and covered a greater area (41+/-27 mm

27 ory and endothelial dysfunctional markers in circulating blood and directly in endothelial cells, whi

28 set of IL-35(+) B cells were elevated in the circulating blood and in the spleen, bone marrow, and lu

29 ches, representing T cell areas connected by circulating blood and lymph.

30 ) cells, positioned at the interface between circulating blood and lymphoid tissue, detect and respon

31 are located at the crucial interface between circulating blood and semi-solid tissues and have many i

32 tructural, and functional separation between circulating blood and the central nervous system (CNS).

33 rphology to allow substance exchange between circulating blood and the liver tissue.

34 cells (ECs), forming a boundary between the circulating blood and the vessel wall, are constantly su

35 e ability of these agents to carry oxygen in circulating blood and their promise to improve oxygen de

36 tial to increase oxygen-carrying capacity of circulating blood and thus improve tissue oxygen deliver

37 integrity of the endothelial barrier between circulating blood and tissue is important for blood vess

38 xygen, nutrients, and waste products between circulating blood and tissue.

39 dothelial cells are at the interface between circulating blood and tissues.

40 ectives were to determine the form of MSP in circulating blood and to study proteolytic activation of

41 lack of spontaneous platelet aggregation in circulating blood, and a mechanism to limit thrombus for

42 0 times (IQR: 2,600 to 4,130) higher than in circulating blood, and median total splenic parasite loa

43 e arising from nutrients and hormones in the circulating blood, as well as from contraction-induced s

44 of mature neutrophils within the BM and the circulating blood, as well as the role of microtubule re

45 to post-vaccination ASC in healthy controls, circulating blood ASC from patients with active SLE are

46 the repertoire of IgA H chain transcripts in circulating blood B cells during human ontogeny.

47 Recent analyses of circulating blood B cells in myeloma have generated cont

48 Reducing the volume of circulating blood before circulatory arrest in DCD may h

49 Studies are needed to investigate circulating blood biomarkers to elucidate disease pathog

50 However, the site of receptor stimulation-circulating blood-borne elements (ie, platelets) versus

51 responses of primary neurons to potentially circulating, blood-brain barrier (BBB) permeable metabol

52 e not only dependent on its concentration in circulating blood but also on its biological 'quality'.

53 ust be surgically reconfigured to act on the circulating blood, but little is known about the power l

54 bond contributes to platelet aggregation in circulating blood by permitting the formation of multipl

55 xoid matrix, which is in direct contact with circulating blood, can provide novel therapeutic avenues

56 in the valve were also found expanded in the circulating blood CD28(null)CD8(+) T cells and to a less

57 Circulating blood CD34(+) cells consist of hematopoietic

58 e the cloning of a GAP1(m) cDNA from a human circulating-blood cDNA library.

59 ival is associated with increased peripheral circulating blood cell counts and increased proliferativ

60 Circulating blood cell counts and indices are important

61 HSCs maintain the circulating blood cell population.

62 We aimed to describe the pivotal role that circulating blood cells (called hemocytes) play in immun

63 nnate immune mediators are either carried in circulating blood cells (ie, leukocytes and platelets) o

64 rAAV6 had a minimal effect on circulating blood cells and caused no apparent hepatotox

65 ) led to a potent reduction in the number of circulating blood cells and deficiency in hemoglobin pro

66 e is an intense interest in the potential of circulating blood cells and epithelium-related nonfibrob

67 otential prognostic/predictive biomarkers in circulating blood cells and in tumor-infiltrating lympho

68 airspaces are transcriptionally aligned with circulating blood cells and include a rare population de

69 expression of a single chemokine receptor on circulating blood cells and parenchymal cells is often u

70 Despite comparable levels of viral load in circulating blood cells and peripheral organs in the two

71 ein a sizeable proportion of an individual's circulating blood cells are derived from a single mutate

72 Circulating blood cells are exposed to soluble A beta1-4

73 Here we show that SNCA transcripts in circulating blood cells are paradoxically reduced in ear

74 ific knockout embryos had reduced numbers of circulating blood cells from E9.5 onwards, with the deve

75 ematopoietic organ, the lymph gland, and the circulating blood cells in the larva, the developmental

76 opoietic system, a substantial proportion of circulating blood cells may derive from a single mutated

77 e expression of membrane coagulant activity, circulating blood cells show decreased cell surface expo

78 Platelets are small circulating blood cells that play essential roles in the

79 They are initiated by abnormal adhesion of circulating blood cells to vascular endothelium of the m

80 microenvironment, blood soluble factors, and circulating blood cells were correlated with clinical re

81 Fluorescent circulating blood cells were detected in microinjected e

82 development, curved/twisted body axes and no circulating blood cells, and died by 72 hpf.

83 tion profile in placenta tissue, in maternal circulating blood cells, and in cord blood cells.

84 vel expression of both EKLF and PlGF mRNA in circulating blood cells, and markers of iron overload ar

85 trast to conventional analyses based only on circulating blood cells, enabling earlier detection of v

86 in that could have an aggressive course with circulating blood cells, especially in Sezary syndrome a

87 n appears to facilitate a transient stall of circulating blood cells, exacerbating the effect of peri

88 ndition with enzyme impairment restricted to circulating blood cells, GALE deficiency was later demon

89 The kinetics of infection, circulating blood cells, granulopoiesis, lesions, and ce

90 Among circulating blood cells, the luciferase activity was exc

91 7-fold higher levels of EBV copy numbers in circulating blood cells.

92 ion, and fetal liver hematopoietic cells and circulating blood cells.

93 ticles were also found to be associated with circulating blood cells.

94 h muscle cells, reactive oxygen species, and circulating blood cells.

95 erm (less than 6 weeks) recovery kinetics of circulating blood cells.

96 lack GPI-linked proteins on a proportion of circulating blood cells.

97 ls (hemocytes) resulted in higher numbers of circulating blood cells.

98 ity of the bone marrow to produce sufficient circulating blood cells.

99 renewing multipotent cells that develop into circulating blood cells.

100 ters reduce cholesterol absorption and lower circulating blood cholesterol concentrations when incorp

101 eposition in the lungs and altered levels of circulating blood coagulation proteins in COVID-19 patie

102 ells across all lung tissue compartments and circulating blood, combined with a multi-pronged cell an

103 stent changes in the levels and functions of circulating blood components can reflect the functions o

104 by phagocytes and minimizes interaction with circulating blood components.

105 terstitial lung disease, is predicted by the circulating blood concentrations of CXCL13.

106 We find evidence that C. robusta circulating blood contains a differentiation hierarchy,

107 Remarkably, circulating blood DC antigen1 (BDCA1)(+) DCs isolated fr

108 e Langerhans cells (LC) and some subtypes of circulating blood DC.

109 a local precursor rather than directly from circulating blood DCs or monocyte precursors.

110 expression of DC-SIGN in CD14+ monocytes and circulating blood DCs.

111 However, the osmolality of the circulating blood decreases with the use of loop diureti

112 Quantification of cell-free DNA (cfDNA) in circulating blood derived from a transplanted organ is a

113 Will a systemic approach integrating circulating blood-derived biomarkers, multimodality imag

114 testinal tumors, finding that fusion between circulating blood-derived cells and tumor epithelium occ

115 s II expression levels were mediated through circulating blood-derived factors.

116 pressed on endothelial cells (EC) as several circulating blood elements including platelets, polymorp

117 Despite the fact that circulating blood elements only received a fraction of t

118 nto the in vivo interplay between platelets, circulating blood elements, and endothelial cells may he

119 en though PAH patients had normal numbers of circulating blood elements, hematopoietic alterations in

120 lial cells and between endothelial cells and circulating blood elements.

121 the vascular wall, and its interaction with circulating blood elements.

122 ates the interaction of the vessel wall with circulating blood elements.

123 ailure, whereas its complex interaction with circulating blood factors and with the autonomic and som

124 Circulating blood factors are critical for homeostasis o

125 We found that administration of circulating blood factors in plasma from exercised aged

126 have been developed to isolate the LAA from circulating blood flow, as an alternative to OAC.

127 d mononuclear cells (PBMCs)isolated from the circulating blood from 4 hr after injection and over the

128 croglia, the BBB separates components of the circulating blood from neurons.

129 he blood-blood barrier, which partitions the circulating blood from the CNS, acts as a gatekeeper to

130 The blood brain barrier separates the circulating blood from the extracellular fluid in the ce

131 Circulating blood generates frictional forces (shear str

132 The underlying causes are stasis of the circulating blood, genetic and acquired coagulation diso

133 B binding domain in CRTC2 (-/-) mice lowered circulating blood glucose concentrations and improved in

134 of a small-molecule KAT2B antagonist lowered circulating blood glucose concentrations in insulin resi

135 Circulating blood glucose levels affect ChREBP activity

136 treatment alone elicited a rapid decline in circulating blood glucose levels, which appeared to indu

137 nt and acquired microcephaly who have normal circulating blood glucose, low-to-normal cerebrospinal f

138 However, the vast majority of circulating blood glycoproteins are modified by biantenn

139 Beyond confirmation of circulating blood/immune cell-related phenotypes, we rep

140 re likely than mutant cells to contribute to circulating blood in a wild-type host.

141 nearly all CD45(+) cells in bone marrow and circulating blood in adults were of Flk-1(+) origin.

142 significant increases of neutrophils in the circulating blood in both PKC-epsilon transgenic lines.

143 cell-derived EVs (E-EVs) are upregulated in circulating blood in different pathological conditions;

144 Cs) are present in very small numbers in the circulating blood in steady-state conditions.

145 s and rapidly clear viable cancer cells from circulating blood in the living mouse.

146 ripheral tissue, bronchoalveolar lavage' and circulating blood' in which significant progress has bee

147 The complement system present in circulating blood is an effective mechanism of host defe

148 eutrophils from the bone marrow reserve into circulating blood, is important to increase peripheral n

149 viral labeling strategy, we demonstrate that circulating blood island-derived cells contribute to the

150 Finally, a transient rise in circulating blood leptin levels was detected within the

151 septic humans and mice are replicated at the circulating blood leukocyte transcriptome has not been d

152 id concentrations and the absolute number of circulating blood leukocytes, lymphocytes, T cells, and

153 h different pattern recognition receptors in circulating blood leukocytes, triggering specific host t

154 al role in the transendothelial migration of circulating blood leukocytes.

155 differential responses in liver, spleen, and circulating blood leukocytes.

156 lation of lung neutrophils; lower numbers of circulating blood leukocytes; and an impaired febrile re

157 ence for and against the hypothesis that the circulating blood level of growth differentiation factor

158 ed results have shown an association between circulating blood levels of some insulin-like growth fac

159 important role in hippocampal functions than circulating blood levels.

160 rgans and cause a reduction in the number of circulating blood lymphocytes.

161 ognitive aging, we evaluated associations of circulating blood markers of angiogenesis with brain agi

162 increase in hemodynamic resistance caused by circulating blood may be a factor.

163 Lower viral clearance rates in circulating blood may explain the phenomenon of increase

164 over, systemic upregulation of VEGF-A165b in circulating blood may have wider-ranging implications be

165 bserved no notable phase-specific changes in circulating blood metabolites associated with any partic

166 of this study was to investigate changes in circulating blood metabolites in CPUO patients and to id

167 icly available cohorts and in agreement with circulating blood metabolites that are indicators of car

168 sed a previously published assessment of the circulating "blood microbiome" performed using 16S rRNA

169 equencing (based on bacterial 16S rRNA), the circulating blood microbiome was characterized before an

170 Circulating blood monocytes belong to the first line of

171 tion of IL-1beta and IL-18, and suggest that circulating blood monocytes constitutively express a P2X

172 Circulating blood monocytes from macFoxp1tg mice have re

173 The number of circulating blood monocytes impacts atherosclerotic lesi

174 Circulating blood monocytes supply peripheral tissues wi

175 is a family of cells including progenitors, circulating blood monocytes, resident tissue macrophages

176 ne marrow cavity involve iterative fusion of circulating blood monocytic cells with long-lived osteoc

177 iggers a complex systemic immune response in circulating blood mononuclear cells.

178 now report on the isolation and analysis of circulating blood myeloid DCs, resulting from natural di

179 During this process, molecular signals guide circulating blood neutrophils to target specific vessels

180 tural killer T cells in the lungs and in the circulating blood of 14 patients with asthma.

181 er of activated/differentiated fibrocytes in circulating blood of asthmatic patients experiencing an

182 ed in tumor stroma and handily measurable in circulating blood of cancer patients post-chemotherapy.

183 ith this, we observed 30% fewer monocytes in circulating blood of Ccr6(-/-)ApoE(-/-) mice, mainly bec

184 ighest in adipose tissue, mammary gland, and circulating blood of Cyp1a2(-/-) mothers, compared with

185 of pure leukemia cells and immune cells from circulating blood of patients with this disease.

186 e reduced to barely detectable levels in the circulating blood of vaccinated animals.

187 on within the body, to inflamed tissues from circulating blood or to secondary lymphoid organs, plays

188 eropositive man with Zostavax, we sorted his circulating blood plasma blasts and amplified expressed

189 Global, unbiased analyses of circulating blood plasma can provide knowledge of promin

190 We aimed to assess the association of circulating blood plasma microRNAs (miRNAs) at birth wit

191 Cell-free DNA (cfDNA) in the circulating blood plasma of patients with cancer contain

192 uencing cell-free DNA (cfDNA), isolated from circulating blood plasma, we generated maps of genome-wi

193 Circulating blood platelets are responsible for maintain

194 Circulating blood platelets are specialized cells that p

195 Native circulating blood platelets present with a discoid flat

196 Circulating blood platelets regulate the initial phase o

197 ough PN2/AbetaPP is enriched in brain and in circulating blood platelets, little is understood of its

198 expressed in brain and, outside the CNS, in circulating blood platelets.

199 d through contrast-enhanced MRI using a long circulating blood-pool liposomal gadolinium contrast age

200 etion, which increases the osmolality of the circulating blood, potentially improving translocation o

201 extending proplatelets into sinusoids, where circulating blood progressively fragments them into plat

202 Circulating blood proteins and enzymes are maintained wi

203 The circulating blood proteome holds immense potential for b

204 Major differences exist in the circulating blood proteome of the bottlenose dolphin com

205 he endothelium, which is directly exposed to circulating blood stressors, has been examined for eNOS

206 Surprisingly, a proportion of circulating blood T cells, B cells, and natural killer c

207 in the vessel wall, there is a pool of TF in circulating blood that contributes to the propagation of

208 Because tissue miRNAs can be released into circulating blood, they also offer exciting new opportun

209 l for increasing oxygen-carrying capacity of circulating blood, they are excellent candidates for abu

210 vely monitored the response to injury in the circulating blood, urine, bone marrow, and kidney.

211 the BM were stiffer than neutrophils in the circulating blood, using magnetic twisting cytometry.

212 ypovolemic rabbits were bled of 10% of their circulating blood volume (85 mL/kg) every 10 mins until

213 he microvasculature rather than reduction in circulating blood volume and oxygen delivery.

214 rnerstone of decongestive treatment, reduces circulating blood volume and thereby reduces intravascul

215 show that DiFC allows sampling of the entire circulating blood volume of a mouse in under 10 minutes,

216 Ten percent of circulating blood volume was removed in half of experime

217 cardiac output and heart performance and the circulating blood volume were assessed using the indocya

218 Cardiac output, heart performance, and circulating blood volume were significantly decreased in

219 Hemoglobin, systemic oxygen delivery, circulating blood volume, and plasma levels of interleuk

220 blood loss and reversing shock by restoring circulating blood volume, to prevent or reduce the risk

221 tput and heart performance and increased the circulating blood volume.

222 of carbon monoxide was used to estimate the circulating blood volume.

223 of reductions in central venous pressure and circulating blood volume.

224 depleted of one third and one half of their circulating blood volumes, respectively, and were resusc

225 ously-infused CFSE-labeled erythrocytes from circulating blood was faster in msk(-/-) mice.

226 amage was not observed during WI when 10% of circulating blood was removed before cardiac arrest.

227 Collagen exposure to circulating blood was undetectable after laser injury.

228 s, and usually involves processing the whole circulating blood, we tested whether LA could substantia

229 f intracellular concentration and ex vivo in circulating blood were demonstrated.

230 gen was not elevated in either the eschar or circulating blood when compared to the control burn.

231 veloped HEV particles have been described in circulating blood, whereas nonenveloped HEV virions have

232 adioactivity out of the peritoneal cavity to circulating blood, which cleared via urinary excretion,

233 efflux of NK and memory CD8 T cells from the circulating blood within minutes of IL-15 administration

234 miRNAs are abundant in circulating blood, yet it is not known whether, as a cla