ライフサイエンスコーパス: oxygen content

1 of ex situ methods for determining the true oxygen content.

2 type I photosensitizer, irrespective of the oxygen content.

3 d blood samples were collected for assessing oxygen content.

4 by chemical means or by altering the inhaled oxygen content.

5 enal veins to determine total hemoglobin and oxygen content.

6 yurea and exposure to atmospheres of varying oxygen content.

7 e-up satellite correlates with the phosphate oxygen content.

8 blood pressure, PO2, oxygen saturation, and oxygen content.

9 re, and it significantly increases dissolved oxygen content.

10 crystal structure is closely related to the oxygen content.

11 +/- 1.0 in the cortex, indicating increased oxygen content.

12 reatment increased surface roughness but not oxygen content.

13 ial oxidized arsenene is proportional to the oxygen content.

14 ine value, headspace volatiles and headspace oxygen content.

15 xtent of the reaction dependent on the water/oxygen content.

16 action of GO is insensitive to the dissolved oxygen content.

17 is controlled by the dislocation density and oxygen content.

18 orinated benzenes to chlorinated phenols and oxygen content.

19 accharides to give hydrocarbons with reduced oxygen content.

20 hat allows measurement of very low values of oxygen content.

21 ps with an overall decrease in total surface oxygen content.

22 values of the double bond equivalent and low oxygen content.

23 T(1)rho was not directly sensitive to blood oxygen content.

24 tion of carbon from silicate melt at reduced oxygen contents.

25 converted to arterial (O2A) and venous (O2V) oxygen contents.

26 ve of their high carbon and low hydrogen and oxygen contents.

27 od quality (>90%, monolayer), and reasonable oxygen content (17.7 at.

28 nd femoral arterial - venous differences for oxygen content (a-v O(2) diff).

29 spot optodes (<0.1-0.6%), variations of the oxygen content along the profile can be resolved.

30 ssure at high altitude causes lower arterial oxygen content among Tibetan highlanders, who maintain n

31 es in CBF compensated for decreased arterial oxygen content and CDO2 was maintained to a mean hematoc

32 in SOA yield correlates with an increase in oxygen content and decrease in carbon content, consisten

33 66 distinct homologous series that differ in oxygen content and double bond equivalence.

34 ich requires concomitant measurement of both oxygen content and flow.

35 erials differ in level of oxidation, surface oxygen content and functionality.

36 CBF helped compensate for decreased arterial oxygen content and maintain CDO2.

37 scular demands required to maintain arterial oxygen content and oxygen consumption in hypoxemic patie

38 Arterial oxygen content and oxygen delivery tended to be greater

39 the portal vein (PV) despite having a lower oxygen content and perfusion pressure than the hepatic a

40 e results establish the relationship between oxygen content and structural and functional properties

41 ze the relationship between changes in blood oxygen content and the neural spiking and synaptic activ

42 en delivery = cerebral blood flow x arterial oxygen content), and electroencephalographic activity we

43 to when they were alone, regardless of water oxygen content, and displayed temporally clustered air-b

44 pounds with lower aromaticity, lower organic oxygen content, and more abundant microbially produced c

45 antly determined by cardiac output, arterial oxygen content, and oxygen consumption by the upper body

46 meters such as tip to cell distance, solvent oxygen content, and scan direction on the profile of the

47 resistance, total Hb, total solids, arterial oxygen content, and systemic oxygen delivery below basel

48 t-LPS, despite unaltered global ileal tissue oxygen content, blood volume, and blood flow.

49 sed the sensitivity due to increased surface oxygen content but did not affect surface roughness whil

50 Changing arterial oxygen content (C(aO(2))) has a highly sensitive influen

51 potential combination parameters of arterial oxygen content (CaO(2)) and systemic blood flow: total o

52 performed 119 measurements of PaO2, arterial oxygen content (CaO2), jugular bulb venous oxygen tensio

53 CA, likely compensating for reduced arterial oxygen content (CaO2).

54 hemoglobin concentration, oxygen saturation, oxygen content, cardiac output, and oxygen consumption w

55 Estimates of regional myocardial oxygen content could be made from the perfusion images;

56 ar bulb venous oxygen tension (PVO2), venous oxygen content (CVO2), arteriovenous oxygen content diff

57 completely resistant to TRAIL regardless of oxygen content, demonstrating a pivotal role of Bax in T

58 venous oxygen content (CVO2), arteriovenous oxygen content difference (AVDO2), and local cerebral me

59 ference (P(v - a)Co2) over the arteriovenous oxygen content difference (C(a - v)o2).

60 ts of F and O2A, and F and the arteriovenous oxygen content difference (O2A-V), respectively.

61 obtained for measurements of arterio-jugular oxygen content difference and plasma nitrite and nitrate

62 ar stroke work index (SWI) and arteriovenous oxygen content difference demonstrated no significant ch

63 6% (P < .02), and consequently arteriovenous oxygen content difference fell significantly (P = .01).

64 Hemoglobin concentration and arterial-venous oxygen content difference have large effects that can co

65 ilution cardiac output by the arterialvenous oxygen content difference in anesthetized, spontaneously

66 blood flow was increased and arterio-jugular oxygen content difference was reduced at 18 to 30, 30 to

67 Cerebral blood flow and arterio-jugular oxygen content difference were not associated with cereb

68 hemoglobin concentration and arterial-venous oxygen content difference) should enhance appropriate cl

69 ns, and cerebral blood flow, arterio-jugular oxygen content difference, injury severity, and outcome

70 mixture, based on an assumed arterial-venous oxygen content difference, is even more unreliable.

71 od flow and the radial artery-jugular venous oxygen content difference, was reduced by approximately

72 tion: VO2 = cardiac output x arterial-venous oxygen content difference.

73 ith oxygen uptake to calculate arteriovenous oxygen content difference.

74 exercise-induced increases in arteriovenous oxygen content difference.

75 en uptake, cardiac output, and arteriovenous oxygen content difference.

76 nd the radial artery-internal jugular venous oxygen content difference.

77 sessment of cardiac output and arteriovenous oxygen content difference.

78 ferent between groups (arterial-mixed venous oxygen content difference: 13.0+/-2.1 mL/dL versus 13.4+

79 venous saturation (SjvO2 ) and arteriovenous oxygen content differences (AVDO2 ) were monitored in 25

80 anchnic, renal blood flows and arteriovenous oxygen content differences were monitored.

81 Measuring the oxygen content during winemaking and bottle storage has

82 produces high-quality graphene sheets of low oxygen content, enabling a broad spectrum of application

83 d to investigate the relations among retinal oxygen content, extraction and metabolism under patholog

84 at RBF compensated for decreases in arterial oxygen content for all stages of hypoxia used in the pre

85 Importantly, by increasing the oxygen content from 1O/18As to 18O/18As, the oxidation c

86 ed from 39.9 +/- 5.2 % to 16.3 +/- 3.4 % and oxygen content from 8.6 +/- 1.3 to 2.3 +/- 0.2 ml dl-1.

87 yst that enabled the complete removal of the oxygen content from lignin.

88 of in situ fiber-optic sensor monitoring of oxygen content from the intact, beating mouse heart.

89 l solids, colloid oncotic pressure, arterial oxygen content, Hb, lactate, pH, and blood gases were an

90 luenced by certain fuel parameters including oxygen content, hydrogen content, and aromatics content.

91 sts especially important because of the high oxygen content in biomass-derived feedstocks.

92 ions, which was strongly associated with the oxygen content in fuels and the specific type of fuels u

93 he systemic hemoglobin and systemic arterial oxygen content in hemorrhaged animals at 1.5 hrs postres

94 Controlling oxygen content in perovskite oxides with ABO3 structure

95 Our data indicate that the low oxygen content in the bone marrow might limit pDC develo

96 Importantly, variation of the oxygen content in the films significantly affects the di

97 of its kind demonstrating that donor age and oxygen content in the microenvironment significantly alt

98 This work also revealed the influence of oxygen content in the overlying water column and water d

99 from Raman spectroscopy suggest that higher oxygen content in the seed layer suppresses the formatio

100 rrently used methods for estimation of total oxygen contents in coals.

101 cal method for direct determination of total oxygen contents in eight coal samples of the Argonne Pre

102 ing treatments are used to produce different oxygen contents in the films, which has resulted in sign

103 , muscle blood flow, or PMo2 despite lack of oxygen content increase.

104 In parallel, the oxygen content increased by approximately 6%, 7%, 11%, a

105 , plasma and red blood cell Hb) nor arterial oxygen content increased despite increases in plasma Hb

106 With time, oxygen content increased in the hydrocarbon residues.

107 As O-MWCNT oxygen content increased, NOM sorption decreased in simp

108 quality parameters increased as the O-MWCNT oxygen content increased.

109 resistance and a decrease in coronary venous oxygen content indicate primary coronary vasodilation by

110 Since anemia reduces arterial oxygen content, it further threatens oxygen delivery inc

111 Total and plasma hemoglobin, oxygen content, lactate, pH, standard base excess, and a

112 nations of temporal biomarkers, such as WBC, oxygen content, mean arterial pressure, and heart rate,

113 h1 through NF-kappaB activity, while the low oxygen content normally found in skin increased mRNA and

114 n oxygen consumption, local changes in brain oxygen content occur at the sites of activation and prov

115 globin concentration increased such that the oxygen content of arterial blood was maintained at or ab

116 ion to the ventilated lung or increasing the oxygen content of blood returning from the collapsed lun

117 The oxygen content of Earth's atmosphere has varied greatly

118 nsistency of this method for calculating the oxygen content of graphenes, and use the relationship be

119 properties (saturation and aromaticity) and oxygen content of individual DOM molecules play an impor

120 n between the carbon isotope composition and oxygen content of modern ground waters in contact with l

121 hanced at higher humidity, as is the surface oxygen content of the aerosols.

122 A rise in the oxygen content of the atmosphere and oceans is one of th

123 n triggered by a contemporaneous rise in the oxygen content of the atmosphere and oceans.

124 the two tumor types and as a function of the oxygen content of the breathing gas.

125 wth pressure was interpreted as changing the oxygen content of the films.

126 however in significant yields only when the oxygen content of the solution is reduced.

127 The increased oxygen content of the SWCNTs after UV irradiation, as de

128 forts to understand the effect of changes in oxygen content on the properties of perovskite thin film

129 o test the effects of enhanced intracellular oxygen contents on the metastatic potential of colon can

130 n did not singularly control the atmospheric oxygen content over short time intervals in the Cenozoic

131 had no detrimental effect on cardiac output, oxygen content, oxygen consumption, and systemic vascula

132 scular parameters, arterial and mixed venous oxygen content, oxyhemoglobin saturation, and arterial b

133 ionic liquids enables a delicate control of oxygen content, paving the way to novel electrochemical

134 e scale to enhance sheet properties with the oxygen content preserved.

135 onse to fluid resuscitation, increased blood oxygen content, prevented metabolic acidosis, and improv

136 Dissolved oxygen content, rather than temperature, exercised a pri

137 of 40 cm in length reveal variations of the oxygen content reaching from 90% to 0% air saturation an

138 The hemoglobin concentration and oxygen content returned to baseline values 30 mins after

139 ending on the nature of the solute and local oxygen content, segregation to misfit dislocations can c

140 ses under conditions associated with lowered oxygen content such as anemia and hypoxia.

141 ent, but were no longer sensitive to surface oxygen content, suggesting that Ca(2+) impacts the inter

142 onfirms that the recovered sample has higher oxygen content than pure MgO.

143 s ago) saw episodic increases in atmospheric oxygen content, the evolution of multicellular life and,

144 The first step in oxygen content, the Great Oxidation Event, was likely a

145 t show a statistically significant change in oxygen content through the Ediacaran and Cambrian period

146 necessitated an increase in the atmospheric oxygen content to compensate for the reduced delivery of

147 ition from an early atmosphere with very low oxygen content to one with an oxygen content within a fe

148 rain is a powerful tool for manipulating the oxygen content under conditions consistent with the oxyg

149 odilution technique, and arterial and venous oxygen content values, determined with the galvanic fuel

150 calculated from measured arterial and venous oxygen content values.

151 otoxicosis, blood shunting, or reduced blood oxygen content/viscosity (Fig. 1).

152 At 8400 m, the mean arterial oxygen content was 26% lower than it was at 7100 m (145.

153 The oxygen content was found to continuously decrease in the

154 most one billion years ago, when the oceanic oxygen content was low, and extant Breviatea have evolve

155 SD and biodiesel-diesel blends with the same oxygen content was obtained from the combination of biod

156 d that primarily breakdown products with low oxygen content were formed under electrochemical conditi

157 Both hemoglobin concentration and oxygen content were gradually increased during hypercapn

158 heart rate, and cerebral arterial and venous oxygen content were measured at baseline, after administ

159 For comparison, the oxygen contents were determined by a direct oxygen analy

160 5), associated with increased coronary sinus oxygen content, were observed for-ACh (+66 +/- 20%), BK

161 with very low oxygen content to one with an oxygen content within a few per cent of the present atmo

162 ace was observed, with approximately 60 at.% oxygen content within the oxide.

163 oncomitantly with the FM transition near the oxygen content x = 2.75.