ライフサイエンスコーパス: radiant

1 ooling systems are available: convection and radiant.

2 ne tumors (NET) compared with placebo in the RADIANT-3 study.

3 a on the impact of biomarkers on OS from the RADIANT-3 study.

4 ed in the everolimus and placebo arms of the RADIANT-3 study.

5 al among patients with pNET in the phase III RADIANT-3 study.

6 In view of the previous RADIANT-4 findings of longer progression-free survival w

7 RADIANT-4 is a multicentre, randomised, double-blind, pl

8 d, double-blind, placebo-controlled, phase 3 RADIANT-4 trial, adult patients (aged >/=18 years) with

9 In the phase 3 RADIANT-4 trial, everolimus increased progression-free s

10 Enrolment for RADIANT-4 was completed on Aug 23, 2013, but the trial i

11 001 In Advanced Neuroendocrine Tumors study (RADIANT-4).

12 s to kidNey Transplantation Community Study (RaDIANT), a randomized, dialysis facility-based, control

13 higher than emissions from electric coil and radiant alternatives; neither induction stoves nor the f

14 oduce Raman dye imaging and tissue clearing (RADIANT), an optical method that is capable of imaging m

15 Recent solutions include the use of coupled radiant and sub-radiant modes yielding narrow asymmetric

16 nanorods, including the cases of both super-radiant and subradiant excitations, where the characteri

17 diffuser diverged white-light spot covers a radiant angle up to 120(o) with CIE coordinates of (0.34

18 contradicts other studies reporting that the radiant blue in Hypolimnas butterflies is caused by comp

19 Unique identifier: NCT02838680 (RADIANT-Canada); NCT02799823 (RADIANT-US).

20 low-density polyethylene membrane to provide radiant cooling at temperatures below the dew point.

21 tive quality of sleep between convection and radiant cooling in 7 healthy women.

22 d views: 1) The low temperature required for radiant cooling in humid environments will form condensa

23 Compared with convection cooling, radiant cooling provided lower relative humidity and air

24 ical simulations and the data collected in a radiant cooling setup together demonstrate the influence

25 Radiant cooling system cools the room through radiation

26 We present results of a radiant cooling system that made the hot and humid tropi

27 We discovered this error in an experimental radiant cooling system with high separation of air to ra

28 as higher and sleep latency was shorter with radiant cooling.

29 subjective quality of sleep, was higher with radiant cooling.

30 djacent air via convection, limiting overall radiant-cooling effectiveness.

31 We constructed a demonstrative outdoor radiant-cooling pavilion in Singapore that used an infra

32 he lack of widespread commercial adoption of radiant-cooling technologies is due to two widely held v

33 commonly used metric for accounting for the radiant effects of an environment at a point in space.

34 xcised tumors views and confirmed by optical radiant efficiency measurement, Hey-A8 or OVCAR3 tumors

35 d NIR optical imaging (3.86-fold increase in radiant efficiency), magnetic resonance imaging (1.41-fo

36 One important criterion is that the radiant energy added by human activities should not exce

37 tonic organisms revealed that the balance of radiant energy and available nutrients regulated herbivo

38 Even if GHG emissions peak in 2015, the radiant energy barrier will be exceeded by 100%, requiri

39 SignificanceThe radiant energy budget is a fundamental metric for planet

40 Mars' radiant energy budget is assumed to be balanced at all t

41 Furthermore, we estimate the radiant energy budget of Mars, which suggests that there

42 We propose that radiant energy causes local heating at the end of the an

43 The global radiant energy deficit at the top of the atmosphere, ind

44 mers decorated with AIE motifs can transduce radiant energy into motion and enhance thermophoretic mo

45 he understanding of the pathophysiology of a radiant energy or chemical injury as well as advancement

46 ervations provided by the Clouds and Earth's Radiant Energy System (CERES) Synoptic (SYN) product.

47 ce data from the NASA Clouds and the Earth's Radiant Energy System (CERES) with a PV performance mode

48 f radiative flux from the clouds and earth's radiant energy system instrument aboard Terra satellite,

49 observations from the Clouds and the Earth's Radiant Energy System show a northern hemisphere (NH) mi

50 ed a uniform disk of continuous wave thermal radiant energy to the exposed corneal stromal surface wi

51 e masking effect of cooling aerosols be made radiant energy-neutral by reductions in black carbon and

52 They provide a quick means to survey the radiant environment in a space with nearly a century of

53 preventing adequate characterization of the radiant environment.

54 has reported that the spectral emission and radiant exitance beam profiles from LCUs can be highly i

55 measured at the light tip, it describes the radiant exitance from the surface of the light tip, and

56 thogens depends on the light source applied, radiant exposure and irradiance of light used, and type

57 ak compressive stress and its variation with radiant exposure are consistent with a model that consid

58 Does an optimal light radiant exposure exist?

59 stress transients generated at the threshold radiant exposure for ablation indicates that the onset o

60 of retinal damage was investigated by using radiant exposure levels that are 2 to 150 times those us

61 to free ICG at 808 nm laser irradiation with radiant exposure of 6 W/cm(2).

62 The radiant exposure required at the SGNs to evoke compound

63 LED-based photoacoustic system and the same radiant exposure time.

64 vaginal epithelial cells was observed at the radiant exposure used to inactivate N. gonorrhoeae.

65 , including light wavelength, irradiance and radiant exposure, as well as cell culture conditions (e.

66 9 mJ/cm(2)) and 60 (224 mJ/cm(2)) seconds of radiant exposure.

67 Radiant exposures measured at CAP threshold are similar

68 rsibly inhibit small-diameter axons at lower radiant exposures than large-diameter axons.

69 For radiant exposures that do not produce material removal,

70 ehaviour under white light illumination at a radiant flux density of 99.3 mW cm(-2).

71 an detect the presence of single-digit pW of radiant flux intensity.

72 stable near-infrared emission with a maximum radiant flux of 1.7 W m(-2) at an external quantum effic

73 es an internal quantum efficiency of ~85%, a radiant flux of ~95 mW, and zero thermal quenching up to

74 driven flow, or free convection, induced by radiant forcing of a black globe's surface to a temperat

75 erratic blinking and substantial dark (never radiant) fractions that occur in all available qdots may

76 easuring the latency of tail withdrawal from radiant heat (the tail-flick test).

77 n-induced changes in hind paw sensitivity to radiant heat and mechanical stimulation.

78 sed the impact of tailshock on reactivity to radiant heat applied to the foot.

79 ve effect of the kappa agonist U50,488 using radiant heat applied to the ipsilateral hindpaw, and we

80 Finally, using a low-intensity radiant heat assay capable of detecting hyperalgesic res

81 ts (12 studies [n = 562]; high consistency), radiant heat dressings (4 studies [n = 160]; moderate co

82 air-fluidized beds, protein supplementation, radiant heat dressings, and electrical stimulation.

83 n decreased the latency of paw withdrawal to radiant heat in mice, indicative of thermal hyperalgesia

84 Radiant heat is often used for studying thermal nocicept

85 aseline foot withdrawal responses to noxious radiant heat mediated by Adelta and C fibers were simila

86 ithdrawal threshold in response to a noxious radiant heat or pressure stimulus.

87 sured by either reactivity to high-intensity radiant heat or reactivity to electric shock, and produc

88 Intense radiant heat pulses concomitantly activate Adelta- and C

89 reduced the latency of paw withdrawal from a radiant heat source in a dose-dependent manner (EC(50) =

90 Animals were slowly heated with a radiant heat source to 43 degrees C and then maintained

91 293 cells or paw withdrawal latencies from a radiant heat source, and there was no evidence of sponta

92 s to lick front and back paws in response to radiant heat stimuli compared to vehicle administration

93 Nociception in rats was measured using a radiant heat stimulus and the effect of intrathecal admi

94 the paw withdrawal latency in response to a radiant heat stimulus in normal rats.

95 indpaw, but not the forepaw, measured with a radiant heat stimulus.

96 increase in the paw withdrawal latency to a radiant heat stimulus.

97 region of the amygdala (BLA) suppresses the radiant heat tail flick (TF) reflex in anesthetized rats

98 t shock while measuring nociception with the radiant heat tail flick (TF) test.

99 Radiant heat tail flick latency, as a measure of behavio

100 ed in the hot plate, high- and low-intensity radiant heat tail flick, and von Frey hair assays.

101 and fentanyl were markedly diminished in the radiant heat tail-flick and hot-plate assays.

102 Thermal antinociception was measured using a radiant heat tail-flick assay; mechanical sensitivity wa

103 NSAIDs are inactive in the radiant heat tail-flick test, an assay of moderate to se

104 ribogaine) was investigated in rats with the radiant heat tail-flick test.

105 oids are effective topical analgesics in the radiant heat tailflick assay and display synergistic int

106 d greater potency than morphine in the mouse radiant heat tailflick assay and similar to the active m

107 ith our prior studies showing synergy in the radiant heat tailflick assay.

108 third day and nociceptive testing using the radiant heat tailflick method was carried out 4 h later.

109 Measuring and characterizing radiant heat transfer is a critical component of both bu

110 fensive responses to mechanical pressure and radiant heat, disrupted the ability of a noxious shock t

111 y leave the public vulnerable to explosions, radiant heat, toxic gas clouds, and air pollution from h

112 mmunicative modality, infrared radiation or "radiant heat," which capitalizes on the infrared sensory

113 gion of the amygdala persistently suppressed radiant heat-evoked tail flick reflexes of anesthetized

114 nhibit a spinal reflex, tail withdrawal from radiant heat.

115 as measured by reactivity to lower-intensity radiant heat.

116 tion of the tail flick (TF) reflex evoked by radiant heat.

117 f anandamide altered withdrawal responses to radiant heat.

118 produced antinociception or hyperalgesia to radiant heat.

119 ture; WBH was administered with an Aquatherm radiant-heat device (patent pending; Cancer Research Ins

120 l, uninflamed hindpaws was determined by the radiant-heat paw withdrawal test.

121 Antinociception studies using a radiant-heat tail flick analgesia method demonstrated th

122 trol group were cared for in an incubator or radiant heater, as per hospital practice; KMC was not in

123 id (3200) Phaethon experiences extreme solar radiant heating ( ~ 750 degrees C) during perihelion (0.

124 ias consequent to the use of long-wavelength radiant heating (i.e. CO(2) laser) as stimulation proced

125 s in high ambient humidity environments with radiant heating found in incubators in intensive care un

126 awal and the tail-flick responses to noxious radiant heating in lightly anesthetized rats.

127 and the foot withdrawal responses to noxious radiant heating in lightly anesthetized rats.

128 frared signals through a mechanism involving radiant heating of the pit organ, rather than photochemi

129 We showcased the utility of RADIANT in extracting systems information, including reg

130 ed psychophysical and EEG brain responses to radiant (laser-evoked potentials, LEPs) and contact heat

131 optimized solution pH, applied potential and radiant light wavelength as operational factors influenc

132 tral super-massive black hole generates vast radiant luminosities through the gravitational accretion

133 xperimental evidence of the collective super-radiant mode in Bragg structure containing 60 InAs monol

134 The super-radiant mode is not manifested in the case if only a sma

135 The collective super-radiant mode shows enhanced emission rate for specific a

136 reveal an appearance of the additional super-radiant mode, originated from coherent collective intera

137 s include the use of coupled radiant and sub-radiant modes yielding narrow asymmetric Fano resonances

138 status in relation to BMI for seven SNPs in Radiant (P<0.0057), with PsyCoLaus giving supportive evi

139 e Goldstone and Higgs modes inside the super-radiant phase and their corresponding spectral weights b

140 e advantages are the RL light source's lower radiant power and the corresponding longer data acquisit

141 roughout the exposure cycle and the spectral radiant power as a function of wavelength, 2) analysis o

142 The spectral radiant power can be very different between different br

143 e 370 spectra was multiplied by the spectral radiant power distribution of D65 light so that the fina

144 owing information about the curing light: 1) radiant power output throughout the exposure cycle and t

145 orods of different lengths, and to different radiant powers, by using engineered channels with differ

146 f dense bunches of particles provide a super-radiant regime and can generate intense highly monochrom

147 ssive group but not the control group in the Radiant sample.

148 We demonstrate that a radiant star poly(glycerol monomethacrylate) polymer did

149 etween the cavity field and the atomic super-radiant state enable ultra-fast transfer of photonic fre

150 uencies allows setting the molecule in a sub-radiant state, where FWM is enhanced with respect to the

151 d sample of 2442 MDD cases and 809 controls (Radiant Study).

152 RADIANT-TB was a phase 2b, randomised, double-blind, non

153 rmometers are typically used to measure mean radiant temperature (MRT), a commonly used metric for ac

154 elow the dew point, which resulted in a mean radiant temperature 3.6 degrees C below the dew point.

155 he current standards; and (3) show that mean radiant temperature measured with ping-pong ball-sized g

156 d ergonomic methods exist for real-time mean radiant temperature measurements in the built environmen

157 Comfort was achieved with a coincident mean radiant temperature of 23.9 +/- 0.8 degrees C, requiring

158 Mean radiant temperature represents the comprehensive radiant

159 troduce a method for measuring longwave mean radiant temperature utilizing low-resolution infrared te

160 sin experienced uplift, a slight increase in radiant temperature, and increased regional seismicity,

161 eters have become the de facto tool for mean radiant temperature, t(r), measurement.

162 ooling system with high separation of air to radiant temperature.

163 heat exposure metrics-surface, air, and mean radiant temperatures-across three residential reflective

164 ant temperature represents the comprehensive radiant thermal impact individuals perceive in their sur

165 y filaments and latency of withdrawal from a radiant thermal source.

166 We used radiant thermal stimulation to deliver purely thermal st

167 We applied RADIANT to image up to 11 targets in millimeter-thick br

168 : NCT02838680 (RADIANT-Canada); NCT02799823 (RADIANT-US).

169 en PET total glycolytic volume and CLI total radiant volume (r(2) = 0.99) and various PET and CLI ana

170 e per injected dose (radiance/ID), and total radiant volume.

171 ent room temperature, difference in cooling (radiant vs. convection) and/or dehumidifying (ordinary a

172 n) or conventional care in an incubator or a radiant warmer until their condition stabilized and kang

173 RADIANT will facilitate the exploration of the intricate