ライフサイエンスコーパス: irradiation

1 l information on its photoreactivity upon UV-irradiation).

2 remely large on/off ratio upon visible-light irradiation.

3 e current-induced switching before and after irradiation.

4 water under blue, green, red, and NIR light irradiation.

5 nstruction with pre-or post-operative breast irradiation.

6 tent period and at 180 days post-exposure to irradiation.

7 e controlled by varying the wavelength of UV irradiation.

8 otective shell is grown by femtosecond laser irradiation.

9 Formula: see text]-H2AX yields for gamma ray irradiation.

10 ent of ferroelectric polarisation upon light irradiation.

11 ld nanoparticles from gold salts using light irradiation.

12 damage to their mitochondrial function after irradiation.

13 nd that the interaction was enhanced upon UV irradiation.

14 ,alpha-dicyanoolefines under ultrasound (US) irradiation.

15 i-C at 30 minutes, 24 hours, or 5 days after irradiation.

16 ion efficiency above 99% under visible light irradiation.

17 ER) and 4-chlorophenol (4-CP) under sunlight irradiation.

18 tional variables such as exposure to cranial irradiation.

19 sed to a low dose rate, uniform, whole body, irradiation.

20 ent to recover salivary function impaired by irradiation.

21 es the survival of tumour-bearing mice after irradiation.

22 ere acquired after near-infrared (NIR) laser irradiation.

23 rise to regenerating crypts following gamma irradiation.

24 from G2/M phase arrest under high-dose X-ray irradiation.

25 f-organized patterns due to cluster ion beam irradiation.

26 cognitive deficits following 9 Gy head-only irradiation.

27 iline was modulated in situ by visible light irradiation.

28 AN-FP and BCAN-FP in the subsequent sunlight irradiation.

29 ng reactive oxygen species (ROS) under light irradiation.

30 ive layer on its insulating bulk under light irradiation.

31 ty-five animals received scanned proton beam irradiation.

32 mal biosensing of MTB DNA under 808 nm laser irradiation.

33 I(3)] thin films with a low dose of electron irradiation.

34 CoCrCu high-entropy-alloy (HEA) film via ion irradiation.

35 s' chromatin condensation caused by UV light irradiation.

36 o reactive oxygen species and/or ultraviolet irradiation.

37 e to desiccation, heavy metals, UV and Gamma irradiation.

38 deprivation therapy (ADT) and had lymph node irradiation.

39 ypt base columnar cells compared to TAI-CONV irradiation.

40 may react differentially to (177)Lu-DOTATATE irradiation.

41 only in peach skin subjected to direct UV-B irradiation.

42 omplex oscillatory behavior under continuous irradiation.

43 electrochemical potential with visible light irradiation.

44 uced energy transfer processes through light irradiation.

45 reme variations in temperature, humidity and irradiation.

46 he release of substrates using visible light irradiation.

47 r avoidance, and protection from ultraviolet irradiation.

48 ghly efficient donor-HSC engraftment without irradiation.

49 Combined effects of gamma irradiation (0, 3, 6 and 9 kGy) and aging (1 and 14 days

50 in the male CD2F1 strain using (60)Co gamma irradiation (~0.6 Gy/min, 7.5-12.5 Gy).

51 e, alone or in combination with fractionated irradiation (5 x 4.8 Gy).

52 RR, 6.74 [95% CI, 4.61 to 9.86]), pituitary irradiation (5-20 Gy: RR, 4.24 [95% CI, 1.98 to 9.06]; 2

53 ) immersion in water and strong mercury-lamp irradiation (50 mW cm(-2) ).

54 By NIR laser irradiation, a controlled release of angiotensin-(1-9) w

55 ion can be triggered by above-band gap laser irradiation, accompanied by a color change from yellow t

56 Under low-dose X-ray irradiation, AIE-Au strongly absorbed X-rays and efficie

57 RP1, administered before or after irradiation, alleviated TBI and PBI-BM5-induced TJ disru

58 igher iNOS(+)/CD206(+) TAM ratio compared to irradiation alone.

59 leaching into the salt is reduced by proton irradiation alone.

60 ng continuous high-power (~170 W) pump laser irradiation and a novel aluminum jacket design for rapid

61 ccur at room temperature under visible light irradiation and are catalyzed by the combination of an i

62 lood was taken before, during, and after the irradiation and assessed for serum 25-hydroxyvitamin D(3

63 Irradiation and bone marrow transplantation did not furt

64 reactive oxygen species (ROS) under daylight irradiation and can support the catalytic cycle of horse

65 ses, and myelosuppressive injuries caused by irradiation and chemotherapy.

66 e survival advantage after multifractionated irradiation and could not be reversed by suppressing exc

67 serine-threonine kinase is activated by SUV irradiation and involved in skin carcinogenesis.

68 potential (OP) of soot due to visible-light irradiation and its underlying mechanisms during atmosph

69 greatly increased through repeated rounds of irradiation and outgrowth.

70 manner, and its loss confers sensitivity to irradiation and platinum-based chemotherapy in pancreati

71 riplet-state organic matters during sunlight irradiation and play an important role in promoting the

72 dual-phase nanolaminate structure under ion irradiation and provides a strategy for designing new de

73 roliferation, which increased survival after irradiation and rescued radiation-induced intestinal per

74 s were substantially and rapidly impaired by irradiation and restored by Hedgehog activation.

75 and Cl ligands remain behind after electron irradiation and the removal of the halide requires exten

76 and delivery and to incorporate total marrow irradiation and total marrow and lymphoid irradiation in

77 and the clinical development of total marrow irradiation and total marrow and lymphoid irradiation, h

78 tissue damage caused by senescence-inducing irradiation and/or acetaminophen-induced mitochondria dy

79 ber were differentially affected by juvenile irradiation and/or vincristine treatment.

80 CAP such as the thermal effect, ultraviolet irradiation, and electromagnetic effect have been regard

81 include oncogenic activation, chemotherapy, irradiation, and targeted therapies such as CDK4/6 inhib

82 ongo red dye degradation under visible light irradiation, and the decomposition efficiency was found

83 critical current and critical temperature in irradiation-annealing process.

84 We observe that 3D genome changes after irradiation are cell type-specific, with lymphoblastoid

85 wever found to be very tolerant to microwave irradiation as the permittivity of the insect was low co

86 UV irradiation at 250 nm leads to unmasking of both MAEs.

87 was assessed after acute (137)Cs whole-body irradiation at a sublethal (4 Gy), a lethal (9 Gy), or a

88 their reactivity was studied upon sensitized irradiation at lambda = 420 nm.

89 testing conditions, that is continuous light irradiation at maximum power point tracking for 1,000 h

90 omers readily polymerize under visible-light irradiation at room temperature in the absence of a cata

91 on, and filtration at pH 6.5 and pH 8.5 with irradiation at three wavelengths (254, 311, and 365 nm).

92 stribution can be tuned by the wavelength of irradiation based on the absorption of the polymer.

93 -3 was seen in lesions 12 and 16 weeks after irradiation but not after 20 weeks.

94 diation is often used as a proxy for neutron irradiation but the irradiated layer is typically <50 mu

95 ptors in salivary glands decreased following irradiation but were restored by transient Hedgehog acti

96 vector improved hematopoietic recovery after irradiation by accelerating endothelial and LepR+ cell r

97 ging with inert gases, use of additives, and irradiation by high light intensities with very long exc

98 luent samples from different plants, 36 h of irradiation by simulated sunlight removed 28-33% of DCAN

99 nd decomposition of wastewater without light irradiation can be achieved simultaneously.

100 Our results show that irradiation can have a positive impact on materials perf

101 We found that 405 nm irradiation can induce charge recombination and activate

102 Light irradiation can provide spatial and temporal control of

103 metal catalysts, additives, or visible-light irradiation, can be applied in transannulation, insertio

104 Chemotherapy and irradiation cause DNA damage to hematopoietic stem cells

105 Finally, MEK5 silencing combined with focal irradiation causes strong inhibition of tumor growth in

106 cantly decreased DNA-PKcs activity following irradiation, causing increased HSC DNA damage and depres

107 ined in yields of up 93% under an ultrasound irradiation condition in short reaction times (10-70 min

108 noplastic pollution may also depend on local irradiation conditions.

109 ng of matter phase transitions under extreme irradiation conditions.

110 both ice layers to the gas phase during the irradiation converge with those detected in higher abund

111 absorption spectra, measured over several UV irradiation cycles, are interpreted with a quantitative

112 Here we report that proton irradiation decelerates intergranular corrosion of Ni-Cr

113 Relative to Sham treatment, (56)Fe irradiation did not overtly change performance on tasks

114 Similarly, irradiation did not significantly increase the number of

115 at diagnosis (mean, 8.6 years), craniospinal irradiation dose (median, 23.4 Gy), length of follow-up

116 DNA repair mechanisms elicited by different irradiation dosing regimens could improve radiotherapy s

117 Continuous irradiation during photodynamic therapy (PDT) inevitably

118 e crystalline silicon by means of helium-ion irradiation, enabling the formation of a completely amor

119 into designing battery materials for extreme irradiation environments and understanding fundamental d

120 ger set of effluent samples (n = 18), 8 h of irradiation (equivalent to 2-3 d of natural sunlight) de

121 Thus, chronic irradiation, even at low dose-rates, can induce cell sen

122 in Paterno-Buchi (PB) reactions during laser irradiation facilitating DB-position assignment and allo

123 itioned with 1000 cGy single dose total body irradiation, followed by transplantation of 10 million b

124 bvious bleaching even after continuous laser irradiation for 5 h); thus, only a picomolar dose is req

125 Rats were tested once/week for 5 weeks post-irradiation for activity, coordination, and startle.

126 uate the adjunctive benefits of Er:YAG laser irradiation for regenerative surgical therapy of peri-im

127 that can be activated by near-infrared (NIR)-irradiation for the triggered delivery of internal cargo

128 Chain walking combined with blue-light irradiation functions as the mechanistic switch from coo

129 Importantly, TAI-FLASH and TAI-CONV irradiation had similar efficacy in reducing tumor burde

130 ancement up to 21% under 405 nm violet laser irradiation has been observed, suggesting a possible deg

131 ow irradiation and total marrow and lymphoid irradiation, highlighting both the possible advantages a

132 ate liposomes compromised the restoration of irradiation-impaired salivary function by transient Hedg

133 ent activation of Hedgehog signaling rescues irradiation-impaired salivary function in animal models,

134 Surprisingly, (56)Fe irradiation improved performance on a dentate gyrus-reli

135 Upon irradiation in a photooxidation microcosm, thin films of

136 omotes rod survival under strong white light irradiation in a previously unreported non--cell-autonom

137 Irradiation in acidic solutions that contain an electron

138 tudy pioneers the technology of pulsed laser irradiation in liquid from a solid target to liquid, and

139 ow irradiation and total marrow and lymphoid irradiation in multi-centric phase 2-3 trials.

140 aryl complex under long-wave UV (390-395 nm) irradiation in the presence of a soluble amine base with

141 These reactions occur under visible-light irradiation in the presence of an Ir(III) -based photore

142 Upon irradiation in the tail of the absorption bands (490 nm)

143 he cycloaddition is triggered by ultraviolet irradiation in ultrahigh vacuum, requiring no aid of the

144 me benzotrifluorides are not stable under UV irradiation in water and convert into benzoic acids due

145 on >= 90% of their volume) without pituitary irradiation increased the RR of SAH by 4.62 (95% CI, 2.7

146 meat water holding capacity was affected by irradiation, increasing (p < 0.05) purge and cooking los

147 ptor activation prevents and mitigates gamma-irradiation-induced colonic mucosal barrier dysfunction

148 se-arrested oocytes rapidly respond to gamma-irradiation-induced DNA double-strand breaks by activati

149 niche and improving BM niche recovery after irradiation-induced injury.

150 lop medical countermeasures (MCMs) to combat irradiation-induced lethality.

151 c damage is one of the major consequences of irradiation-induced lethality.

152 Accelerated recovery from irradiation-induced peripheral blood cytopenia, bone mar

153 h sufficient accuracy providing a measure of irradiation-induced shift of yield strength, strain hard

154 elemental carbon in soot under visible-light irradiation initiated an inside-to-outside oxidation pat

155 models of epithelial injury, including acute irradiation injury and ectopic wound biopsies.

156 is compensatory mechanism is lost with acute irradiation injury, resulting in a paucity of tuft cells

157 ry 3 weeks and optional prophylactic cranial irradiation (investigator's discretion).

158 Whisker growth by ion irradiation is a novel and unexpected aspect of space we

159 Light irradiation is considered an ideal non-invasive stimulus

160 ic regeneration in vivo following total body irradiation is dependent upon EGFR-mediated repair of DN

161 This TAD boundary strengthening after irradiation is not observed in ATM deficient fibroblasts

162 Proton irradiation is often used as a proxy for neutron irradia

163 mechanism of external injection of bosons by irradiation is required.

164 Multifractionated irradiation is the mainstay of radiation treatment in ca

165 omal ME is damaged and how it recovers after irradiation is unknown.

166 neurogenesis-dependent, as (56)Fe and (28)Si irradiation led to faster context discrimination in a no

167 obtain mechanical test data as a function of irradiation level.

168 nd under atmospherically relevant UV-visible irradiation levels, there is no significant change in pa

169 wing that genotoxic injury, such as low dose irradiation, may promote an IGFBP-4 release in bloodstre

170 e following scenarios: (A) Homogeneous gamma-irradiation, mimicking total-body exposures, vs. mixture

171 Following exposures to lethal doses of irradiation, morbidity and mortality can occur due to a

172 Irradiation negatively affected myofibrillar fragmentati

173 und is that, compared with total-body photon irradiations, neutrons produce more heavily-damaged lymp

174 Irradiation of >= 7 vertebrae (>= 15 Gy on >= 90% of the

175 Juvenile mice were given partial brain irradiation of 10 or 30 Gy integral dose using 100 MeV p

176 The irradiation of a 10:1 CB[8]-cryptand mixture has led to

177 ic lattice deformation that follows scanning irradiation of a laser can actuate the different phases

178 ylnitrene, generated in argon matrices by UV-irradiation of an azide precursor, was found to spontane

179 Irradiation of Cp(2) TiCl(2) with green light leads to e

180 Irradiation of host muscle enhances donor stem cell engr

181 Targeted irradiation of mouse corneas with UVA induced reactive o

182 urfaces from a single microstructure via the irradiation of multiple interference laser beams onto di

183 Here we demonstrate that irradiation of N-acryloyl heterocycles with blue LED lig

184 tments, yet it is accompanied by unavoidable irradiation of normal tissues.

185 brane antigen (PSMA), enabling targeted beta-irradiation of prostate cancer.

186 anic material, which may have formed through irradiation of simple molecules.

187 Specifically, absorption-edge irradiation of the 2D poly(arylenevinylene) covalent org

188 Upon laser irradiation of the clip-magazine-assembled PT-Disk, on-c

189 Irradiation of the dyads led to photoproducts arising fr

190 UV irradiation of the films resulted in cross-linking/polym

191 Irradiation of the indane-based MAE at 350 nm in the pre

192 Irradiation of the model chromophore leads to reversible

193 Laser irradiation of the molecular crystal can generate phase-

194 Irradiation of the phanorods also destroyed the phages,

195 Irradiation of the phenanthrene system at 350 nm results

196 onserved and upregulated in response to UV-B irradiation of the SAM.

197 Re-irradiation of the samples can restore the radical conce

198 rs as a decomposition product formed through irradiation of the sulfide by energetic ions of the sola

199 Therapeutic irradiation of the tumor microenvironment causes differe

200 Irradiation of these materials with UV light triggers a

201 moval of Cl from deposits formed by electron irradiation of thin condensed layers of (eta(3)-C(3)H(5)

202 + 2] cycloaddition to form a [3]-ladderane; irradiation of this ladderane at 250 nm generates a dihy

203 gamma-irradiation of TOF-16 to an unprecedented 4 MGy dose res

204 Irradiation of TripP=C=C(H)tBu led by the insertion of t

205 In contrast to peptide P1, UV-irradiation of ubiquitin did not induce H/D scrambling i

206 Ultraviolet irradiation of viral particles suppressed HBV infectivit

207 e, here, we investigate the effects of solar irradiation on an asphalt binder.

208 luation of the proposed modulatory effect of irradiation on neuronal activity without causing cellula

209 nderstand the effects of low-dose (56)Fe ion irradiation on the formation of hepatocellular carcinoma

210 t-shaped craters were formed by single pulse irradiation on the Si substrate, and a twisted cone stru

211 When p53 was stabilized and activated by irradiation or chemotherapy drug treatment, NSC194598 in

212 ent through and post-IR (DFO ppx), or (4) no irradiation or DFO (No IR).

213 ced rather uniformly in the genome (e.g., by irradiation or radiomimetic chemotherapeutics).

214 nt (e.g. from fallout), can provide external irradiation over prolonged times.

215 germinability were observed in dry heat, UV irradiation, oxygen plasma and vaporized hydrogen peroxi

216 By adjusting the irradiation parameters, desired thicknesses of the FCC a

217 and decreased cell survival following x-ray irradiation, particularly in normal fibroblasts.

218 total body irradiation (TBI) or partial body irradiation (PBI-BM5).

219 e silicon surface can survive over the laser irradiation period.

220 rmed using various triggers, including light irradiation, pH adjustment, heating, cooling, or chemica

221 BM transplantation (BMT) frequently requires irradiation preconditioning to ablate endogenous hematop

222 ce long-bone removal or pre-transplant donor irradiation prevented long-term engraftment.

223 ucing activity was reduced (p < 0.05) by the irradiation process, inducing the metmyoglobin accumulat

224 al injection of HD/Se/ICG gel with NIR laser irradiation provided the most efficient tumor growth inh

225 analysis showed that fractionated total body irradiation, race, and use of cytarabine significantly i

226 n to control, at dose of 1,200 mJ/cm(2) UV-A irradiation reduced AFB(1) and AFM(1) concentrations by

227 nd thus ensuring equal exposure to the laser irradiation required for photochemical oxidation.

228 Low electron irradiation resulted in an uneven surviving colony distr

229 ition for deep seated tumours using advanced irradiation schemes with an existing LPA source.

230 spectroscopy, tailored radio frequency (RF) irradiation schemes, and computational approaches.

231 Here, we show that UV-B irradiation selectively kills epidermal and niche cells

232 Gamma irradiation showed >98% active structures of melatonin e

233 It was observed that UV-A irradiation significantly reduced aflatoxins in pure wat

234 t of 3.5 um was created at the center of the irradiation spot by the circularly polarized optical vor

235 distribution of the receptor under UV-light irradiation, stabilizing the isomers of the cryptand wit

236 ent in planta and, hence, fitness under UV-B irradiation stress.

237 free-standing gold thin-film via in situ ion irradiation studied using atomic-resolution transmission

238 stability, we conducted the first He(2+) ion irradiation study of a metal-organic framework (MOF).

239 inued in irradiated samples after the end of irradiation, suggesting that photochemically induced rea

240 For almost every patient undergoing irradiation, target volume delineation was improved by (

241 Total body irradiation (TBI) before allogeneic hematopoietic stem c

242 Mice were subjected to either total body irradiation (TBI) or partial body irradiation (PBI-BM5).

243 ered 24 h before or after 4 Gy of total-body irradiation (TBI) promoted rapid and complete hematopoie

244 Lethal total body irradiation (TBI) triggers multifactorial health issues

245 Except for the lowest irradiation temperature, gas bubbles have the shape of t

246 as bubbles, which is revealed at all studied irradiation temperatures.

247 d prepulse inhibition of startle 1-week post-irradiation that dissipated each week.

248 By adjusting the intensity and duration of irradiation, the anesthetic effect can be modulated.

249 Upon irradiation, the block can be released and the kinetics

250 Upon 365 nm UV irradiation, the tetrazole group is converted to a nitri

251 Upon US irradiation, the vesicles were disassembled into small J

252 6-weeks post-irradiation, there were no effects on NOR, however proto

253 To minimize H/D scrambling, short UV-irradiation time and high gas pressures are recommended.

254 de functionalized substrates required longer irradiation times and resulted in lower surface coverage

255 Under light irradiation, TMNP causes the accelerated generation of r

256 radiator to administer fractionated hindlimb irradiation to juvenile mice bearing implanted rhabdomyo

257 Fractionated partial brain irradiation to the surgical cavity of resected brain met

258 he apoptosis of the neuroblastoma cells upon irradiation treatment.

259 This study clarified the solar irradiation-triggered self-oxidation process in soot, wh

260 rogel and with the treatment of 808 nm laser irradiation, tumors are eradicated and no recurrence is

261 10 degrees C for 7 days after a hormetic UVC irradiation (two pulses of 0.3 J/cm(2)), showed signific

262 ost 100 % yield achieved under visible light irradiation using [Ru(bpy)(3) ](2+) as the photosensitiz

263 C-derived EV resolves RICD following cranial irradiation using an immunocompromised rodent model.

264 lified by reaction completion within 60 s of irradiation using green, red, and far-red light-emitting

265 EGFR) regulates DNA repair in HSCs following irradiation via activation of the DNA-dependent protein

266 ing both aliphatic alcohols and phenols upon irradiation via photocleavage of ether linkages.

267 In brown rice, only 3 h of UV-C irradiation was able to reduce the formation of fungal c

268 subsp. Kurstaki against deactivation by UV-A irradiation was measured, so that spore viability and mo

269 The degree of early impacts of irradiation was underscored by the large number of miRNA

270 unosuppression by systemic CsA, but not UV-B irradiation, was a prerequisite, as immunocompetent or U

271 or hydrogen-gas generation and operates with irradiation wavelengths that span the ultraviolet to the

272 Following irradiation, we show that Lgr5(+)ISC repair DNA damage m

273 lular localization, and relocalization after irradiation were found to be the main factors contributi

274 iR-222 expression in MLN-M influenced by the irradiation were shown to be associated with M2bM polari

275 eak intensities with chlorophyll a and solar irradiation were used to define 9 reactivity classes for

276 to ligand charge transfer upon visible light irradiation, which is responsible for catalytic activity

277 dent induction of linc-SPRY3-2/3/4 following irradiation, which was not observed in radioresistant ma

278 by 10 minutes of ultraviolet-A (9 mW/cm(2)) irradiation while contralateral eyes served as controls.

279 re on the order of hours under typical solar irradiation, while the absorption and ON lifetimes towar

280 Irradiation with 365 nm light (5 mW cm(-2) ) in the pres

281 on data from a single crystal as Pb or after irradiation with blue light, detected photoconversion pr

282 f unusually high levels of the cis-isomer by irradiation with green/yellow light as well as red light

283 ecules undergo reversible isomerization upon irradiation with light at different wavelengths, a proce

284 In 2-D cell cultures, irradiation with NIR light at low power results in preci

285 properties, such as photoisomerization under irradiation with red light to a [2.1.0]-housane-type spe

286 Interestingly, irradiation with traveling microwaves hardly produced he

287 CPD can then isomerize back to DHP upon irradiation with UV light or thermally in the dark.

288 f the active structure of the drug following irradiation with UV light or treatment with H(2)O(2).

289 Irradiation with UV-C band ultraviolet light is one of t

290 s compound undergoes electrocyclization upon irradiation with UV-light.

291 Substitution of UV irradiation with visible light benefits bioimaging, whil

292 inversion to the helical superstructure upon irradiation with visible light of different wavelengths.

293 d that the Ir(III) photoredox catalyst, upon irradiation with visible light, can be either reduced or

294 owed the highest light-sensing ability after irradiation with visible light.

295 state that can be recovered upon subsequent irradiation with visible light.

296 s without the need of any external base upon irradiation with white LED.

297 s shown excellent oxidase-like activity upon irradiation with white light.

298 nts generated by plasmonic absorbance of NIR irradiation, with velocities ranging up to 6.2+/-1.10 mu

299 ry state, such that different wavelengths of irradiation yield different quantities of the bound diol

300 Upon 740 nm light irradiation, Zr-TBB efficiently generates various reacti