ライフサイエンスコーパス: rehydration

1 es in neuronal organization (dehydration and rehydration).

2 rehydration rates at the first 15 min of the rehydration.

3 This transition is reversible on rehydration.

4 13.7%) of children administered intravenous rehydration.

5 g lipid droplets during seed desiccation and rehydration.

6 tolerance and resumption of metabolism upon rehydration.

7 verged strongly from seed plant species upon rehydration.

8 ration at elevated temperatures, followed by rehydration.

9 o survive repeated cycles of desiccation and rehydration.

10 includes DNA breakage that is repaired upon rehydration.

11 3 transcripts and ABA, responses reversed by rehydration.

12 ne structure and fluidity during dehydration/rehydration.

13 ange in properties was fully reversible upon rehydration.

14 electrolyte imbalance by oral or parenteral rehydration.

15 dehydration, dehydroxylation, and subsequent rehydration.

16 f stressed plants also declined rapidly upon rehydration.

17 ion, cytoplasmic osmoregulation, and/or seed rehydration.

18 lose strips after a cycle of dehydration and rehydration.

19 d states, and much reduced aggregation after rehydration.

20 id and in protein aggregation measured after rehydration.

21 this treatment should favor aggregation upon rehydration.

22 e recovery of native protein molecules after rehydration.

23 0 MPa and subsequently recover function upon rehydration.

24 induced a faster recovery of the Fv/Fm after rehydration.

25 lly due to increased proteolysis and protein rehydration.

26 dehydration and were not recovered with leaf rehydration.

27 intaining their transfection potential after rehydration.

28 their structure and thermal stability during rehydration.

29 ons followed by controlled dry-annealing and rehydration.

30 nd the cells shrink which is reversed during rehydration.

31 re differentially expressed upon dehydration-rehydration.

32 ked to the spatiotemporal sequence of tissue rehydration.

33 e of a membrane potential, is immediate upon rehydration.

34 established by percentage weight change with rehydration.

35 growth patterns in the evening or upon soil rehydration.

36 the mechanism for sensing hypo-osmolarity in rehydration(1,2), the molecular basis remains unknown.

37 juice/preferred fluids received intravenous rehydration (2.5% vs 9.0%; difference, -6.5%; 99% CI, -1

38 psules and the corresponding emulsions after rehydration (7.7 and 9.9 mum respectively).

39 , together with a complementary study on the rehydration ability and sensorial attributes of samples,

40 The higher TPC, AOC, vitamin C content and rehydration ability were obtained from HD.

41 on the surface, which in turn exhibited good rehydration ability.

42 Dehydration and rehydration affected mainly the gene expression for comp

43 ript level varying in response to drying and rehydration and all transcripts being stable in dried ti

44 psis model in which the mice were treated by rehydration and antibiotics, the production of colibacti

45 n addition to standard care with intravenous rehydration and antiemetic treatment or to standard care

46 any control of the reagent distribution upon rehydration and can be a source of error when pads do no

47 pidly stimulated (within < 15 min) following rehydration and coincides with the onset of ribosomal S6

48 Both in-gel rehydration and cup-loading methods were used for isoele

49 dergoes a 1,2-hydride shift competitive with rehydration and deprotonation.

50 r pollen to survive the hypoosmotic shock of rehydration and for full male fertility.

51 dehydrogenase (LDH) under heat, dehydration-rehydration and freeze-thaw treatments.

52 oenteritis in children can help promote oral rehydration and prevent medical visits for dehydration.

53 n of mobile ions within the glycocalyx and a rehydration and restoration of the layer to its equilibr

54 ing with both a fecal occult-blood test with rehydration and sigmoidoscopy fails to detect advanced c

55 Treatment is limited to rehydration and supporting care suggesting an urgent nee

56 This precipitation is critical for rehydration and survival of the largest vertebrate group

57 nes was found to decrease by 10% upon drying/rehydration and the lateral diffusion coefficient decrea

58 d cells to water storage can be derived from rehydration and water-release curves on excised plant ma

59 Diarrhoea stopped during intravenous rehydration and when feeding a glucose-, galactose-, and

60 the spore core, including DPA excretion and rehydration, and also activates hydrolysis of the surrou

61 , maintain function after lyophilization and rehydration, and can produce visually interpretable read

62 que adsorption, cation-exchange, dehydration-rehydration, and catalytic properties.

63 Acute therapy includes complete pain relief, rehydration, and encouragement of diuresis.

64 s must manage cell swelling during flooding, rehydration, and pathogen invasion-but little is known a

65 Specifically, after deparaffinization, rehydration, antigen retrieval, and homogenization, the

66 antly higher rates of initial and successive rehydration as well as smaller initial loss of soluble s

67 The peak in rehydration-associated transcript accumulation coincided

68 aline solution has been shown to improve the rehydration behaviour of milk protein isolate (MPI).

69 n PCN and may have contributed to inadequate rehydration behaviour.

70 nted homeostasis goal (resuscitation fluids, rehydration, blood products, and nutrition), drug carrie

71 lated above control levels during drying and rehydration but were barely detectable in desiccated tis

72 ss, they may prime stems for recovery during rehydration by modifying apoplast pH and increasing suga

73 During dehydration and rehydration, C. pumilum deactivates and activates partia

74 ured water stress thresholds for declines in rehydration capacity and maximum quantum yield of photos

75 We assessed dehydration-induced losses of rehydration capacity and maximum quantum yield of the ph

76 On average, losses of leaf rehydration capacity occurred at dehydration beyond 50%

77 A percentage loss of rehydration capacity of 100% was defined as the point of

78 The samples dried by hot air shows a higher rehydration capacity than samples dried by combined meth

79 capacity (AOC), vitamin C content, color and rehydration capacity were followed.

80 loss of diameter and the percentage loss of rehydration capacity.

81 Tissue rehydration caused a transitory change in delta(18)O(L),

82 reaks caused by the frequent desiccation and rehydration characteristic of bdelloid habitats.

83 ascorbic acid and carotenoids were retained, rehydration coefficients were higher and there were mini

84 hibited a substantial loss of viability upon rehydration compared with wild-type D. radiodurans.

85 lined in the morning and recovered upon soil rehydration considerably quicker than transpiration rate

86 Immediately on rehydration, control cells without LEA proteins or treha

87 release of the enzyme from dried cells upon rehydration, counter the effects of oxidative stress imp

88 During the dehydration/rehydration cycle c. 92 % of the total protein-coding tr

89 ge their shape and size in a dehydration and rehydration cycle.

90 her solute-induced stresses, and dehydration-rehydration cycles.

91 lepidophylla was subjected to a five-stage, rehydration/dehydration cycle, then analyzed using non-b

92 r spore solute release or partial spore core rehydration during germination, (iii) indicate that mura

93 mposed by multiple cycles of desiccation and rehydration during UV-A or -B irradiation in situ.

94 s, influenced by the spontaneous dehydration/rehydration dynamics at the filter.

95 Furthermore, rehydration effects were observed following 24 h of PEG

96 Antiemetics may facilitate rehydration efforts by limiting further fluid losses.

97 Following rehydration, embryos resume development via alterations

98 tin transcripts which can be translated upon rehydration enabling rapid initiation of cellular repair

99 ects the difference in dehydration/solvation/rehydration energies in the entry/exit steps of permeati

100 Subsequent rehydration, even after an extended period of time (e.g.

101 onse to the agonist of DmOrco just 1 h after rehydration, even upon inhibition of protein synthesis.

102 ted with active components or power sources, rehydration events can render previous measurements irre

103 this model is its reliance on unpredictable rehydration events, like rainstorms.

104 Imaging of rehydration experiments showed spatially variable recove

105 setron to children at greatest risk for oral rehydration failure.

106 Upon rehydration, Fe-containing superoxide disumutase (Fe-SOD

107 ore likely to have diarrhea and receive oral rehydration fluids.

108 ve diarrhea, and more likely to receive oral rehydration fluids.

109 involved in the deoxy-dependent component of rehydration for dense, K(+)-depleted cells.

110 Rapid, large-volume intravenous rehydration for outpatients with dehydration did not sho

111 ment of diarrhoea-including an improved oral rehydration formulation, zinc supplementation, and rotav

112 vel method allows for consistent, controlled rehydration from patterned reagent storage depots direct

113 to obtain a reference Hydration-Dehydration-Rehydration (H-D-R) transcriptome comprising of 76,206 t

114 Secondary outcomes included intravenous rehydration, hospitalization, and frequency of diarrhea

115 ing within 7 days of enrollment: intravenous rehydration, hospitalization, subsequent unscheduled phy

116 ted with the H-D-R cycle and confirmed early rehydration (i.e. the R2 stage) as exhibiting the maximu

117 yte disturbances and regarding the method of rehydration (i.e., enteral versus parenteral) raise some

118 inantly form isomerized isoAsp residues upon rehydration (imbibition).

119 A nasogastric tube was used for oral rehydration in 126 of 135 participants (93%) in the oral

120 Rehydration in an alkaline solution has been shown to im

121 spital admissions and the use of intravenous rehydration in children with AGE in emergency-department

122 n occurring after dehydration and subsequent rehydration in comparison to cells kept constantly hydra

123 The ubiquitin response to drying and rehydration in evolutionarily diverse systems is charact

124 g mRNA levels in response to desiccation and rehydration in leaves of the desiccation tolerant grass

125 f new therapies for CFTR correction and lung rehydration in patients with debilitating airway disease

126 erize the dynamics of tissue desiccation and rehydration in petioles (stipes) of intact DT ferns.

127 tiveness and advantages of rapid intravenous rehydration in the outpatient setting is discussed.

128 d nucleus of the stria terminalis accelerate rehydration in thirsty mice.

129 ncreases in modulus were rapidly reversed by rehydration in water.

130 Drought stress followed by rehydration increased the hundred seed weight at the com

131 anisms to protect them from desiccation- and rehydration-induced damage.

132 No significant enhancement of rehydration is achieved when the microgrooves and microc

133 n between different stages of drying, on the rehydration kinetics of dry blueberries.

134 Models describing rehydration kinetics were also studied.

135 he crystals, since the activation energy for rehydration may be extremely high.

136 Rapid enteral rehydration may be used in the uncomplicated, mildly to

137 m amphiphilic gold nanocrystals using a film-rehydration method that can be completed within approxim

138 giant unilamellar vesicles using an agarose rehydration method.

139 olipids and cholesterol using a dehydration/ rehydration method.

140 By comparing four deparaffinization and rehydration methods, including heptane, histolene, SubX,

141 with proteins that normally aggregate after rehydration, minimizing unfolding during freeze-drying w

142 aled package in a dry atmosphere, drying and rehydration must not change the transport characteristic

143 In a parallel set of experiments, acute rehydration of 48 h water-deprived rats significantly at

144 lter catalyses the dehydration, transfer and rehydration of a K+ ion in about ten nanoseconds.

145 Drying and rehydration of agarose gel films result in the affine de

146 id interactions are weakened and lead to the rehydration of amide groups.

147 a late dissociative transition state and the rehydration of B and the protein binding cavity in solut

148 hat catalyzes the stereospecific dehydration-rehydration of citrate to isocitrate in the Krebs cycle.

149 simulations have been performed to study the rehydration of compact and unfolded cytochrome c ions in

150 Here, we investigate dehydration/rehydration of complex coacervates, which are membranele

151 Upon rehydration of desiccated cells, there was a turnover of

152 Rehydration of desiccated leaves resulted in a decrease

153 differentially expressed transcripts during rehydration of desiccated moss (Tortula ruralis), was fu

154 r dilution as would have occurred during the rehydration of dried or partially dried pools.

155 Rapid rehydration of excised shoots was used as a means of dif

156 lating light SSRBCs, also contributes to the rehydration of high-density SSRBCs.

157 Two-dimensional separation, including rehydration of IEF strip and fluorescence detection was

158 ge numbers of free-floating GUVs through the rehydration of lipid films deposited on soft polyacrylam

159 rious species present during dehydration and rehydration of mesoporous silicas between -25 and 500 de

160 s and from photosynthetic activity following rehydration of nodules may mediate the rate of recovery

161 aper network immunoassay based on controlled rehydration of patterned, dried reagents.

162 Conversely, during rehydration of rapidly dried tissue Tr288 transcript lev

163 due to an enzymatic step(s), and not simply rehydration of stored, active enzyme.

164 Conversely, rehydration of stressed leaves caused a rapid decrease i

165 Rehydration of the cis-homoaconitate produces (-)-threo-

166 ide of the heme pocket, perhaps accompanying rehydration of the deoxymyoglobin photoproduct or accomm

167 rprint was obtained, irrespective of time of rehydration of the DNA, using a primer (5'-GWCWATCGCC-3'

168 arranges during the first several minutes of rehydration of the film.

169 tructure of the cross-linked liposomes after rehydration of the freeze-dried powder of liposomes.

170 iral RNA is directly amplified following the rehydration of the immobilized samples, thus eliminating

171 Upon rehydration of the layered gel, we observed a preferred

172 nted samples, proper dehydration followed by rehydration of the proteoliposomes is essential.

173 ranscript was also evident during drying and rehydration of the roots of S. stapfianus, as well as in

174 This allows for the partial rehydration of these moieties.

175 le evidence for hydraulic functions, such as rehydration of tissues, refilling of water stores, and e

176 P707A2 mRNA levels were rapidly increased by rehydration of water-stressed leaves.

177 maged as 2-5mum long fragments that survived rehydration on natural and artificial surfaces (i.e. pla

178 ce of the recovery of membrane mobility upon rehydration on TDM fraction shows a functional form indi

179 tant roles in nitrogen remobilization during rehydration or in ROS scavenging.

180 es, poor skin turgor, dysentery, intravenous rehydration, or hospitalization.

181 s, skin tenting, dysentery, intravenous (IV) rehydration, or hospitalization.

182 Upon rehydration, organisms need to reactivate metabolism and

183 ), during drought and through the subsequent rehydration period for a sample of eight canopy and unde

184 to 20 times between the peak of the de- and rehydration phases.

185 to one of three rehydration strategies: oral rehydration, plus intravenous boluses for shock; a rapid

186 ll three cholera treatment centres and seven rehydration posts throughout Juba.

187 ondansetron use and 3 outcomes: intravenous rehydration (primary), hospitalization, and emergency de

188 ng membranes when undergoing dehydration and rehydration procedures, and the 1,2-dioleoyl-sn-glycero-

189 range of 40% to 90% was detected during the rehydration process after topical application of the HA.

190 bacterial membrane vesicles by a dehydration-rehydration process generated giant cell-like hybrid ves

191 the microchannels was removed by the drying/rehydration process, as compared to 11% for PC.

192 r and carbon uses throughout dehydration and rehydration processes in adult trees will contribute to

193 d with PLC variations during dehydration and rehydration processes, indicating that stored carbon con

194 e-cell (BS-WC) cholera vaccine is added to a rehydration program either preemptively or reactively.

195 e samples, which caused the deterioration of rehydration properties and the decrease in crystallizati

196 in surface chemical composition relating to rehydration properties of spray-dried camel milk powders

197 ed their total polyphenol content and showed rehydration properties, which were even better than thos

198 nally, PO-treated samples exhibited superior rehydration properties, with a ratio of 293.32% and a 1.

199 In contrast, IMF had excellent flow and rehydration properties.

200 Effective interventions include rehydration, prostaglandin inhibitors, and vitamin B6.

201 The highest initial rehydration rate and the smallest loss of soluble solids

202 rate was 74 microm/min, whereas the average rehydration rate was 12.4 microm/min.

203 MVD ginger splits had higher rehydration rates at the first 15 min of the rehydration

204 creased during the study period, intravenous rehydration rates were unchanged.

205 ates, vitamin C, 2-furoylmethyl amino acids, rehydration ratio and leaching loss) have been determine

206 The rehydration ratio changed with varying both air velocity

207 While the shrinkage decreased, the rehydration ratio increased with increasing air temperat

208 Rehydration ratio was not affected by the power applied

209 ydrates, total polyphenols, protein profile, rehydration ratio, microstructure changes) of convective

210 ts perform the isomerization and dehydration/rehydration reactions.

211 Bronsted acidity drives the dehydration and rehydration reactions.

212 stresses and survive.Likewise, the stress of rehydration requires appropriate mitigating cellular res

213 desiccation, TOF-SIMS imaging and subsequent rehydration reveals structural and morphological preserv

214 observed by 6 days of dehydration that, with rehydration, reversed back toward or beyond control leve

215 ), handwashing with soap (observation), oral rehydration salt solution preparation (demonstration), a

216 g evidence of an intervention effect on oral rehydration salt solution preparation and breastfeeding

217 Secondary outcomes were intake of oral rehydration salt solution, severity of vomiting, and ser

218 ent (12.1%; 95% CI: -16.0%, -8.9%), and oral rehydration salts (ORS) for diarrhea treatment (10.2%).

219 hea and some dehydration are to receive oral rehydration salts (ORS) in the facility.

220 specific questions on fluids other than oral rehydration salts (ORS) should be eliminated to refocus

221 arly all deaths could be prevented with oral rehydration salts (ORS).

222 ants only breast-milk (and medications, oral rehydration salts and vitamins as needed) with no additi

223 ation (9%); treatment of diarrhoea with oral rehydration salts and zinc, and careseeking for fever, m

224 , handwashing with soap, correct use of oral rehydration salts, and zinc administration.

225 Although oral rehydration salts, the correct treatment for diarrhea, a

226 For in-gel rehydration, samples reduced with DTT were diluted with

227 Oral rehydration seems to be here to stay.

228 usly, we found that an amino acid-based oral rehydration solution (AA-ORS) improved gastrointestinal

229 water control (1337 +/- 330 g) after an oral rehydration solution (ORS) (1038 +/- 333 g, P < 0.001),

230 240) were aware of cholera (97.5%) and oral rehydration solution (ORS) (87.9%).

231 o a 90 mmol/L sodium-111 mmol/L glucose oral rehydration solution (ORS) enhances its effectiveness fo

232 on [so-called resistant starch (RS)] to oral rehydration solution (RS-ORS) improves the efficacy of O

233 for a respiratory complaint, and using oral rehydration solution for diarrhea.

234 or pneumonia and neonatal sepsis and of oral rehydration solution for diarrhoea would together accoun

235 n to recent efforts to develop improved oral rehydration solution formulations.

236 Use of oral rehydration solution has stagnated, despite being effect

237 This article reviews the role of oral rehydration solution in the treatment of acute diarrhea

238 Net sodium absorption from oral rehydration solution is increased by both glucose-sodium

239 three arms: standard recommendation on oral rehydration solution use; health facility delivery of CH

240 ion of fully immunised children, use of oral rehydration solution, and sanitation index, assessed at

241 nsport was the basis for development of oral rehydration solution, and was hailed as potentially the

242 Before widespread use of oral rehydration solution, treatment for diarrhoea was restri

243 esting of modifications to the standard oral rehydration solution.

244 stimulation of net sodium absorption by oral rehydration solution.

245 Oral rehydration solutions reduce diarrhea-associated mortali

246 intravenous electrolyte support and/or oral rehydration solutions) and oral intake whenever possible

247 ' physical examination, prescription of oral rehydration solutions, antibiotics and other medications

248 been primarily attributed to the use of oral rehydration solutions, continuous feeding and zinc suppl

249 nough" to ensure the appropriate use of oral rehydration solutions, zinc and antibiotics by healthcar

250 and might contribute to the efficacy of oral rehydration solutions.

251 cess as well as slow water absorption during rehydration, stabilize proteins, and scavenge reactive o

252 subject to ABA treatment in dehydration and rehydration stages.

253 ral lung damage and indicate that additional rehydration strategies may be required for effective tre

254 recommendations, the adoption of intravenous rehydration strategies might improve outcomes.

255 hours was noted between oral and intravenous rehydration strategies.

256 ndomization in a 2:1:1 ratio to one of three rehydration strategies: oral rehydration, plus intraveno

257 ccess disparities, including availability of rehydration supplies.

258 ecies without resin, we developed a modified rehydration technique that allows the separation of decl

259 nic saline or water deprivation with partial rehydration than did vehicle-treated rats.

260 To protect themselves until rehydration, the grains undergo characteristic infolding

261 Oral rehydration therapies are the mainstay of management of

262 Thus, rehydration therapies may slow the progression of CF lun

263 The reported prescription rate for oral rehydration therapy among children with diarrhea changed

264 The features integral to the success of oral rehydration therapy are active glucose transport in the

265 Oral rehydration therapy followed institutional protocols.

266 alternative strategies in which appropriate rehydration therapy for cholera is introduced preemptive

267 Oral rehydration therapy for the management of dehydration in

268 esses globally, but the introduction of oral rehydration therapy has reduced mortality due to diarrhe

269 Oral rehydration therapy has reduced the number of deaths fro

270 Antiemetics as an adjunct to oral rehydration therapy have been proven well tolerated, eff

271 agement of cholera with oral and intravenous rehydration therapy have reduced the case fatality of ch

272 rs new approaches that might supplement oral rehydration therapy in controlling diarrheal diseases.

273 d by glucose, and this is the basis for oral rehydration therapy in patients with secretory diarrhoea

274 s protecting against cholera exist, and oral rehydration therapy is an effective treatment method, th

275 Astrovirus, for which only rehydration therapy is required, should be considered as

276 In a situation with no available rehydration therapy suitable for the management of sever

277 ed on the treatment of dehydration with oral rehydration therapy, few studies have focused on the act

278 Despite guidelines endorsing oral rehydration therapy, intravenous fluids are commonly adm

279 ammes in family planning, immunisation, oral rehydration therapy, maternal and child health, tubercul

280 understanding of the cellular basis of oral rehydration therapy.

281 t disrupt intermolecular interactions during rehydration, this treatment should favor aggregation upo

282 By contrast, K(surf) declined with rehydration time but not with dehydration.

283 expression dynamics throughout a dehydration-rehydration time-course in six diverse genotypes of the

284 resent and analyze the hydration-dehydration-rehydration transcriptomes in B. argenteum to establish

285 Secondary outcomes included oral rehydration treatment and rapid diagnostic testing for m

286 , underweight, probability of receiving oral rehydration treatment of diarrhoea, and receiving vitami

287 sions of children with diarrhoea to the Oral Rehydration Unit of the Instituto de Salud del Nino in L

288 ly data on hospital admissions from the Oral Rehydration Unit, and meteorological data from the Peruv

289 ty of MLVs and OVA-encapsulating dehydration-rehydration vesicles (DRVs), but not of SUVs.

290 Post-rehydration viability decreased dramatically within the

291 Intravenous rehydration was administered to 43,413 of 232,706 childr

292 was reversed by charybdotoxin, implying that rehydration was delayed in some cells by the Ca(++)-acti

293 The calcium-mediated inhibition of rehydration was reversed by charybdotoxin, implying that

294 f liposomes after a cycle of dehydration and rehydration was studied using biotin-tagged, dye-loaded

295 To study rehydration, we subjected dense SSRBCs (rho > 1.107 g/cc

296 h possible nitrogen remobilization following rehydration, were markedly higher in S. lepidophylla.

297 unfolded in the dried solid aggregate during rehydration, whereas others refold.

298 ges in pectin composition during dehydration/rehydration which is suggested to affect cell wall prope

299 f LDH, CRP, and PSA levels was achieved post-rehydration while more than 90% recovery was accomplishe

300 ehydration, and after subsequent intravenous rehydration with saline (EX-REH).