ライフサイエンスコーパス: liberation

1 to its description as the 'paradox of pollen liberation'.

2 o be chosen carefully to maximise carotenoid liberation.

3 atter also supporting antiapoptotic molecule liberation.

4 tion of intermediate (hypohalous acid [HOX]) liberation.

5 wind-gust aerodynamic models of fungal-spore liberation.

6 inositol 1,4,5-trisphosphate-mediated Ca(2+) liberation.

7 supporting physiological regulation of DIII liberation.

8 SC49992 blocked ADP-induced arachidonic acid liberation.

9 ensory neurons inhibits TRPM3 via Gbetagamma liberation.

10 omoted linker breakdown resulting in prodrug liberation.

11 switch controlling EstA-assisted sialic acid liberation.

12 ng had no or a negative effect on carotenoid liberation.

13 programs (86%) had protocols for ventilation liberation, 66 (73%) for sedation management, and 54 (60

14 ional team rounds, which incorporate the ICU Liberation ("A" for Assessment, Prevention, and Manage P

15 team rounds can be optimized to increase ICU Liberation adherence.

16 allow faster and more successful anaesthetic liberation after refractory status epilepticus.

17 ceptor (GPCR) signaling events lead to IP(3) liberation, although its importance in transducing the h

18 he sheddase ADAM17, which is responsible for liberation and activation of EGFR ligands.

19 he in vitro digestion unraveled the enhanced liberation and bioaccessibility of zeaxanthin from these

20 econdary analyses confirmed the simultaneous liberation and consumption of acetate during mucin degra

21 Liberation and cyclization of SFTI-1, however, was ineff

22 Characteristic signs of pigment liberation and deposition throughout the anterior segmen

23 conditioning dentine slices on growth factor liberation and DPSC behavior.

24 antagonist) each prevented E2-induced HB-EGF liberation and ERK activation.

25 ion and fat type on lutein and beta-carotene liberation and in vitro accessibility from spinach were

26 Lutein liberation and in vitro accessibility were three-fold hi

27 wo previously proposed mechanisms, enzymatic liberation and mechanical force.

28 ding and induced apoptosis partially through liberation and reactivation of FOXO3a.

29 in the refining stage by effective materials liberation and separation are proposed as potential impr

30 Liberation and subsequent biodegradation of the 8:2 fluo

31 radical-mediated mechanism facilitating iron liberation and the production of the tetrapyrrole produc

32 2) activation, resulting in arachidonic acid liberation and thromboxane A(2) generation.

33 Its liberation and transfer to an unsaturated organic molecu

34 rt a dual role for cleavage of Rad9: (1) the liberation and translocation of the BH3 domain-containin

35 xpectations from the Fenn effect that energy liberation (and acto-myosin ATPase rate) in muscle are i

36 reexisting kidney disease, failed ventilator liberation, and acute kidney injury +/- hemodialysis req

37 to plasma kallikrein, leading to bradykinin liberation, and degrades angiotensin II.

38 Severe sepsis, difficult ventilator liberation, and prolonged mechanical ventilation are ass

39 Documentation of ICU Liberation Bundle elements in the Electronic Health Reco

40 nterprofessional team rounds that foster ICU Liberation Bundle use support both care coordination and

41 in the ICU is a key strategy to support ICU Liberation Bundle use.

42 Thus, ADP-induced arachidonic acid liberation, but not subsequent conversion to thromboxane

43 use of synthetic therapeutics, thus peptide liberation by lactic acid bacteria and probiotics has re

44 the Society of Critical Care Medicine's ICU Liberation Campaign, reviewed the pertinent literature t

45 The ICU Liberation Collaborative is a real-world quality improve

46 with changes in NEFA, consistent with their liberation during adipose lipolysis.

47 s is suggested to have major impact on their liberation efficiency from the food matrices.

48 rce but also acts as a cocatalyst for the H2 liberation, enabled by conformational flexibility of the

49 inergic receptor stimulation resulting in AA liberation for PGE(2) formation.

50 n can be accomplished on a time-scale of ion liberation from a droplet in the ESI ion source.

51 The liberation from a mechanical ventilator at 3 months was

52 irst demonstration of photochemical enediyne liberation from a metal complex has led to a new class o

53 Steaming significantly improved lutein liberation from Asia salads, but had no or a negative ef

54 rgic subjects and allergen-induced histamine liberation from basophils in allergic donors.

55 H 9.5, the rate enhancement of p-nitrophenol liberation from BNPP relative to background hydrolysis i

56 bZIP28 to be crucial for its processing and liberation from Golgi bodies.

57 ly binds to the NF-kappaB RelA subunit after liberation from IkappaBalpha inhibitor leading to its ub

58 The median time to liberation from mechanical ventilation after respiratory

59 nship between patient characteristics and a) liberation from mechanical ventilation and b) survival.

60 al patient needs, leading to more successful liberation from mechanical ventilation and improved surv

61 nts often receive sedatives, which may delay liberation from mechanical ventilation and intensive car

62 se; and protocol use as having protocols for liberation from mechanical ventilation and lung protecti

63 Interventions that lead to earlier liberation from mechanical ventilation can improve patie

64 guideline addresses six questions related to liberation from mechanical ventilation in critically ill

65 s evidence-based recommendations to optimize liberation from mechanical ventilation in critically ill

66 Reintubation after liberation from mechanical ventilation is viewed as an a

67 arge destination among survivors, successful liberation from mechanical ventilation while in hospital

68 death during hospitalization and successful liberation from mechanical ventilation.

69 associated with delirium, coma, and delayed liberation from mechanical ventilation.

70 ble evidence relevant to key questions about liberation from mechanical ventilation.

71 The panel provides recommendations regarding liberation from mechanical ventilation.

72 ing spontaneous breathing trials resulted in liberation from mechanical ventilatory support before an

73 intermediate (Fe-NH2NH2(+)) en route to NH3 liberation from N2.

74 ive Ikkgamma(-/-) cells, RSV induced RelA by liberation from p100 complexes.

75 Fat addition increased beta-carotene liberation from raw and steamed puree, but reduced lutei

76 Butter addition led to a 2.5 fold increased liberation from raw spinach puree, while the effect of o

77 This release occurs due to NO liberation from S-nitrosothiols.

78 heat treatments on lutein and beta-carotene liberation from spinach and Asia salads by applying an i

79 itors, thereby potentially retarding glucose liberation from starches and alleviation of postprandial

80 om raw and steamed puree, but reduced lutein liberation from steamed leaves and raw puree.

81 The suppressive activity of YbcL requires liberation from the bacterial periplasm, though the mech

82 Thus, upon liberation from the complex, the positive regulator NasT

83 ocytes and numerous other cells after Ca(2+) liberation from the endoplasmic reticulum (ER).

84 re local Ca(2+) signals that arise by Ca(2+) liberation from the endoplasmic reticulum through concer

85 re local Ca(2+) signals that arise by Ca(2+) liberation from the endoplasmic reticulum through the co

86 e receptors (IP3Rs) control localized Ca(2+) liberation from the endoplasmic reticulum to generate re

87 health benefits depend among others on their liberation from the plant matrix.

88 eceptor signaling pathways, impaired calcium liberation from the sarcoplasmic reticulum, and impaired

89 atients but had greater difficulty achieving liberation from the ventilator and being discharged from

90 ssociated with worse outcomes and may hasten liberation from the ventilator and from ICU.

91 kers were assessed to ensure their efficient liberation from their parent proteins.

92 ortality was 31% [26-37] vs 18% [14-24]; and liberation from ventilation was 47% [42-51] vs 63% [59-6

93 sufficient to achieve, consistent and timely liberation from ventilator support.

94 ventilation, increasing the risk for failed liberation from ventilatory support.

95 he products of the nine ptl (pertussis toxin liberation) genes.

96 ress allowing kinetic monitoring of glycerol liberation has facilitated substrate profiling of the hu

97 These two modes of IP(3)-mediated Ca(2+) liberation have important implications for downstream si

98 ce inositol triphosphate (IP3)-mediated Ca2+ liberation in nonexcitable cells.

99 trans-cyclooctenes, affording efficient drug liberation in plasma and cell culture.

100 ate enzymatic reactions associated with P(i) liberation in real-time for adenosine triphosphate (ATP)

101 ctivity emerge during successful anaesthetic liberation in status epilepticus; these findings are abs

102 and Petit Verdot pomace suppressed TNF-alpha liberation in vitro.

103 transfer of the drugs across FLM and gradual liberation into acceptor solution (30-240 s).

104 protein is removed from epithelial cells by liberation into the surrounding milieu.

105 The inferred enzymatic mechanism for DMS liberation involves an initial step in which DMSP is mod

106 ICU liberation is an extensive program designed to facilitat

107 Oxidation by water with H(2) liberation is highly desirable, as it can serve as an en

108 bin, induced vaso-occlusion, indicating heme liberation is necessary.

109 iduals; our data suggest the timing of spore liberation may be finely tuned to maximize fitness durin

110 vailable organic matter and led to increased liberation of "old" (6855 +/- 120 years BP) refractory c

111 nine decarboxylase (SAMdc), were measured by liberation of ((14)CO(2))(.) Migration was assessed in c

112 ole-derived analogue with CuBr(2) results in liberation of 3-(pyridin-2-yl)-1H-indole.

113 ron of the [4Fe-4S] cluster, with subsequent liberation of 5'-dAdo*.

114 No liberation of [(33)P]phosphate is observed from the gamm

115 ion in two ways: release of amyloid-beta and liberation of a bioactive carboxyl-terminal domain from

116 The synthetic strategy used--liberation of a borylene ligand from a transition metal

117 sequelae can be rationalized by invoking the liberation of a common, diffusible, reactive chemical in

118 ity in enzymatic digestion efficiencies, the liberation of a mass-labeled leucine monomer from an oct

119 radation of the TOP2 protein, leading to the liberation of a protein-free DSB.

120 Subsequent liberation of a second equivalent of p-nitrophenol from

121 ng to a 1,4-elimination of the carbamate and liberation of a secondary amine.

122 The AVP-induced liberation of AA from A-10 cells was selectively inhibit

123 o us that cPLA(2) is not responsible for the liberation of AA to be converted into PGE(2) by F. tular

124 C-H and C-O bonds of the benzylimidates with liberation of alcohols as the only byproduct.

125 ucture calculations, elemental analyses, and liberation of ammonia after treatment with water.

126 or basement membrane proteoglycan and in the liberation of an anti-angiogenic factor.

127 ng steps, beginning with the recognition and liberation of an miRNA-containing precursor miRNA hairpi

128 ially deep in the peat profile, facilitating liberation of ancient carbon as CO2.

129 on of RAS pathway-dependent tumor growth and liberation of antitumor immune responses.

130 The synthesis of PGE2 begins with the liberation of arachidonic acid (AA) from membrane phosph

131 imiting step of eicosanoid generation is the liberation of arachidonic acid by phospholipase A2, and

132 pase A(2), a critical enzyme involved in the liberation of arachidonic acid from cellular membranes.

133 ion protocol was developed to facilitate the liberation of ARs from mango peels (Mangifera indica L.)

134 Further liberation of Bak specifically from the p53-activated Ba

135 s preceded by the release of Bak from Mcl-1, liberation of Bim from both Bcl-2 and Mcl-1, and the for

136 used to document the in vivo degradation and liberation of bioactive constituents in an s.c. rat impl

137 f GTP to EF-Tu is entropically driven by the liberation of bound water during the GDP- to GTP-bound t

138 which proteolyzes kininogen, leading to the liberation of bradykinin.

139 ow found a new activity of SPP that mediates liberation of C-terminal peptides.

140 imulation of IP(3) production and consequent liberation of Ca(2+) from the endoplasmic reticulum by i

141 ed increases in iCa(2+) are mediated via the liberation of calcium from intracellular stores, implica

142 The liberation of calcium ions sequestered in the endoplasmi

143 al accelerated long-term growth owing to the liberation of cancer stem cells and formation of self-me

144 he molecule and the carboxylic group and the liberation of carbon dioxide.

145 Herein we demonstrate for the first time the liberation of CH4 and NH3 from a well-defined iron cyani

146 onyl complexes is demonstrated by photolytic liberation of CO and subsequent intramolecular carbon-ca

147 nd potassium metabisulfite, also promote the liberation of CO from CORM-3.

148 siloxane, featuring two Co(II) centers, with liberation of CO; reaction of the silylene complex with

149 experiments indicated that AMPK leads to the liberation of cofilin from 14-3-3 protein.

150 l transitions were associated primarily with liberation of CoREST from promoters with transcriptional

151 of the proteolytic enzyme necessary for the liberation of daughter cells following mitosis.

152 Protonation of the hydrosilane followed by liberation of dihydrogen is key to success, fulfilling t

153 Using water as the oxygen donor with liberation of dihydrogen represents a safe and clean pro

154 lic acid group, and the actual oxidant, with liberation of dihydrogen.

155 o the corresponding nitriles and imines with liberation of dihydrogen.

156 styrene and naphthalene derivatives with the liberation of dihydrogen.

157 -O bond with concomitant O-atom transfer and liberation of dinitrogen.

158 DPP5 elaborately complemented DPP7 in liberation of dipeptides with hydrophobic P1 residues.

159 pecific requirement for IRF1 and GBPs in the liberation of DNA for sensing by AIM2 depending on the p

160 adation of trapped TOP2-cleavable complexes, liberation of DNA strand breaks, and repair of those bre

161 We suggest that the liberation of effector function is tightly controlled th

162 D scrambling in methanol without concomitant liberation of either methane or dihydrogen (k(H)/k(D) =

163 s, IB is a potent inhibitor of STAT5 through liberation of endogenous phosphatase activity following

164 sclerosis may provide a new strategy for the liberation of endogenous VEGF-C and the prevention of ly

165 ted that ubiquitination was required for the liberation of etoposide-induced protein-free DSBs and is

166 n at Met(469)-Thr(470), which results in the liberation of ezrin from the apical membrane of the pari

167 the cAMP-dependent protein kinase to promote liberation of fatty acids as a fuel source.

168 ows is best explained via microbially-driven liberation of Fe(II) from solid iron parent phases and p

169 mal condensed-phase sample, resulting in the liberation of free particles.

170 e antioxidant capacity of the extract by the liberation of gallic acid, while cellulose favours the l

171 estin-mediated signaling but rather involves liberation of Gbetagamma subunits and activation of calc

172 lactosidase was established by analyzing the liberation of GlcNAcalpha1-->4Gal from GlcNAcalpha1-->4G

173 tissue triacylglycerol stores results in the liberation of glycerol and nonesterified fatty acids tha

174 idence that cooling is further slowed by the liberation of gravitational energy from element sediment

175 The liberation of gravitational potential energy then bright

176 to form the Si-E bond (E = N, S, O) with the liberation of H2 (21 examples).

177 he absence of oxidants and is accompanied by liberation of H2, with water serving as a source of oxyg

178 nd (d) the geometric factors involved in the liberation of H2.

179 r mixing of the acid with the sample and the liberation of HCN.

180 ion of EGFR by E2 was dependent on the rapid liberation of heparin-binding EGF (HB-EGF) from cultured

181 y in older animals, likely because of slower liberation of hepatic lipid.

182 Thus, the liberation of HFA from PC seems to be critical for obtai

183 se As (PLAs) may be directly involved in the liberation of HFAs from PC, but the functions of their o

184 This inflammatory tissue damage causes the liberation of high concentrations of host heme at infect

185 Liberation of HMGB1, a nuclear protein that contributes

186 ce of dioxygen, result in the stoichiometric liberation of hydrogen peroxide, diminishing the perceiv

187 form bonds between main group elements with liberation of hydrogen, dehydrocoupling or dehydropolyme

188 atory cytokine interleukin 17A (IL-17A), and liberation of IL-17A was required for transmission of No

189 ease assay format, where the enzyme-mediated liberation of individual nanoparticles from a surface is

190 rine interface is likely to be important for liberation of intact islets.

191 We established that liberation of intracellular Ca(2+) with T cell receptor

192 The microextraction method is based on the liberation of iodine in the presence of selenium; the li

193 resulted in a three- to fourfold increase in liberation of lutein and beta-carotene when comparing wh

194 paration conditions and practices affect the liberation of lutein from food is not fully understood.

195 Thus, for optimal liberation of lutein, liquefaction of raw spinach appear

196 ated cap attached to RNA and resulted in the liberation of m7GDP.

197 ol(-1) K(-1) per nucleotide, which signifies liberation of manifold frozen degrees of freedom involve

198 lant development from seed and bud dormancy, liberation of meristematic cells from the quiescent stat

199 uitination in vitro and in vivo, inefficient liberation of Mga2p90 by Cdc48p(Npl4p/Ufd1p)in vitro, an

200 sly applied peptide precursors, we show that liberation of MHC I epitopes may directly require PC7.

201 decarbonylation of primary alcohols with the liberation of molecular hydrogen and carbon monoxide was

202 we propose that the exoglycosidase-dependent liberation of monosaccharides from these glycoconjugates

203 hip between commensal sialidase activity and liberation of mucosal sialic acid, a receptor and nutrie

204 one-electron reduction of 2 with C(8) K and liberation of N(2) and adamantane, the two silylene subu

205 Selective liberation of N-atoms from multiple commercial standards

206 sine triphosphate (GTP)ase implicated in the liberation of nascent vesicles from the plasma membrane

207 However, the uncontrolled or excessive liberation of NETs also damages surrounding cells and ca

208 The liberation of NF-kappaB dimers from inhibitors of kappaB

209 the destruction of IkappaB proteins and the liberation of NF-kappaB to enter the nucleus and activat

210 new structural architecture for the tunable liberation of nitrite and nitric oxide from organic comp

211 times faster than the primary nitrate, with liberation of nitrite.

212 fungi commonly participate in the enzymatic liberation of nitrogen (N) from soil organic matter (SOM

213 oteins, leading to their degradation and the liberation of nuclear factor kappaB for gene transcripti

214 ted activation of Galphai caused concomitant liberation of NuMA from LGN.

215 of gallic acid, while cellulose favours the liberation of p-coumaric acid and malvidin-3-O-glucoside

216 M1 and 7SK snRNA, implicating the PID in the liberation of P-TEFb from the 7SK small nuclear ribonucl

217 We found that liberation of p53 through chemical antagonism of one of

218 parasitophorus vacuolar membranes (PVM); and liberation of parasites enclosed within the vacuole from

219 Bioamplification means the liberation of persistent lipophilic organic pollutants (

220 icated, or if air leakage occurred after the liberation of pleural adhesions.

221 d to destruction of epithelial cells and the liberation of potential nutrients for the bacterium.

222 diation that was attributed to the increased liberation of precursor linolenic acid mainly from monog

223 Liberation of presynaptic Gbetagamma causes substantial

224 sidue model (CRM) is favored; it entails the liberation of proteins via solvent evaporation to drynes

225 sfer in the protonation step, leading to the liberation of protonated alkene products.

226 of the transmembrane domains that avoids the liberation of protons from cells to stomach.

227 mmatory gene expression independently of the liberation of RAGE ligands or the ligand-binding ectodom

228 etinal revascularization in part through the liberation of repulsive guidance cue semaphorin 3A (Sema

229 inhibition of rRNA transcription and, thus, liberation of RNA polymerase for binding to other promot

230 T cell-specific signal for the induction and liberation of sFasL.

231 The system, which is based on liberation of sgRNAs by processing flanking tRNAs, permi

232 These data implicate dermal liberation of specific chemokines in the recruitment of

233 ions may serve as check-points preceding the liberation of srRNA1.

234 gastrointestinal tract greatly depend on the liberation of sugar moieties.

235 de renders the growth factor latent, and the liberation of TGF-beta from this state is crucial for si

236 yclic heterocyclic products was coupled with liberation of the active catalyst.

237 hosphonate prodrugs to bone and slow release liberation of the active constituents in vivo.

238 us solvents and in thin films results in the liberation of the alcohol moiety from the ester.

239 IBAL-H), hydrolysis of the oxazolidine ring, liberation of the amino group, and installation of the N

240 hat Fe65 stimulates gamma-secretase-mediated liberation of the APP intracellular domain (AICD).

241 Liberation of the contact ion pair through displacement

242 ure for the removal of the BF(2) moiety, and liberation of the corresponding free-base dipyrrin.

243 t also in a paracrine manner via proteolytic liberation of the EGF-like domain.

244 ne disrupts neuronal calcium homeostasis via liberation of the endoplasmic reticulum (ER) store and i

245 IR, support a N2 fixation mechanism in which liberation of the first NH3 occurs upon delivery of five

246 Oxidative decomplexation of 14 results in liberation of the free oxabicyclo[3.2.0]heptadiene 15, w

247 tion of the autoinhibitory prodomain and the liberation of the functional activity of the emerging en

248 is transformation cannot be recycled because liberation of the homologated product destroys the compl

249 CRISPR sgRNA sequence which enables in vivo liberation of the homology arms.

250 major shedding protease, responsible for the liberation of the inflammatory cytokine TNFalpha and lig

251 e (Zea mays ssp. mays) domestication was the liberation of the kernel from the hardened, protective c

252 the sp(3)-sp(3) carbon-carbon bond with the liberation of the ketone.

253 he number average molecular weight (M(n)) or liberation of the maleimide, furan, or anthracene moieti

254 ient cell killing by BCNU as a result of the liberation of the more potent inactivators, O(6)-benzylg

255 canonical Notch pathway involves proteolytic liberation of the Notch-1 intracellular domain (NIC-1),

256 0.1 M NaCl and 1% (v/v) Triton X-100 caused liberation of the Ru(bpy)32+ from the liposome.

257 Liberation of the sequestrated bioactive molecules from

258 to the inactivation of AAT, to the follow-up liberation of the Ser protease activity, and because of

259 endothermic and entropically favored by the liberation of the solvent molecules.

260 In contrast, slow codons lead to slow liberation of the start codon by initiating ribosomes, t

261 or gamma-secretase activity, indicating that liberation of the tyrosine kinase intracellular domain (

262 Therefore, the DNA-binding capability and liberation of the YtgR domain from a membrane-anchored p

263 The liberation of these fragments in the muscle microenviron

264 /LAG-3 receptors because of a sepsis-induced liberation of tumor Ags.

265 y decoded in the hypothalamus by proteolytic liberation of uroguanylin, inducing GUCY2C signaling and

266 The median time from liberation of vasopressors to recovery of platelets conc

267 dysfunction, virus clearance, and shortened liberation of ventilator and ventilator days.

268 As expected, cooking enhanced the production/liberation of volatile compounds.

269 iator of mechanotransduction by inducing the liberation of VWF, thereby initiating the multistep infl

270 tonitriles using secondary alcohols with the liberation of water as the only byproduct is reported.

271 luorescence zinc indicator, demonstrated the liberation of zinc from intracellular stores by peroxyni

272 intracellular zinc release demonstrated the liberation of zinc from intracellular stores by peroxyni

273 tioned near the start of the coding region, 'liberation' of the initiation codon for loading of the n

274 V) is required for optimal bacteriorhodopsin liberation on the FT-ICR, in comparison to the Q-ToF and

275 dependent extraction and resort to enzymatic liberation only if mechanical forces fail to retrieve an

276 nach samples, possibly due to differences in liberation or degradation between the two plant matrices

277 e literature that led to the creation of ICU liberation philosophy and to explain how this patient- a

278 ositol trisphosphate (IP(3))-mediated Ca(2+) liberation posits that cell-wide cytosolic Ca(2+) signal

279 y mobilization, be managed with a ventilator liberation protocol, be assessed with a cuff leak test i

280 ated to rehabilitation protocols, ventilator liberation protocols, and cuff leak tests.

281 f basalt and other magmatic rocks, at copper liberation rates up to 300 times that of typical graniti

282 ions specifically disrupt intracellular Ca2+ liberation rather than reduce cytosolic Ca2+ buffering o

283 an important role in assisting the hydrogen liberation steps involved in amine dehydrogenation.

284 protein profiling without labeling or glycan liberation steps.

285 e spores to move across landscapes and spore liberation takes different patterns.

286 Albumin liberation, testosterone metabolism, and P450 induction

287 decomposition by benzyne formation and Li-F liberation, than the Ga-C(aryl) species.

288 Ca2+ liberation through inositol 1,4,5-trisphosphate receptor

289 Ca2+ liberation through inositol 1,4,5-trisphosphate receptor

290 n ER Ca(2+) store content, by imaging Ca(2+) liberation through inositol trisphosphate receptors (IP(

291 ing chain that includes the steps from waste liberation through materials refining.

292 ed that oxidant-induced intraneuronal Zn(2+) liberation triggers a syntaxin-dependent incorporation o

293 average time from tracheostomy to ventilator liberation was 11.8 days +/- 6.9 days (range 2-32 days).

294 The final liberation was carried out under slightly acidic conditi

295 ayed inhibition, whereas IP(3)-evoked Ca(2+) liberation was potentiated by Ca(2+) entry during action

296 Results for beta-carotene liberation were similar, whereas that of beta-carotene a

297 xisting kidney disease and failed ventilator liberation, were measured at the time the patients met c

298 eration in MS lesions leads to waves of iron liberation, which may propagate neurodegeneration togeth

299 on from amines and water with concomitant H2 liberation with no added oxidant, catalyzed by a well-de

300 ered in MS patients' brains, suggesting iron liberation within active lesions amplifies demyelination