ライフサイエンスコーパス: PEM

1 PEM acquisition geometry limits sampling statistics at t

2 PEM and bacteria deposition, and heavy metal influence,

3 PEM and MR imaging had comparable breast-level sensitivi

4 PEM decreased maternal and fetal urea concentration, whi

5 PEM had greater specificity at the breast and lesion lev

6 PEM had little measureable effect on maternal and fetal

7 PEM microchambers "cap" and "wall" thickness depend on t

8 PEM was used to map SVs in an African and in a putativel

9 PEM, the percentage of 2.5-second intervals containing p

10 PEMs from MARCO-deficient mice exhibited 2.7 times lower

11 Thirty patients received 2 PEM scans at postinjection times of 60 and 120 min.

12 The stereotactic technique used 2 PEM images acquired at +/-15 degrees and a new trigonome

13 used a 5-point confidence scale to score 232 PEM images for the presence of up to 3 malignant lesions

14 f sodium dodecyl sulfate (SDS) bilayers in a PEM comprising poly(diallyldimethylammonium chloride) (P

15 ssembly (MEA)-the power generation unit of a PEM fuel cell-or when PGM-free catalysts are integrated

16 on, the host HQ was used to directly power a PEM fuel cell.

17 alyst directly onto a perfluorosulfonic acid PEM.

18 All PEMs were above the sixth-grade level when the societies

19 ombe epistasis mapper' strategies, PEM-1 and PEM-2, which allow for high-throughput double mutant gen

20 ounts, while the PEM assembled at pH = 5 and PEM with no FGF2 showed increased spreading.

21 inverse relation between cardiac output and PEM severity.

22 IVO, IPI, NIVO + IPI, PEM every 2 weeks, and PEM every 3 weeks.

23 ces in optimizing both cathode materials and PEMs as well as the future and peculiar challenges assoc

24 ourteen (3.6%) women had tumors seen only at PEM.

25 compared head to head with a platinum-based PEM under the same operating conditions (400 psi, 50 deg

26 e alterations observed in the tumor-bearers' PEM.

27 Therefore, identifying relationships between PEM properties, water transport, and proton conductivity

28 calculated for PET/CT patients, and PUV/BGV (PEM uptake value/background value) was calculated for PE

29 In both PEM and J774 cells, mRNA expression of the anti-apoptoti

30 crophages from NO-mediated apoptosis in both PEM and J774 cells.

31 of the 82 breasts were identified with both PEM and MR imaging; 21 (26%) breasts, with MR imaging on

32 e women, by only PEM findings in one, and by PEM and MR findings in five.

33 by MR imaging and 47 (41%) were depicted by PEM (P = .043).

34 itive predictive value of biopsy prompted by PEM findings (47 [66%] of 71 cases) was higher than that

35 The CD235a(+)/CD41a(+) PEM population constitutes up to 13% of the expansion cu

36 In our series of comparisons, PEM presented a greater overall efficacy compared to PCF

37 f operating conditions of these conventional PEM materials, mesoporous functionalised SiO(2) additive

38 In comparison to conventional PEM, use of a novel Ca(2+) pre-coating step enhanced bet

39 to overcome the limitations of conventional PEMs.

40 Advancing high-current PEM water electrolysis (PEMWE) is crucial for terawatt-s

41 ic methods of patterning and controlling 3-D PEM architectures and selective particle depositions.

42 Conversely, SR-AI/II-deficient PEMs produced 2.4 and 1.8 times more IL-12 than wild-typ

43 study suggests the feasibility of a low-dose PEM system in helping to detect invasive breast cancer.

44 A double-PEM solid electrolyte reactor was further developed to r

45 This quantitative understanding will drive PEM design efforts towards optimal membrane transport, t

46 bes the analytical procedure employed during PEM-Tropics B.

47 00 samples were analyzed for 34 gases during PEM-Tropics A, over 4,500 samples were analyzed for 58 g

48 00 samples were analyzed for 58 gases during PEM-Tropics B.

49 boys and 3 girls aged 6-15 mo with edematous PEM and infection approximately 3 d after admission (stu

50 We assessed whether children with edematous PEM can mount a general APP response and compared the ki

51 APPs was less in the children with edematous PEM than in those with nonedematous PEM.

52 s of the response in children with edematous PEM with those in children with nonedematous PEM.

53 were measured in 14 children with edematous PEM, aged 11.4 +/- 2 mo, and 9 children with nonedematou

54 mall molecules, and hence a highly efficient PEM for practical applications.

55 ated GO can be built into a highly efficient PEM with a proton transfer rate of seven orders of magni

56 Elevated PEM during sleep may represent a functional window into

57 After 2 days, the FGF2-eluting PEM conditions showed improved cell count and spreading.

58 ore, the addition of exogenous IL-2 enhanced PEM Treg phosphorylated STAT5 signaling compared with PE

59 ork is to clarify the origin of the enhanced PEM-FC performance of catalysts prepared by the procedur

60 variants that are refractory to established PEM-based methods.

61 However, fabricating PEMs on viable cells has proven challenging owing to the

62 ransfer in polyelectrolyte multilayer films (PEM), as well as between biomolecules and redox centres,

63 mbrane and catalyst layer than standard flat PEMs.

64 R imaging and fluorine 18 fluorodeoxyglucose PEM in randomized order; resultant images were interpret

65 ially available polidocanol injectable foam (PEM, Varithena) and physician-compounded foams (PCFs).

66 For PEM, the tumor volume with (64)Cu-TP3805 was 113% +/- 37

67 e value/background value) was calculated for PEM patients.

68 Similarly, RH was larger for PEM (6.85 +/- 0.34 mm) than CEM (5.69 +/- 0.26 mm).

69 Mean LWT for PEM was 1.71 +/- 0.12 mm, and for CEM, 1.57 +/- 0.07 mm

70 ycinate) was used as the anionic polymer for PEM coating.

71 r the first hour, the FGF2 concentration for PEMs assembled at pH = 4 ranged from 2.67 ng/mL to 5.76

72 s layering approaches currently employed for PEMs, reducing the production time from ~2 days down to

73 ffusivity invokes a new design principle for PEMs.

74 currently-employed microcontact printing for PEMs.

75 ged from 2.67 ng/mL to 5.76 ng/mL, while for PEMs assembled at pH = 5, the concentration ranged from

76 All 3 LLMs generated PEMs that were of high quality, understandability, and a

77 Higher PEM rates were seen in patients with symmetric disease,

78 Men had higher PEM relative to women.

79 pied and favors the formation of homogeneous PEM.

80 Understanding how PEM structure and morphology relate to mobile species tr

81 e useful as a marker for isolating the human PEM gene, which has been impervious to cloning by conven

82 ne quinone redox flow battery and a hydrogen PEM fuel cell.

83 We demonstrated that silver-impregnated PEMs can be nondestructively immobilized onto the surfac

84 ndicate that immobilizing silver-impregnated PEMs on the wound-contact surface of Biobrane significan

85 In PEM, A1 expression was maximal by 8 h postinfection and

86 BCG-mediated protection was abrogated in PEM derived from A1-a(-/-) mice, indicating a requiremen

87 PAR mRNA or protein or both were apparent in PEM from transgenic and control mice, even at a ratio of

88 Key applications in PEM have been investigated in the recent publications.

89 Change in PEM activity was assessed in all 4 patients treated with

90 nesulfonate) (PSS) resulted in a decrease in PEM thickness, increase in pore size, and a smoother and

91 rstanding of tunable shape-memory effects in PEM materials.

92 orm displayed the greatest fold induction in PEM.

93 t principles calculations for ORR and OER in PEM based systems.

94 el cells, oxygen evolution reaction (OER) in PEM based water electrolysis and metal air batteries rem

95 mutant BMDMs and only partially impaired in PEMs after LPS stimulation.

96 to mitigate reactive oxygen species induced PEM degradation was demonstrated.

97 at was readily integrated into an industrial PEM electrolyser fabrication process.

98 ences with first-line NIVO, IPI, NIVO + IPI, PEM every 2 weeks, and PEM every 3 weeks.

99 ulating the PE deposition mass and layering, PEM membranes with tunable pore radii (0.40-0.56 nm) and

100 BRAF wild-type advanced melanoma, first-line PEM every 3 weeks followed by second-line IPI or first-l

101 We conclude that beta-peptide-loaded PEMs offer a novel and promising approach to kill C. alb

102 d suppression than the more distally located PEM.

103 n with LPS, peritoneal-elicited macrophages (PEM) from mammary tumor-bearing mice display a diminishe

104 ride (LPS), peritoneal-elicited macrophages (PEM) from mice bearing mammary tumors display alteration

105 nt in murine peritoneal exudate macrophages (PEM) and the J774 macrophage cell line.

106 Peritoneal exudate macrophages (PEM) from CD14- or TLR2-deficient mice were not defectiv

107 Peritoneal macrophages (PEM) are derived from circulating monocytes and recruite

108 oglycollate-elicited peritoneal macrophages (PEMs) with immobilized mAb costimulated IL-12 production

109 an elevated risk of post-exertional malaise (PEM), an acute exacerbation of symptoms and other relate

110 Post-exertional malaise (PEM), defined as the exacerbation of the patient's sympt

111 hrough to fetal protein-energy malnutrition (PEM) and compromised fetal kidney development.

112 loss induced by protein-energy malnutrition (PEM) has been well documented, it is unclear whether the

113 Protein energy malnutrition (PEM) increases susceptibility to infectious diseases, in

114 ed in edematous protein-energy malnutrition (PEM) than in nonedematous PEM.

115 nd the edema of protein-energy malnutrition (PEM) were investigated by measuring the plasma concentra

116 Protein energy malnutrition (PEM), a common cause of secondary immune deficiency in c

117 a commercial positron emission mammography (PEM) camera, the PEM Flex Solo II.

118 rpretation of positron emission mammography (PEM) images and compared image interpretation between 2

119 Positron emission mammography (PEM) is a technique to obtain planar images of the breas

120 T and 13 with positron emission mammography (PEM).

121 g (BSGI), and positron emission mammography (PEM).

122 Protein expression map (PEM) analysis, an open-ended two-dimensional polyacrylam

123 h-throughput and massive paired-end mapping (PEM), a large-scale genome-sequencing method to identify

124 primarily based on paired-end read mapping (PEM) as reported previously by Tuzun et al. and Korbel e

125 is is a criterion for proembryogenic masses (PEMs) to passage into early embryogeny.

126 aliana, yellow poplar proembryogenic masses (PEMs) were transformed with three modified merA construc

127 erstand written patient education materials (PEMs).

128 Maternal PEM specifically impacts the fetal ornithine cycle, affe

129 construct a position-specific energy matrix (PEM) that allowed a reliable prediction of ArcA-P bindin

130 EM) and partial edentulous atrophic maxilla (PEM).

131 the ability of pediatric emergency medicine (PEM) physicians to perform a wide array of diagnostic an

132 logists are paranoid egalitarian meliorists (PEMs).

133 scale 86 cm(2) polymer electrolyte membrane (PEM) electrolyser.

134 gradation in a polymer electrolyte membrane (PEM) fuel cell.

135 e conventional polymer electrolyte membrane (PEM) materials for fuel cell applications strongly rely

136 ies within the polymer electrolyte membrane (PEM) of an operating PEM fuel cell.

137 such as in acidic proton exchange membrane (PEM) electrolyzers and photoelectrochemical cells (PEC).

138 energies, such as proton exchange membrane (PEM) electrolyzers and solar photoelectrochemical (PEC)

139 nce of OER-related proton exchange membrane (PEM) electrolyzers, ORR-related PEM fuel cells, NRR-driv

140 In a mainstream proton exchange membrane (PEM) fuel cell, platinum-group-metal (PGM)-based catalys

141 e devices, such as proton-exchange membrane (PEM) fuel cells (PEMFCs) and redox flow batteries (RFBs)

142 AAEM fuel cells to proton-exchange membrane (PEM) fuel cells and elucidate the sources of various ove

143 reaction (ORR) in proton exchange membrane (PEM) fuel cells, oxygen evolution reaction (OER) in PEM

144 based materials in proton exchange membrane (PEM) fuel cells.

145 ORR) catalysts for proton exchange membrane (PEM) fuel cells.

146 fuel cells a novel proton exchange membrane (PEM) using inorganic phosphotungstic acid (HPW) as proto

147 e catalyst and the proton exchange membrane (PEM), have proven to be particularly demanding to overco

148 m with Nafion as a proton exchange membrane (PEM).

149 of cost-efficient proton-exchange membranes (PEM) for electrochemical devices.

150 Polymer electrolyte membranes (PEMs) for fuel cells have been synthesized from easily p

151 dely used polymer for electrolyte membranes (PEMs) in fuel cells, consists of a fluorocarbon backbone

152 Polymer electrolyte membranes (PEMs) selectively transport ions and polar molecules in

153 M), ionomers, polymer electrolyte membranes (PEMs), and electrode structures designed for use in next

154 he fabrication of proton exchange membranes (PEMs) for fuel cells is of great significance.

155 within fuel-cell proton-exchange membranes (PEMs).

156 , using the phasic electromyographic metric (PEM), in relation to clinical features of idiopathic Par

157 n inherent in prediction error minimization (PEM).

158 acquired for the NASA-sponsored GTE missions PEM-Tropics A and B.

159 riable in most production efficiency models (PEMs).

160 With a photoelastic modulator (PEM) integrated into an infrared spectrometer, the diffe

161 A polyelectrolyte multilayer (PEM) approach using alginate and poly-l-lysine was emplo

162 ssemblies in the polyelectrolyte multilayer (PEM) can lead to significant performance enhancement of

163 A polyelectrolyte multilayer (PEM) coating consisting of the polypeptide, poly(l-lysin

164 modified using a polyelectrolyte multilayer (PEM) coating procedure in open-tubular capillary electro

165 oped by use of a polyelectrolyte multilayer (PEM) coating procedure.

166 ayer assembly of polyelectrolyte multilayer (PEM) films represents a bottom-up approach for re-engine

167 x (PPC) within a polyelectrolyte multilayer (PEM) was developed as the test line by complexing polyst

168 or coated with a polyelectrolyte multilayer (PEM).

169 e compared with polyelectrolyte multilayers (PEM) thin films having array of hollow microchambers pro

170 itosan-alginate polyelectrolyte multilayers (PEM) with and without adsorbed Br(2)Y were analyzed by l

171 nanometer-thick polyelectrolyte multilayers (PEMs) impregnated with silver nanoparticles have been sh

172 Photoreactive polyelectrolyte multilayers (PEMs) that dissolve upon UV irradiation are described.

173 port the use of polyelectrolyte multilayers (PEMs) to alter the surface charge and control the direct

174 e, we have used polyelectrolyte multilayers (PEMs) to alter the surface of microchannels fabricated i

175 molecules onto polyelectrolyte multilayers (PEMs).

176 le, nanoscale 'polyelectrolyte multilayers' (PEMs) on the luminal surfaces of flexible catheters, and

177 Children with edematous and nonedematous PEM had higher plasma concentrations of 4 of 5 APPs in p

178 ergy malnutrition (PEM) than in nonedematous PEM.

179 4 +/- 2 mo, and 9 children with nonedematous PEM, aged 10.1 +/- 1.4 mo, at 3 times: approximately 2 d

180 dematous PEM than in those with nonedematous PEM.

181 PEM with those in children with nonedematous PEM.

182 Pretreatment of normal PEM with PGE2 or recombinant GM-CSF had negligible effec

183 Novel PEM coated cells were shown to secret significantly (P <

184 s work presents a 3D culture model and novel PEM coating procedure that enhances viability, maintains

185 f these catalysts measured at 0.8 V in H2/O2 PEM-FC.

186 the first successful in vivo application of PEM-engineered cells, which maintained viability and fun

187 d scientific and technological challenges of PEM based acid mediated electro-catalysts.

188 indicated superior physical cohesiveness of PEM compared to PCFs.

189 d to be higher compared to those composed of PEM.

190 ssue significantly limits the development of PEM fuel cells.

191 static forces, and caused the dissolution of PEM films.

192 We investigated the influence of PEM on susceptibility to, and immune responses following

193 s have addressed the potential influences of PEM on the immunogenicity and protective efficacy of avi

194 Integration of PEM and MR imaging increased cancer detection-to 61 (74%

195 and "wall" thickness depend on the number of PEM bilayers, while the "cap" and "wall" of the PEC micr

196 or dramatically enhancing the performance of PEM NF membranes.

197 few studies have addressed the relevance of PEM as a risk factor for influenza.

198 We investigated the role of PEM on vaccine-mediated protection after a lethal challe

199 hould be included in standardized testing of PEM systems.

200 Only six (6%) of PEMs achieved the recommended guidelines for readability

201 t the rational engineering of a new class of PEMs with modular biological functionality and tunable p

202 ere used as carriers for in vivo delivery of PEMs containing biomolecular payloads.

203 disruption and facilitates the deposition of PEMs on cell surfaces that are tailorable in composition

204 nal Institutes of Health, the readability of PEMs in intensive and critical care societies is relativ

205 to assess the readability and suitability of PEMs.

206 CRL-2352 fibroblasts were cultured on PEMs assembled at pH = 4 and pH = 5.

207 he created m-dPEG acid monolayer patterns on PEMs act as resistive templates, and thus further deposi

208 The patterned SAMs on PEMs were created by ionic interactions using microconta

209 Online PEMs on major ophthalmologic association websites are wr

210 Online PEMs were sourced from websites of national organization

211 ptive statistics were used to compare online PEMs by organization based on national guidelines for re

212 One hundred online PEMs were evaluated from websites of 16 professional org

213 Three hundred thirty-nine online PEMs were assessed.

214 The majority of online PEMs designed for people with AMD were written above the

215 and suitability (appropriateness) of online PEMs designed for people with AMD.

216 d by only MR findings in five women, by only PEM findings in one, and by PEM and MR findings in five.

217 ntact printing of m-dPEG acid molecules onto PEM films to determine the optimal conditions for these

218 icient transfer of m-dPEG acid patterns onto PEMs.

219 r electrolyte membrane (PEM) of an operating PEM fuel cell.

220 ductivity is essential for designing optimal PEMs.

221 A single BSGI or PEM study is associated with a fatal radiation-induced c

222 rmation of three-dimensional (3-D) patterned PEM films or selective particle depositions atop the ori

223 he formation of three-dimensional, patterned PEMs with high fidelity, micron-scale features by using

224 immune checkpoint inhibitors-pembrolizumab (PEM), nivolumab (NIVO), and ipilumumab (IPI)-demonstrate

225 apabilities of a novel method for performing PEM-guided stereotactic breast biopsies.

226 yses indicate that both elicited peritoneal (PEMs) and bone marrow-derived macrophages (BMDMs) from t

227 to maximize the proton conductivity in PFSA PEMs.

228 five different perfluorosulfonic acid (PFSA) PEMs.

229 Conclusion: PG-PEM is able to increase resolution and contrast while ro

230 ipotent erythrocyte-megakaryocyte precursor (PEM) population, and a CID-independent macrophage popula

231 ChatGPT-4 generated the most readable PEMs compared to ChatGPT-3.5 and Bard (P <= .001).

232 ge membrane (PEM) electrolyzers, ORR-related PEM fuel cells, NRR-driven ammonia electrosynthesis from

233 The water permeance of the resulting PEM NF membrane increased by 100% without compromising t

234 Results PEM every 3 weeks followed by second-line IPI was both m

235 When subjects are in the fed state, severe PEM induces a marked reduction in whole-body protein syn

236 A corollary is that children with severe PEM do not mount a protein catabolic response to infecti

237 proton migration within the HPW-meso-silica PEM and to determine the mechanism of proton hopping, we

238 A single PEM study involving a labeled dose of 370 MBq (10 mCi) o

239 ore than 230 runs were performed on a single PEM-coated capillary.

240 In this approach, a stable PEM is constructed in situ by alternative rinses of the

241 innovative stress challenge that stimulates PEM.

242 ent two 'pombe epistasis mapper' strategies, PEM-1 and PEM-2, which allow for high-throughput double

243 rom mice bearing D1-DMBA-3 mammary tumors (T-PEM) are deficient in inflammatory functions and that th

244 Furthermore, T-PEMs have a lower expression of macrophage differentiati

245 ation, increased apoptosis was observed in T-PEMs.

246 Our results suggest that T-PEMs are less differentiated and represent a newly deriv

247 We now provide evidence that T-PEMs display neither M1 nor M2 phenotypes, yet exhibit d

248 Tailored PEMs allow for devices such as solid-state batteries,'ar

249 es of this water-binding and anion-tethering PEM enable enhanced electrochemical performance without

250 Studies have demonstrated that PEM providers are able to identify an array of diseases,

251 We have previously shown that PEMs from mice bearing D1-DMBA-3 mammary tumors (T-PEM)

252 The PEM coating is constructed in situ by alternating rinses

253 The PEM coating was constructed in situ with alternating rin

254 The PEM Flex camera should enable the functional imaging of

255 The PEM system consisted of 2 square (10 x 10 cm) arrays of

256 The PEM-coated capillary was remarkably robust with more tha

257 The PEM-coated microchannels have excellent wettability, all

258 whether the presence of infection alters the PEM-induced reduction in whole-body protein metabolism.

259 itron emission mammography (PEM) camera, the PEM Flex Solo II.

260 antification of whole air samples during the PEM-Tropics missions, along with an analysis of the anal

261 However, the PEM coating procedure used in the achiral studies needed

262 Minor differences in the PEM-Tropics A system will also be discussed.

263 artitioned into heterogeneous regions of the PEM and Overhauser dynamic nuclear polarization relaxome

264 Due to limitations of the PEM approach, some classes of CNVs are difficult to asce

265 luate the chromatographic performance of the PEM coating as a chiral stationary phase, the separation

266 ia mesoporosity, favouring rigid link of the PEM on the sensor and improving the device sensitivity.

267 fasciectomy with respect to the score on the PEM at 1 year after treatment.

268 stimated difference in the mean score on the PEM at 2 years was 7.2 points (95% CI, 4.2 to 10.9).

269 In previous studies, the PEM coating has been constructed by use of the cationic

270 Previous studies have shown that the PEM-coated capillaries used for achiral separations have

271 produce NO and lyse targets and, unlike the PEM, was not able to upregulate these functions even whe

272 Utilizing the PEM advantages incorporated into a custom-built QCL micr

273 condition had higher cells counts, while the PEM assembled at pH = 5 and PEM with no FGF2 showed incr

274 capture of ROS generated in situ within the PEM for a period of about 7 h and the incorporation of C

275 The PEMs are easily fabricated and provide a means for contr

276 In addition, the PEMs produce reproducible results and are robust enough

277 Although the PEMs were chemically diverse, water transport within the

278 brane electrode assemblies (MEAs) from these PEMs resulted in fuel cells that outperformed those base

279 Thirteen PEM patients received 148 MBq (+/- 10%) of (64)Cu-TP3805

280 In the current study, this PEM coating approach was applied to chiral separations o

281 d more rapid progression would be related to PEM.

282 atures associated with ME/CFS in response to PEM induction and reports microRNA expression patterns a

283 associated with a physiological response to PEM.

284 , ionic mercury in independently transformed PEM colonies.

285 -endothelium (postendothelial migrated Treg [PEM Treg ]) and the effect of subsequent interactions wi

286 2.4 and 1.8 times more IL-12 than wild-type PEMs in response to LPS or LPS and IFN-gamma, respective

287 r-operating-characteristic (ROC) study using PEM images reconstructed with different count levels exp

288 adjuvanted vaccination in populations where PEM is endemic may be one strategy to boost vaccination-

289 er, 279 (91.2%) were correctly assessed with PEM compared with 264 (86.3%) that were correctly assess

290 with MR imaging only; 14 (17%) breasts, with PEM only; and seven (8.5%) breasts, with mammography and

291 ematous and seven nonedematous children with PEM by using constant intragastric infusions of [2H3]leu

292 pletion of the albumin pool of children with PEM is not mediated by changes in the FSR, and the edema

293 ng tissue samples from lesions detected with PEM.

294 sy of breast lesions optimally detected with PEM.

295 R imaging, and 20 (36%) were identified with PEM (P < .001).

296 R imaging, and 41 (46%) were identified with PEM (P = .003).

297 R imaging, and 22 (67%) were identified with PEM.

298 epared in both PS and PETG are modified with PEMs, they demonstrate very similar electroosmotic mobil

299 ion could only detect Br(2)Y adsorbed within PEMs when using either higher photon energies or matrix

300 mote health literacy, the demands of written PEMs must match the literacy capacities of the target au