ライフサイエンスコーパス: micro-

1 ia, vascular pericytes, and neurons, causing micro- and astrogliosis, neuroinflammation, accumulation

2 Micro- and biofabrication techniques that facilitate hie

3 n = 13) to survey the development of macro-, micro- and in-transit metastases (metastases that are in

4 Micro- and increasingly, nano-fabrication have enabled t

5 improved decisions, bridging the gap between micro- and macro-circuits of experience-dependent plasti

6 ications to a common ground plan across both micro- and macro-evolutionary time scales.

7 These polyphenols also influence the soil micro- and macro-fauna that break down plant leaf litter

8 maging, we show a widespread distribution of micro- and macro-metastasis in different stages of metas

9 ns interferes with the uptake of a number of micro- and macro-nutrients, such as Na, P, S, Mo, Zn, an

10 ties of this area support a diverse array of micro- and macro-organisms, and provide a baseline for f

11 Recent laboratory experiments on mixed micro- and macro-pore suggest that there is a systematic

12 model for mucus is constructed directly from micro- and macro-rheology experimental data on cell cult

13 These findings of both micro- and macro-scale organization of parasite populati

14 contexts, however, an analogous link between micro- and macro-scale remains elusive, primarily due to

15 r in meniscus cells after stimulation at the micro- and macro-scale, and propose a role for A2bR in m

16 result in simultaneous shape control at both micro- and macro-scales.

17 ce of these prospective dynamic materials as micro- and macroactuators is presented.

18 With adjustment for sex and age, micro- and macroalbuminuria were associated with increas

19 virus replication compartment formation; and micro- and macroautophagy.

20 parency, graphene is a versatile material in micro- and macroelectronics.

21 tial approaches for characterizing the tumor micro- and macroenvironment of breast cancer in both pre

22 tty acids transitioned to PUFAs in the tumor micro- and macroenvironment.

23 Bridging the gap between micro- and macroevolutionary processes relevant to ecolo

24 Based on sedimentary evidence and the micro- and macrofauna at this site, we infer that the 9-

25 reconstruct the ecological succession of its micro- and macrofauna.

26 How these micro- and macrofibrils relate to those found in primary

27 t a massive phylogenetic impact, such as the micro- and macronuclei in ciliates).

28 Apart from high levels of energy, proteins, micro- and macronutrients, milk contains calcium and the

29 ncluding energy, calcium, protein, and other micro- and macronutrients.

30 trends were supported through comparison of micro- and macroparasite species richness across a large

31 classical compartment models for infectious micro- and macroparasitic diseases, and examine how the

32 ized the quantity and morphology of floating micro- and macroplastics in 29 Great Lakes tributaries i

33 Increased understanding of micro- and macroscale brain network development before b

34 By using intermediate nano-, micro- and macroscale free-floating membrane systems in

35 ol.% ND enhanced wear resistance at both the micro- and macroscale, by 28% and 35%, respectively.

36 ierarchical complex structures with specific micro- and macroscopic architectures that are impossible

37 tonomous robotic systems that can be used at micro- and macroscopic length scales.

38 , which were previously only observed at the micro- and macroscopic level of brain organization.

39 of brain functional organization at both the micro- and macroscopic level.

40 tribution, molecular attributes that dictate micro- and macroscopic properties.

41 euroendocrine neoplasms (GNENs) and identify micro- and macroscopic residual disease.

42 ibility enable this material to memorize its micro- and macroscopic shape after repeated mechanical d

43 avior of superdiluted polymer solutions both micro- and macroscopically still persists as an outstand

44 sis, immune cell infiltration, fibrosis, and micro- and macrosteatosis; however, these phenotypes are

45 r findings establish that the combination of micro- and macrostructural features allow the MTL to rep

46 mor factors, including poor differentiation, micro- and macrovacular invasion, exceeding Milan criter

47 Hyperglycemia causes micro- and macrovascular complications in diabetic patie

48 he value of tight glycemic control to reduce micro- and macrovascular complications.

49 combined with immunostaining to identify the micro- and macrovascular networks.

50 uman thrombotic disorders involving both the micro- and macrovasculature.

51 developed hepatic steatosis characterized by micro- and macrovesicular lipid accumulation.

52 pped on chromosome 18 a QTL regulating liver micro- and macrovesicular steatosis and inflammation, in

53 ese coatings was examined through the use of micro- and macrowear experiments.

54 of adenoviruses in bats in 2006, a number of micro- and megabat species in Europe, Africa, and Asia h

55 results of a large-scale survey of neustonic micro- and meso-plastics floating in Mediterranean water

56 ng-lived radionuclide is immobilization into micro- and meso-porous crystalline solids, specifically

57 ectivity of polymer networks resolved at the micro- and meso-scopic length scales.

58 erall loss and extensive replacement of soil micro- and mesofaunal biodiversity, which should be rega

59 iven the form factor and performance of this micro- and mesofluidic workflow, we have developed a sam

60 While physisorption allows one to assess micro- and mesopores, a widely employed method for textu

61 surface catalytic activity while preserving micro- and mesoporosity, and micropore reaction rates.

62 particles in good yields, possessing bimodal micro- and mesoporous architecture along with a well-pre

63 results collected in this study suggest that micro- and mesoporous crystalline solids maybe viable ca

64 blueprint for efficient optical screening of micro- and mesoporous polymeric materials for CCS in ter

65 context of carbon capture and storage (CCS), micro- and mesoporous polymers have received significant

66 (MOFs) with hierarchical porosity across the micro- and mesoporous regimes.

67 investigated the injury biomechanics at the micro- and mesoscale of concussion, few have addressed t

68 e it demonstrates the different behaviors of micro- and mini-satellites and can be used to compare mu

69 ecognizes the acceptor stem of tRNA(Cys), as micro- and minihelices, truncated versions of full-lengt

70 ll-deformation dynamic oscillation in shear, micro- and modulated differential scanning calorimetry,

71 ostatic interaction between the host and its micro- and mycobiota.

72 urface functionalization and compatible with micro- and nano- bio-environment.

73 ive and efficient technique for manipulating micro- and nano- particles, including microorganisms.

74 nderstanding of the fate and distribution of micro- and nano- plastics in the marine environment is l

75 stic Wave and Surface Acoustic Wave devices, micro- and nano-cantilever sensors, gene Field Effect Tr

76 Micro- and nano-crystalline cellulose (MCC and NCC, resp

77 , or clustered when segregated into discrete micro- and nano-domains.

78 vices require materials that are amenable to micro- and nano-fabrication, but also preserve the bioac

79 g is a new method for spinning of continuous micro- and nano-fibers using a permanent revolving magne

80 aces(7), magnetic spin-ice systems(8,9), and micro- and nano-lattices with enhanced mechanical proper

81 ational wave detectors to chip-scale quantum micro- and nano-mechanical oscillators.

82 hat are particularly strong for miniaturized micro- and nano-mechanical systems.

83 ISOCT further characterized the overall micro- and nano-morphology of live tissue by measuring d

84 micromanipulation technology for controlling micro- and nano-particles with applications such as cell

85 les, engineering the thermal conductivity at micro- and nano-scale dimensions is considerably more ch

86 Technological advances in micro- and nano-scale imaging are striving to achieve mu

87 We focus on the mechanisms of formation of micro- and nano-scale protein-based capsules and shells,

88 employed to increase the sensitivity of many micro- and nano-scale sensors.

89 Micro- and nano-scale systems have emerged as important

90 We previously reported that micro- and nano-scale topographic pitch created on silk

91 Two- and three-dimensional analyses of micro- and nano-scale X-ray computed tomography illumina

92 r concentration and mobility in both macro-, micro- and nano-scale.

93 e then further categorized and discussed for micro- and nano-scaled structures.

94 ber of species, however the study of how the micro- and nano-scopic natural structures responsible of

95 ion microscopic techniques, enable the first micro- and nano-scopic visualization of neuromodulatory

96 The increasing presence of micro- and nano-sized plastics in the environment and fo

97 al sintering or spark plasma sintering using micro- and nano-sized powders.

98 gy we describe should be relevant to diverse micro- and nano-sized rods that interact through exclude

99 This paper presents a review of micro- and nano-structure based oligonucleotide detectio

100 This review discusses the advantages of micro- and nano-structure based sensors and covers the v

101 aximum value is ultimately determined by the micro- and nano-structure of the refractive index distri

102 tion of chemically heterogeneous and complex micro- and nano-structured materials.

103 High-aspect ratio micro- and nano-structures have been used for the produc

104 mbined transmission electron microscopy with micro- and nano-synchrotron X-ray fluorescence to image

105 Materials with three-dimensional micro- and nanoarchitectures exhibit many beneficial mec

106 s exhibit a fascinating and diverse range of micro- and nanoarchitectures on their cuticle.

107 pplied for analysis of surfactant-stabilized micro- and nanobubbles, with RI lower than that of water

108 Suspended micro- and nanochannel resonators have opened up the pos

109 with low thermal conductivity, hierarchical micro- and nanochannels for water pumping and escaping,

110 Accordingly, the filtration of micro- and nanoconcentrations of DCF by composite column

111 o highlight the important opportunities that micro- and nanocrystals may offer in these and similar t

112 als possess the required features for motile micro- and nanodevices, such as high cargo-loading capac

113 uperior magnetic performance, especially for micro- and nanodevices.

114 to amplify the electrochemical signal within micro- and nanodroplets via radical annihilation amplifi

115 The model is validated against micro- and nanoelectrode arrays showing its ability to p

116 Carbon fiber micro- and nanoelectrodes have been extensively used to

117 y the promise of robust and high performance micro- and nanoelectromechanical systems and miniature e

118 es make it an attractive platform for use in micro- and nanoelectronic devices.

119 ) this technique can be effectively used for micro- and nanoencapsulation of drug compounds.

120 ally valuable for small systems because most micro- and nanofabrication involves lithographic pattern

121 The flexibility of micro- and nanofabrication techniques has been used to c

122 We discuss the various micro- and nanofabrication techniques that have been emp

123 An explosion of micro- and nanofabrication, biomaterials, microfluidic,

124 r complex light beam engineering and optical micro- and nanofabrication.

125 al methods for synthesizing and crosslinking micro- and nanogels, as well as their development for in

126 on of cleavable linkages into the network of micro- and nanogels.

127 From micro- and nanoindentation hardness testing, all of the

128 Ultracold molecules in the micro- and nanokelvin regimes are expected to bring powe

129 Here we show cooling of NaLi molecules to micro- and nanokelvin temperatures through collisions wi

130 These man-made micro- and nanomachines can move in fluids by transformi

131 Autonomous bubble-propelled catalytic micro- and nanomachines show great promise in the fields

132 A novel automatic strategy for the use of micro- and nanomaterials as sorbents for dispersive micr

133 rest exists in the design and application of micro- and nanometer-sized materials with hollow interio

134 Living organisms make extensive use of micro- and nanometre-sized pores as gatekeepers for cont

135 d dispensing method for chemical reagents on micro- and nanomole scale prevents the full utilization

136 ytical workflow, a novel dispersive magnetic micro- and nanoparticle extraction protocol for biofluid

137 Adjuvants such as micro- and nanoparticles are often added to immunomodula

138 Aldehyde moieties on 2D-supports or micro- and nanoparticles can function as anchor groups f

139 h oil was encapsulated in hollow solid lipid micro- and nanoparticles formed from fully hydrogenated

140 A multitude of micro- and nanoparticles have been developed to improve

141 Surface free energy (SFE) of micro- and nanoparticles plays a crucial role in determi

142 ntially new application for a broad range of micro- and nanoparticles to maximize receptor-mediated s

143 The SFE of these micro- and nanoparticles was found to cover a range from

144 Cubosomes are micro- and nanoparticles with a bicontinuous cubic two-p

145 ble particle trap for analysis of biological micro- and nanoparticles.

146 rmining densities and magnetic properties of micro- and nanoparticles.

147 od for quantitatively determining the SFE of micro- and nanoparticles.

148 new method for chemical characterization of micro- and nanoplastics based on thermal desorption-prot

149 Small forms of plastics such as micro- and nanoplastics can interact with other organic

150 es to be provided in experimental studies on micro- and nanoplastics in different types of aquatic en

151 copy, as an analytical tool for the study of micro- and nanoplastics in seawater.

152 n the occurrence of environmentally released micro- and nanoplastics in the human food production cha

153 Although ecological effects of micro- and nanoplastics might arise through a variety of

154 In conclusion, whil micro- and nanoplastics were readily ingested by oyster

155 for the study of single fusion events at the micro- and nanoscale and of ion transport across biomime

156 ovide a path to control 3D configurations of micro- and nanoscale buckling-induced kirigami structure

157 s associated with generating motility on the micro- and nanoscale have recently been overcome, leadin

158 Interest in molding micro- and nanoscale metallic glass objects is driven by

159 Micro- and nanoscale metallic glasses offer exciting opp

160 ntly become the focus of intense research in micro- and nanoscale resonators for their use to improve

161 veloped utilizing a hierarchical layering of micro- and nanoscale silica lamellae to create a high-su

162 Micro- and nanoscale surface textures, when optimally de

163 CM from both micro- and nanoscale surface-adherent BMSCs increased th

164 So far, the vast majority of reported micro- and nanoscale swimmers have taken the approach of

165 ons promise great utility in the creation of micro- and nanoscale systems that can harness such struc

166 -CSF was increased by BMSCs cultured on both micro- and nanoscale titanium topographies (P < 0.01).

167 pplied to molecular assembly techniques on a micro- and nanoscale to miniaturize functional devices f

168 gular momentum (OAM) lasing, especially at a micro- and nanoscale, could address the growing demand f

169 ulate the end form of these materials on the micro- and nanoscale.

170 ents by in situ electrochemical means at the micro- and nanoscale.

171 e SFE and hydrophobicity of particles at the micro- and nanoscale.

172 x three-dimensional (3D) metal oxides at the micro- and nanoscales has attracted considerable attenti

173 e presence of small plastic particles at the micro- and nanoscales is of growing concern, but nanopla

174 At the micro- and nanoscales, polyvinyl chloride, polyethylene

175 be used to achieve chiral separation at the micro- and nanoscales.

176 oning hardware provided a route to recording micro- and nanoscopic mapping of the topography of surfa

177 orm the substrate polymer, altering existing micro- and nanosized features that are crucial for a mem

178 was a synchrotron-based characterization of micro- and nanosized implant-related particles in inflam

179 on, and chemical speciation of the exogenous micro- and nanosized particle content were evaluated usi

180 ifferent iron-based magnetic particle sizes (micro- and nanosized particles) to determine the effects

181 weathered single-use plastics that contained micro- and nanosized particles.

182 tment and groundwater remediation-especially micro- and nanosized zerovalent iron (nZVI)-can be more

183 The micro- and nanostructural examination of LBPs suggests t

184 ralized tissue in mammals and has a distinct micro- and nanostructure with nanofibrous apatite crysta

185 ies, and hence precise control over material micro- and nanostructure.

186 M) is a versatile tool to characterize these micro- and nanostructured devices in terms of their topo

187 trates, as well as the complex geometries of micro- and nanostructured devices.

188 One-dimensional (1D) micro- and nanostructured electrode materials with contr

189 rom additive manufacturing over machining of micro- and nanostructured features to health care.

190 arrier dynamics in heterogeneously patterned micro- and nanostructured material surfaces and interfac

191 This work opens a new route to 1D micro- and nanostructured materials by customizing the p

192 scalable synthesis and utilization of hollow micro- and nanostructures as solid catalysts.

193 ation therefore motivates the development of micro- and nanostructures for polarization control.

194 rochannels through implementation of surface micro- and nanostructures has gained substantial interes

195 s and innovative concepts realized in motile micro- and nanostructures have converged in the field of

196 olling the emission and the flow of light in micro- and nanostructures is crucial for on-chip informa

197 imited materials palette, optimally designed micro- and nanostructures, and tightly regulated process

198 Based on these measurements polymer-clay micro- and nanostructures, as a function of polymer load

199 The benefits of catalyst micro- and nanostructuring are further demonstrated by t

200 Moreover, micro- and nanostructuring of the CoS2 material has the

201 ar biology, as well as technologies, such as micro- and nanotechnologies and additive manufacturing,

202 Several recent micro- and nanotechnologies have provided novel methods

203 VID-19) and how novel formulations employing micro- and nanotechnologies may address these concerns.

204 on, polymer synthesis, material science, and micro- and nanotechnology research.

205 Cold-sprayed coatings can also exhibit micro- and nanotextured morphologies not achievable by o

206 the use and application of X-rays to acquire micro- and nanotomographic data sets offer an alternativ

207 Recent advances employ grids of metallic micro- and nanowires, but the overall performance of the

208 idual zeolitic-imidazolate framework (ZIF-8) micro- and sub-microcrystals were observed under compres

209 ed by means of synchrotron radiation induced micro- and submicro-X-ray fluorescence spectroscopy (SR-

210 gle x-ray scattering with a spot size in the micro- and submicrometer range as a high-resolution and

211 used to synthesize monodisperse silk fibroin micro- and submicron-spheres with diameters tunable over

212 gel adds a new tool to the armamentarium for micro- and supermicrosurgical procedures.

213 stability) and muscle structures (molecular, micro- and ultrastructure).

214 tter understanding of the fate and impact of micro- and/or nanoplastics (MP/NP) on diverse organisms

215 cated 2D, 3D, and 4D materials at the nano-, micro-, and macrosize scales.

216 omplexity which must be engineered at nano-, micro-, and mesostructural scales to enable organ functi

217 r size fractions (meso-, large micro-, small micro-, and nanoplastics) of debris collected in the Nor

218 re structures and membrane materials, and to micro- as well as macroscale fluid systems, we expect it

219 iated these nutritional effects with reduced micro- but not macrovascular development in the fetal ki

220 ostatically autarkic (self-sufficient) rigid micro-'cells', which define the adaptive structure, the

221 ial analyses at macro-(quantitative PCR) and micro-(confocal microscopy) scales indicate that parasit

222 sional gas chromatography (GCxGC) coupled to micro- electron capture detector (muECD).

223 pmental avenues and distinct sensitivity to (micro-) environmental conditions convey extensive hetero

224 d by meso (organisational level) factors and micro (individual, behavioural) factors.

225 c that measures structural properties at the micro-, meso-, and macroscopic scales, while still being

226 s control over the formation of hierarchical micro-/mesopore structures at different reaction times a

227 g g(-1) within its hierarchically networked micro-/mesopores over a wide range.

228 mmonly used methods to assess crystallinity, micro-/mesoporosity, Bronsted acid site density and dist

229 ous carbon foam (ECF) with an interconnected micro-/mesoporous architecture was prepared and used as

230 nd chemistry for the synthesis of a range of micro-/mesoporous crystalline zeolites in a cost-effecti

231 r systems of widths that range from nano- to micro- meters.

232 jugate to deliver small interfering (si) and micro (mi)RNAs to intracranial glioblastoma (GBM) tumor

233 EBV encodes 44 mature micro (mi)RNAs, mostly exhibiting oncogenic properties a

234 ototyping framework for designing Micro-Nano-Micro (MNM) fluidic preconcentration device based on ion

235 this study, fiber-optic reflection-based pH micro (mu)-probes (tip diameter: 500-3000 nm) were desig

236 ogically and histometrically the efficacy of micro-, nano-, or mixed-composite of hydroxyapatite (HA)

237 onship between rapid dendrite growth and the micro-/nano-mechanical properties of the alloy was inves

238 Micro-/nano-photonic devices are well suited for this pu

239 f silica) possessing remarkable hierarchical micro-/nano-scaled features optimized for the photosynth

240 The signal/noise ratio on micro-/nano-structured substrates is comparable to that

241 ning of small-molecule organic semiconductor micro-/nanocrystals (SMOSNs) at desired locations is a p

242 fabrication of uniform polymer and composite micro-/nanofibers using a microfluidic gas flow focusing

243 e in a variety of fields, from biophysics to micro-/nanofluidics.

244 s, intelligent and multifunctional fuel-free micro-/nanomachines are expected to have a profound impa

245 offering autonomous propulsion, conventional micro-/nanomachines usually rely on the decomposition of

246 wimming of natural microorganisms, synthetic micro-/nanomachines, which convert energy into movement,

247 Here, recent developments on fuel-free micro-/nanomotors (powered by various external stimuli s

248 The applications of these fuel-free micro-/nanomotors are also discussed, including nanopatt

249 Recent developments have resulted in various micro-/nanomotors that can be powered by biocompatible f

250 Fuel-free synthetic micro-/nanomotors, which can move without external chemi

251 Micro-/nanorobots (m-bots) have attracted significant in

252 topic in robotics research is the design of micro-/nanoscale robots for biomedical operations.

253 ate the potential of Brownian-particle-based micro-/nanosonar to probe the local wettability of liqui

254 ectrical and mechanical properties of the 3D micro-/nanostructures are achieved.

255 Nano-in-micro (NIM) system is a promising approach to enhance th

256 ng its polar constituents and its macro- and micro- nutrients.

257 he transfer of existing demonstrators to the micro- or even nanoscale.

258 In type 2 diabetics with micro- or macro-albuminuria UPPod:CR and albuminuria wer

259 mg/g), and high renal risk (reduced eGFR and micro- or macroalbuminuria).

260 s a composite of new or worsening persistent micro- or macroalbuminuria, new or worsening chronic kid

261 nvolve an exchange of metabolites with other micro- or macroorganisms.

262 is frequently obstructed by the presence of micro- or macroscopic inclusions of secondary phases.

263 lly, afford macromolecular arrangements with micro- or meso-porous apertures.

264 Micro- or minimally invasive glaucoma surgeries (MIGS) h

265 hly more significant than that obtained by a micro- or mixed-composite of hydroxyapatite.

266 functional materials with three-dimensional micro- or nano-scale dynamic compositional features are

267 w materials, formulations and devices at the micro- or nano-scales are specifically surveyed.

268 cope, and the detection does not rely on any micro- or nanofabricated devices.

269 tructurally unknown guest molecule from only micro- or nanogram amounts of the guest molecule.

270 hered particle motion (TPM), the motion of a micro- or nanoparticle tethered to a substrate by a macr

271 Suspending micro- or nanoparticles in a liquid and cold-spraying th

272 he development of anisotropic scaffolds with micro- or nanoscale features are reviewed, and how scaff

273 s that have low-surface-energy chemistry and micro- or nanoscale surface roughness, minimizing contac

274 Micro- or nanosized three-dimensional crosslinked polyme

275 inting techniques have limited resolution of micro- or sub-microscale.

276 esented is applicable to a wide range of 2D, micro-, or nano-scaled materials, as well as weak emitte

277 se a characterization methodology combining (micro-) Raman spectroscopy, atomic force microscopy and

278 In striking contrast to Pol lambda, Pol micro "skips" the first available template nucleotide, i

279 e examined four size fractions (meso-, large micro-, small micro-, and nanoplastics) of debris collec

280 PVDF and P(VDF-TrFE) nano- and micro- structures have been widely used due to their pot

281 We correlate physical nano- and micro- structures to the helium ion dose, as well as che

282 full structural size spectrum from nano- to micro- to macro-scale by using a variety of in situ and

283 this result on several brain networks, from micro- to macro-scales, obtained with different imaging

284 Albuminuria class transition (normo- to micro- to macroalbuminuria) is used as an intermediate e

285 s exhibiting various levels of porosity from micro- to macropores.

286 f EI is triggered by complete suppression of micro- to millisecond dynamics within the C-terminal dom

287 finity molecules with residence times in the micro- to millisecond time regime.

288 o undergo a two site exchange process in the micro- to millisecond time regime.

289 mally frustrated and may interconvert on the micro- to millisecond time scale.

290 Deep trapped electrons observed on micro- to millisecond time scales are unable to reduce e

291 he dynamics of large biomolecular systems on micro- to millisecond timescales.

292 f endogenous proteins with the resolution of micro- to nanometers in the brain.

293 Charged particles ranging from micro- to nanoscale are deposited on lung surfactant fil

294 rks on 3D patterned flexible substrates with micro- to nanoscale precision.

295 Particles ranged in size from micro- to nanoscale.

296 ermoelectric performance with diameters from micro- to nanoscale.

297 quantify native biological systems from the micro- to the nanoscale.

298 Whether X-ray computed [micro-] tomography ([mu]CT) imaging of these fossils may

299 consequences are significantly different in micro- versus macrovascular stenosis.

300 nsted acid site density and distribution (in micro- vs. mesopores), and catalytic activity suggest ne