ライフサイエンスコーパス: compressive

1 0 um, and in vitro mechanical integrity with compressive and equilibrium Young's moduli of 37 kPa and

2 fall from considerable height that produced compressive and hinge (greenstick) fractures in multiple

3 tic neuropathy, previous optic neuritis, and compressive and inherited optic neuropathies.

4 Large in-plane compressive and out-of-plane tensile strains (-3.6% and

5 The films showed in-plane compressive and out-of-plane tensile strains.

6 arvesting ambient mechanical energy via both compressive and stretching modes.

7 Local compressive and tensile forces on the order of 100 pN we

8 t-in safety mechanism for ensuring that both compressive and tensile loads are managed well.

9 oidal gels are able to withstand substantial compressive and tensile loads, and exhibit a remarkable

10 rom wurtzite and NiAs structure, by applying compressive and tensile strain along the symmetry axis,

11 Wavy structure, of which compressive and tensile strain periodically varied along

12 Our findings on the self-tuning of the compressive and tensile strained domain ratio along the

13 A model of coexistent compressive and tensile strained domains is proposed to

14 t is further improved by 890% and 940% under compressive and tensile strains, respectively.

15 ographic directions ([110] and [-110]) under compressive and tensile strains.

16 leads to the observed domains of increasing compressive and tensile strains.

17 durable as bare steel and highly tolerant to compressive and tensile stresses due to chemical bonding

18 filament models and evaluate the effects of compressive and twisting loads on strain energy distribu

19 We find that this compressive approach performs as well as other compressi

20 uate the effect of shell stiffness and Tg on compressive behavior and compression set in siloxane mat

21 he mycelium which reproduces the tensile and compressive behavior of the material.

22 ures, electrical, and magnetic properties of compressive BiFeO3 films under electric-field and pressu

23 eld-induced strain up 10% is achieved in the compressive BiFeO3 films.

24 f helical microcoils formed by deterministic compressive buckling establish the basis for systems tha

25 Paradoxically, such local compressive buckling should not occur given the tensile

26 o/nanostructures into extended 3D layouts by compressive buckling.

27 ogy without any noticeable deformation after compressive contact stresses as large as 1.2 GPa.

28 construction and implantation of the in vivo compressive cranial window is <1 h (per mouse).

29 ion in confined spaces, we conducted dynamic compressive cycle tests on living animals.

30 oscopic strain and transform the microscopic compressive deformation into the rotation and bending of

31 Distally, compressive deformation of intramyocardial blood vessels

32 wn to be very brittle and can sustain little compressive deformation.

33 Given the prevalence of compressive deformations in most blunt head trauma, this

34 The developed compressive device is also useful for studying a variety

35 deduced from the percolation theory that the compressive ductility, ec, can reach the maximum value a

36 polarization characterizing the AP, altering compressive electrostatic forces across the membrane.

37 local curvature is introduced to assess the compressive failure load of human femur with simulated l

38 ate compressive strengths (over 2 GPa), high compressive failure strain (over 20%), and superior micr

39 e eutectic varying from 25 to 40% exhibiting compressive flow strengths ranging from 500 to 900 MPa h

40 Nevertheless, broad power law spectra of compressive fluctuations are observed in turbulent astro

41 guments, it is shown here that turbulence of compressive fluctuations in collisionless plasmas strong

42 solving the long-standing puzzle of observed compressive fluctuations in the solar wind, our results

43 n and consequently, to smoothing out of any "compressive" fluctuations (of density, pressure, etc.).

44 d R10 indicate this animal suffered a strong compressive force coincident with the long axis of the r

45 A compressive force increases the rate of oxidative additi

46 A compressive force introduced by a ramp/flat fault was su

47 idual limb is subjected to the perpendicular compressive force not commonly experienced in normal ten

48 hile compression wood of gymnosperms creates compressive force to push stems upward.

49 erent types of mechanical stimuli, including compressive force, tensile force, and shear force as wel

50 of an endothelial cell subjected to a local, compressive force.

51 edicts the reaction of a crumpled sheet to a compressive force.

52 rod-like shapes in several generations after compressive forces are removed.

53 We hypothesized that tumor-generated compressive forces cause collagen remodeling via densifi

54 the migrating border cell cluster to resist compressive forces from nurse cells.

55 A solid brain tumor mass places compressive forces on adjacent normal brain tissue, and

56 the first of its kind, can recapitulate the compressive forces on the cerebellar cortex from primary

57 t tube and mesentery, thereby regulating the compressive forces that buckle the gut tube into loops.

58 Here, we demonstrate that by applying compressive forces to growing E. coli, cells no longer r

59 discrepancy in cell response between direct compressive forces using AFM and those within flow field

60 ither pharmacological or physical removal of compressive forces.

61 hich allows MT filaments to bear much larger compressive forces.

62 deformation and fragmentation in response to compressive forces.

63 mpressive strength was 1863 MPa with a total compressive fracture strain of ~34%.

64 ximum compression, with linearization of the compressive function for input sound levels between 50 a

65 his work, we demonstrate a novel alternative compressive imaging approach employing an efficient and

66 ing spin-Hall photonics, optical holography, compressive imaging, electromagnetic communication, and

67 ies in classical and quantum communications, compressive imaging, pattern recognition, and so on.

68 orm well-ordered and periodic wrinkles under compressive in-plane stress.

69 how that the lithiation is suppressed by the compressive interfacial strain.

70 Buckling events, which occur due to compressive intracellular forces and cross-talk between

71 emperatures lower than in the bulk, owing to compressive lattice strain along the radial dimension of

72 from creep to strain recovery fits a tensile-compressive linear viscoelastic model that is indicative

73 ymerized actin does not actively support the compressive load, it is required for sodium efflux.

74 ABSTRACT: Massage, in the form of cyclic compressive loading (CCL), is associated with multiple h

75 ttle bulk amorphous alloy by simple uniaxial compressive loading at room temperature.

76 nucleation of ripples under both tensile and compressive loading conditions.

77 enhanced with massage in the form of cyclic compressive loading during regrowth after atrophy.

78 Massage in the form of cyclic compressive loading is a potential anabolic intervention

79 treated either with injections of PTH(1-34); compressive loading of the right tibia; both interventio

80 a bulk metallic glass matrix subjected to a compressive loading-unloading cycle.

81 radiographs with as little as 100 N of axial compressive loading.

82 erability for strains up to 20% under normal compressive loading.

83 over the traditional helicoidal design under compressive loading.

84 ding and dynamic (strain-rate = 10(3) s(-1)) compressive loading.

85 g on responses of these complex solids under compressive loads and kinetic impact experiments.

86 toskeletal filaments do not actively support compressive loads in breast, ovarian, and prostate cance

87 d to 'physiological' and 'non-physiological' compressive loads in vitro as a model system and validat

88 As a result, the rupture force under compressive loads is an order of magnitude lower than un

89 ract in transverse directions under uniaxial compressive loads leading to auxeticity.

90 racellular MTs carry a large fraction of the compressive loads sensed by the cell and therefore, like

91 Moreover, compressive loads stimulated remodeling of peritoneal me

92 the mechanical response of the glycocalyx to compressive loads, which are imposed on cells residing i

93 y, regions subjected to higher strains under compressive loads.

94 Using compressive mechanical testing, the stress-strain respon

95 arious gold architectures are formed through compressive mesoscale coalescences of spherical gold nan

96 Our results suggest new compressive modalities as a foundation for massive scali

97 genic media, printed constructs increased in compressive moduli, biochemical content (i.e., sulfated

98 e density of the beads to 1.3g/cm(3) and the compressive modulus by two orders of magnitude, they rem

99 The constructs showed a compressive modulus of 499.18 +/- 86.45 kPa.

100 stable, and by switching between states, the compressive modulus of the overall structure can be rati

101 Compressive neuropathy of the median nerve at the level

102 d adults under attentional load shows strong compressive nonlinearities, thought to reflect intrinsic

103 harp location-dependent frequency tuning and compressive nonlinearity over a wide stimulus range.

104 onsisting of spatial summation followed by a compressive nonlinearity, this model accurately predicts

105 mputations: temporal summation followed by a compressive nonlinearity.

106 operations: temporal summation followed by a compressive nonlinearity.

107 t-in strains ranging from 1% tensile to 0.2% compressive on substrates with different thermal coeffic

108 egenerative diseases such as glaucoma, or in compressive optic neuropathies such as from optic glioma

109 In our study, isquemic and compressive optic neuropathies were the ones that most o

110 gnoses were ischemic optic neuropathy (25%), compressive optic neuropathy (18.7%) and hereditary opti

111 Compressive optic neuropathy is associated with signific

112 The rate of compressive optic neuropathy was significantly lower and

113 t disease progression and the development of compressive optic neuropathy.

114 imary outcome measure was the development of compressive optic neuropathy.

115 multaneously enrich or deplete either in the compressive or in the tensile strain fields around the d

116 can be precisely controlled to induce either compressive or tensile strain on supported catalysts.

117 for the joint with a rumpled interface, the compressive out of plane stress at the boundary of the g

118 ing model to include a non-zero baseline and compressive output nonlinearity.

119 Treatment with compressive patching was prescribed for 87.5% of patient

120 is easily applied, and gives improvements in compressive plasticity.

121 ing migration through tight constrictions or compressive pressure by the actin cap, and the mechanica

122 The treatment restores the inferior compressive properties of osteoarthritic cartilage to th

123 er load of crosslinker (5 wt%), and superior compressive properties.

124 the astral microtubules buckle as they exert compressive, pushing forces.

125 t alternating direction method algorithm for compressive quantum state estimation that can handle bot

126 plane polarization is primarily generated at compressive regions, while the in-plane polarization dom

127 Such compressive remodeling is caused by the unique features

128 ow that growth of epithelial cancers induces compressive remodeling of the ECM, documented in the lit

129 The compressive, rheological, and degradation properties of

130 g graphenes but with solid-like out-of-plane compressive rigidity offer unique opportunities for achi

131 In saliency-based compressive sampling (CS) for remote sensing image signa

132 , through a tinted screen, whilst performing compressive sampling and recovering high-resolution deta

133 Furthermore, by using a compressive sampling strategy, we demonstrate continuous

134 Weber's law can be explained either by a compressive scaling of sensory response with stimulus ma

135 Compressive sensing (CS) is a technique to sample a spar

136 Compressive sensing (CS) theory demonstrates that by usi

137 , we propose a new algorithm by applying the compressive sensing (CS) theory in the field of signal p

138 ial way to improve the imaging speed is with compressive sensing (CS), a technique that allows for a

139 Compressive sensing allows signals to be efficiently cap

140 For any node, compressive sensing enables accurate reconstruction of t

141 S) theory in the field of signal processing, compressive sensing haplotype inference (CSHAP), to solv

142 bust state reconstruction algorithm based on compressive sensing is developed.

143 ctronic structure and the recently developed compressive sensing lattice dynamics (CSLD).

144 When combined with compressive sensing techniques it enables novel solution

145 mpressive approach performs as well as other compressive sensing techniques with greatly simplified p

146 h advanced undersampling techniques, such as compressive sensing, we can acquire information at rates

147 By exploiting acoustic metamaterials and compressive sensing, we present here a single-sensor lis

148 a method for network reconstruction based on compressive sensing, which takes advantage of the networ

149 We constructed a compressive-sensing approach to pseudo-randomly acquire

150 sation could largely be accounted for by the compressive shape of the modulation input-output functio

151 of wurtzite CdSe cores, producing asymmetric compressive shells that create built-in biaxial strain,

152 (SRM) shows great potential in an ultrafast compressive single pixel camera.

153 inent feature of the GBM microenvironment is compressive solid stress (CSS) caused by uninhibited tum

154 lls modulate their tonicity to survive under compressive solid stress.

155 ation directly parallels earlier findings of compressive spatial summation in visual cortex describin

156 minoglycans that provide swelling pressures, compressive stiffness and hydration to the tissue.

157 plex geometrical structures, with an average compressive stiffness of O(1) kPa (0.49 +/- 0.04 kPa str

158 alone, fibrin gels engineered with increased compressive stiffness simultaneously increased the osteo

159 have also suggested directionally dependent compressive stiffness suggesting anisotropy, but morphol

160 e cartilage and this correlates with greater compressive stiffness.

161 An ultrafast release of the compressive strain along the surface-normal direction is

162 in a barrier height increase with increasing compressive strain and decrease with increasing tensile

163 Tc is enhanced due to the nanoscale compressive strain and proximity effect, whereas Jc is d

164 mesocrystal experiences higher out-of-plane compressive strain and shows a stronger magnetic anisotr

165 sition-and therefore its lattice parameter-a compressive strain as high as 2.4 per cent is applied to

166 ory shows that up to [Formula: see text]3.5% compressive strain can be induced in an InSb quantum wel

167 Compressive strain can turn the trivial monolayer into a

168 Uniquely, we found that compressive strain could significantly enhance both reac

169 ic-field-driven domain interconversion under compressive strain diminish both the pyroelectric and th

170 Here we investigate tensile and compressive strain effects on the WF of rubrene single c

171 resulting nanoscale alternating tensile and compressive strain fields lead to considerable resistanc

172 ti-year-long accelerated aging studies under compressive strain followed by a time-temperature-superp

173 arity applied across the substrate generates compressive strain in a nanomagnet and switches its magn

174 uted to the severely distorted structure and compressive strain in the LDH nanosheets, which signific

175 This study showed that compressive strain increased with increasing walking spe

176 n of hydrogen evolution, which occurs due to compressive strain induced by the formation of a CuAg su

177 uration and in vivo compressive strain, with compressive strain initially increasing with increasing

178 nsic current output as large as 4 pA under a compressive strain of -0.72%.

179 exhibit rubber-like behaviour and sustain a compressive strain of ~50% without catastrophic failure;

180 strain effect on the a-axis compared to the compressive strain on the c-axis.

181 sites arising from the ligand effect and the compressive strain on the Pd surface owing to the smalle

182 but it becomes more favourable under a small compressive strain or at high temperatures.

183 In contrast, increasing compressive strain over time shows a greater role for vi

184 As compared to the zero-strain state, compressive strain reduces the unit-cell volume while ma

185 tensile strain side, Ge, Si, and GaP on the compressive strain side.

186 ffect can be introduced by applying a -0.45% compressive strain to greatly enhance the PD's response

187 In contrast, films that are under a large compressive strain typically remain metallic at all temp

188 O(3)/SrTiO(3) is exerted as biaxial in-plane compressive strain with atomistically coherent interface

189 mission through the PC, predicting decreased compressive strain with proximity to the receptor's core

190 of O(1) kPa (0.49 +/- 0.04 kPa stress at 30% compressive strain) and therefore mimics the mechanical

191 and exhibit supercompressibility (up to 90% compressive strain).

192 r compounds, under a broad range of in-plane compressive strain, could be materials in nature realizi

193 energy shows that the scaling of the energy, compressive strain, shear strain, system size, pressure,

194 30 mW cm(-2) UV illumination and at a -0.45% compressive strain, the PD's photocurrent is dramaticall

195 Under compressive strain, varying the control parameter, i.e.,

196 and Pd, finite size effects introduce local compressive strain, which alters the chemisorption prope

197 the Al(x)Ga(1-x)N epitaxial layers exhibits compressive strain, while the a-plane exhibits tensile s

198 lationship between walk duration and in vivo compressive strain, with compressive strain initially in

199 es on the surface atoms and impart up to 10% compressive strain, with the exact magnitude inversely p

200 dges for cation migration, are stabilized by compressive strain.

201 n optimized structure can sustain beyond 50% compressive strain.

202 up to 117 MHz in a blue LED chip under 0.14% compressive strain.

203 nd governed by the change in epitaxy-induced compressive strain.

204 ns, which reveal regions of both tensile and compressive strain.

205 ers evolve into a corrugated structure under compressive strain.

206 on Bismuthene (111) facet due to the unique compressive strain.

207 of La(2)CuO(4) thin films can be enhanced by compressive strain.

208 ion-length from ~8 to ~25 nm with increasing compressive strain.

209 reases) significantly with in-plane tensile (compressive) strain, which agrees qualitatively with den

210 Compressive-strained films show a larger number of exsol

211 No-bonding outcomes (i) during the uniaxial compressive straining of films (a near-hydrostatic setti

212 generation can be achieved under mechanical compressive strains (>0.4).

213 strate that alternating in-plane tensile and compressive strains (less than 0.01%) can be used to pro

214 to dynamically track microscopic tensile and compressive strains across diverse biological systems wh

215 with conductive interface, whereas in-plane compressive strains extended deeper within the substrate

216 chieve ultrahigh elasticity and stability at compressive strains up to 95%.

217 onductance is increased by 165% under -1.78% compressive strains, and reduced by 48% under 1.78% tens

218 type magnetic orderings are observed at high compressive strains, suggesting that it may be possible

219 ductivity within a wide range of tensile and compressive strains.

220 ahedra exclude hydrogen from regions of high compressive strains.

221 f LED array is enhanced by 120% under -0.05% compressive strains.

222 confirming that primitive ice has a very low compressive strength (less than 12 pascals, softer than

223 stance of Mg and retained 86-90% of ultimate compressive strength after in vitro immersion in rSBF fo

224 The optimum compressive strength and fracture toughness reached 48.6

225 The quantitative mechanical data (brittle compressive strength and friction coefficient) obtained

226 e polymer matrix, significantly improved the compressive strength and stiffness by 185% and 150%, res

227 h a tensile strength of 1.60 +/- 0.55 GPa, a compressive strength approaching the theoretical limit o

228 cortical bone's elastic modulus and ultimate compressive strength at the millimetre length scale.

229 ver 60% porosity demonstrated an appreciable compressive strength beyond 20 MPa, which was ~2-fold hi

230 t the critical point itself cerium lacks any compressive strength but offers resistance to shear.

231 recipitation and, thus, the influence on the compressive strength development of the waste material.

232 The compressive strength is also established and results sup

233 This corresponds to a specific compressive strength of 9.79 GPa cm(3) g(-1), a value th

234 These structures achieve a compressive strength that is 10 times higher than the yi

235 1165 MPa with ductility of ~18% and ultimate compressive strength was 1863 MPa with a total compressi

236 allows for an increase of density as well as compressive strength while reducing the compressibility

237 ) is valorized to produce compacts with high compressive strength without the use of a hydraulic bind

238 great axial strength, they have weak radial compressive strength, and do not bond well to one anothe

239 rate and enzyme required to achieve a target compressive strength, reduction in the undesirable ammon

240 ascals, equivalent to >2 megapascal uniaxial compressive strength.

241 ply of structural components to increase its compressive strength.

242 aterials with unique properties such as high compressive strength.

243 posites (MINCs), which exhibit high ultimate compressive strengths (over 2 GPa), high compressive fai

244 ociated cation produces materials of various compressive strengths and elasticity.

245 (2)O(3) based exemplar MT system, unconfined compressive strengths of 5171 and 3848 kPa were obtained

246 imate tensile strains of approximately 325%, compressive strengths of approximately 26 MPa, and fract

247 other transition metal borides, and ultimate compressive strengths up to 1940 +/- 103 MPa were measur

248 teoblasts and MC3T3-E1 cells were exposed to compressive stress (0, 1, 2, 3, 4, and 5 g/cm(2)) in 3D

249 ever, the molecular mechanisms by which this compressive stress alters pathways relevant to disease a

250 similar, and that vimentin protects against compressive stress and preserves mechanical integrity by

251 in with in-plane polarization under external compressive stress and spontaneously recover after remov

252 ic donors and asthmatic donors, we applied a compressive stress and then used a network approach to m

253 d, where the steeply down-dip orientation of compressive stress axes at approximately 600 km arises f

254 s in subduction zones finds that the maximum compressive stress axis plunges systematically trenchwar

255 At compressive stress below 2 GPa, relatively small amounts

256 On timescales of minutes, we show that a compressive stress causes a reduction of the MCS volume,

257 technique so that the creation of shear and compressive stress could be minimized.

258 On the other hand, the compressive stress generated by the cells at the onset o

259 ompresses the bronchial epithelium, and this compressive stress has been implicated in asthma pathoge

260 leading to macroscopic failure as the axial compressive stress is increased.

261 visiae We used this system to determine that compressive stress is partly sensed through a module con

262 hanical and biochemical signals triggered by compressive stress on epithelial cells.

263 rs are under tension and impart an intrinsic compressive stress on the collagen.

264 o enable the investigation of the effects of compressive stress on the growth of the genetically trac

265 increased exponentially with either applied compressive stress or temperature, consistent with a the

266 ological signalling pathways, and balances a compressive stress profile within the tissue.

267 This study suggested that compressive stress regulates osteoblastic and osteoclast

268 umor to grow, it must be able to support the compressive stress that is generated as it presses again

269 Results showed that compressive stress within 5.0 g/cm(2) did not influence

270 pathways are deleted, cells fail to adapt to compressive stress, and all cells lyse at relatively low

271 alline materials have shown the formation of compressive stress, which can increase the density of ma

272 ay contributes to the response to mechanical compressive stress.

273 n a confined environment build up mechanical compressive stress.

274 adaptive response of osteoblasts exposed to compressive stress.

275 gonal-rhombohedral (T-R) phase transition by compressive stress.

276 ccurs at a well-defined value of the applied compressive stress.

277 Gigapascal-level compressive stresses are measured within pure silicon so

278 situ SEM and in situ TEM studies reveal that compressive stresses change the reaction kinetics so tha

279 simulations to estimate the magnitude of the compressive stresses exerted on endothelial cells during

280 rticles were annealed and quenched to induce compressive stresses in the alumina passivation shell su

281 The resultant hydrogels display compressive stresses of 14-15 MPa at 98% compression wit

282 ess uses coherent nanoprecipitates to induce compressive stresses on the host matrix, functionally re

283 ation through narrow constrictions generates compressive stresses on the nucleus that deform it and c

284 ay be reversibly manipulated between 0-8 GPa compressive stresses to enable systematic and reversible

285 Our new temporal compressive summation model captures (1) subadditive tem

286 Compressive surface strains have been necessary to boost

287 oach to limit surgery to those patients with compressive symptoms or uncertain diagnosis.

288 In uncertain cases or with lack of compressive symptoms, a trial of steroids is worthwhile.

289 Moreover, pituitary enlargement may lead to compressive symptoms, which necessitates urgent surgical

290 ace topography where the ratio of horizontal compressive tectonic stresses to near-surface gravitatio

291 Importantly, compressive temporal summation directly parallels earlie

292 d that adding CNTs led to an increase in the compressive, tensile and bond strengths of specimens com

293 The compressive, tensile and bond strengths of the samples w

294 lei within cells are constantly subjected to compressive, tensile, and shear forces, which regulate n

295 ion bubbles in the chamber induces localized compressive/tensile pressure cycles, with an amplitude t

296 Differing from the conventional compressive testing results, such a delaying process is

297 bulk samples in normal uniaxial (tensile or compressive) tests, prevents catastrophic failure and le

298 The critical value of compressive traction stress at the transition from a pro

299 At low 3D compressive traction stresses, cells utilize bleb format

300 lging in the brain cortex in vivo after mild compressive trauma.