ライフサイエンスコーパス: electrical

1 ivity troponin T), systemic involvement, and electrical abnormalities (right bundle branch block/low

2 unmodified DAPH-TFP COF exhibited excellent electrical access to its redox sites, even without PEDOT

3 Fibers with optical, electrical, acoustic, or optoelectronic functionalities

4 In blind patients, although the electrical activation of the residual retinal circuit ca

5 oninvasive monitoring method to record brain electrical activities, EEG has been widely used for capt

6 ablating these cells suppresses coordinated electrical activity (and thus insulin secretion) in the

7 o exhibited concomitant alterations in their electrical activity and cytosolic free Ca(2+) oscillatio

8 ll results in widespread inhibition of islet electrical activity and disruption of their coordination

9 Calculation of the complex flow of electrical activity driven by stochastic spatio-temporal

10 During activation mapping, the presence of electrical activity in all segments of diastole defined

11 s a widely used tool for monitoring cortical electrical activity in experimental animals.

12 sodium channels (Na(v) proteins), arresting electrical activity in nerves and muscles and paralyzing

13 ntrols in order to characterize the aberrant electrical activity in such a human context.

14 ntractions that are in turn due to a wave of electrical activity initiated at the sinoatrial node.

15 However, little is known about the detailed electrical activity inside the cell.

16 The coordinated electrical activity of beta-cells within the pancreatic

17 When the electrical activity of neurons are temporally synchroniz

18 ent was validated against measures of drive (electrical activity of the diaphragm and muscular pressu

19 n, preinspiratory motor potential amplitude, electrical activity of the diaphragm, pressure output of

20 We conclude that cardiac electrical activity provides important information about

21 king of nanoparticles together with neuronal electrical activity recording at the submillisecond time

22 ilar sensory space exhibit highly correlated electrical activity that is critical for proper maturati

23 upon multiple mechanisms to ensure rhythmic electrical activity that varies between day and night, t

24 s for light-enabled sensing and actuation of electrical activity with unprecedented spatiotemporal re

25 ress the role of cell size in endocrine cell electrical activity, finding that larger cells typically

26 cts play an important role in the pattern of electrical activity.

27 generating and maintaining the gradients of electrical and electrochemical potentials.

28 SS produced hydrogels of varying and tunable electrical and electrochemical properties, while maintai

29 om electron and fluorescence microscopies to electrical and force spectroscopies - to report on the s

30 des with remarkable properties, ranging from electrical and ionic conductivity to magnetism and ferro

31 Li metal, is developed, which posesses high electrical and ionic conductivity, and physically separa

32 ontrol maturation with unexpected effects on electrical and mechanical function.

33 n open access device capable of simultaneous electrical and mechanical stimulation of human induced p

34 ow the results of morphological, structural, electrical and optical characterization of the beta-Ga(2

35 rontiers in many applications owing to their electrical and optical properties.

36 Established electrical and optical techniques typically break down a

37 The electrical and optoelectronic properties of materials ar

38 orrelated with motility patterns produced by electrical and optogenetic stimulation of sympathetic pa

39 Detailed electrical and photoemission studies were carried out to

40 essure attributable to heart failure induces electrical and structural remodeling in the left atrium

41 diac pressure overload, contributing to both electrical and structural remodeling.

42 nduction and triggered activity occur due to electrical and structural remodelling under Pitx2 defici

43 ces phototoxicity and optimally supports the electrical and synaptic activity of neurons in culture.

44 ditional three-dimensional hyperchannels for electrical and thermal conductivity.

45 The electrical and thermal transport can also be significant

46 up to five orders of magnitude smaller than electrical antennas offers the promise for orders of mag

47 In contrast to other electrical approaches, the underlying geometric blockage

48 ivision method to vastly reduce the required electrical bandwidth.

49 range of applications including chemical and electrical barrier coatings, photonic materials, biomate

50 e of microdroplets, no catalysts or external electrical bias, as well as precursor chemicals, are nec

51 However, there is no existing electrical biosensor for detecting biomarkers for AIV in

52 oughs including optical, electrochemical and electrical biosensors for exosomes detection in the fiel

53 p prospects for the development of real-time electrical biosensors for studying and understanding dif

54 Very different from optical and/or electrical cable communications, acoustic waves can be s

55 , provide a direct pathway for metabolic and electrical cell-to-cell communication.

56 ansepithelial potentials, resulting in small electrical changes in the tumor microenvironment.

57 This RGC network forms a new electrical channel combining the ON and OFF feedforward

58 The electrical characterisation is achieved by using a combi

59 ration graphene-based electronic components, electrical characterization of graphene is imperative an

60 anning transmission electron microscopy, and electrical characterization.

61 using a variety of chemical, structural, and electrical characterizations along with multidomain fini

62 onlinear capacitance reflecting the phase of electrical charge displacement required for the motor to

63 d esters concentration and chain length, the electrical charge of the emulsifier and emulsion pH on t

64 pH and the electrical charge of the emulsifier modulated the antiox

65 ux passing through an ideal memristor on its electrical charge.

66 es through haptic stimulation to augment the electrical CI signal.

67 Memristors represent the fourth electrical circuit element complementing resistors, capa

68 By using an electrical circuit model of mitochondria, we quantify mi

69 ker in colorectal cancer), integrated in the electrical circuit of a direct methanol fuel cell (DMFC)

70 the antigens, changing the impedance of the electrical circuit which is detected via impedance spect

71 nce is the ratio of voltage to current in an electrical circuit.

72 Electrical cochlear stimulation may have the potential t

73 he synaptic events would be mixed, having an electrical component preceding the chemical one.

74 cessitate difficult-to-integrate optical and electrical components, and microcombs operating at rates

75 The change in the electrical conductance is found to be a result of ion mo

76 he information is read out by monitoring the electrical conductance of each isomer.

77 y, the effect of destructive QI (DQI) on the electrical conductance of self-assembled monolayers (SAM

78 o)) composition significantly affect cardiac electrical conduction and stability in contraction arres

79 Puzzlingly, this form is predicted to impede electrical conduction to an extent that appears incompat

80 The electrical conductivities achieved in the 3D LM composit

81 tems is still largely hampered by their poor electrical conductivities.

82 a relatively high sp(2) fraction, a moderate electrical conductivity (7.75 x 10(-3) S cm(-1)), and an

83 r than that in 60-100 cm soil layer, and the electrical conductivity (EC) and nitrate content gradual

84 effect transistors reveals that the observed electrical conductivity (sigma(RT) <= 1.3 x 10(-2) S/cm)

85 g electrode (TCE) properties, including high electrical conductivity (~11 670 S cm(-1) ) and high wor

86 lications in biomedicine because of its high electrical conductivity and biocompatibility caused by i

87 The electrical conductivity and carrier mobility of single c

88 ld take full advantage of the combination of electrical conductivity and magnetic bistability.

89 soil quality, in terms of change in the soil electrical conductivity and the corresponding change in

90 ng films that display high strength and high electrical conductivity are critical for flexible electr

91 eads to a percolating Cu phase with enhanced electrical conductivity between the active ZnO particles

92 olecular dynamics simulations to predict the electrical conductivity of silicate liquid at the condit

93 The macroscopic electrical conductivity of solid solution MXenes can be

94 .8 eV) enables facile p doping, resulting in electrical conductivity of up to 10(-2) S/cm and room-te

95 h up to ~570 MPa for a 940 nm thick film and electrical conductivity of ~15 100 S cm(-1) for a 214 nm

96 A flexible device with an electrical conductivity sensor, a pH sensor, and a gluco

97 s C, the polyoxafluoronorbornene exhibits an electrical conductivity two orders of magnitude lower th

98 cause they are promising materials with high electrical conductivity, chemical stability, and high su

99 nation of high optical transparency and high electrical conductivity, however, sets a stringent requi

100 he bilayer membrane's combined properties of electrical conductivity, mechanical strength, optical tr

101 lti-modal physical/chemical sensor array for electrical conductivity, pH, and glucose concentration m

102 that exhibit a pressure-induced reduction in electrical conductivity-and the presence of a complex ne

103 added to semiconducting polymers to improve electrical conductivity.

104 present the first ever broadband, calibrated electrical connection to the inside of a cell.

105 ic liquid junction for providing post-column electrical contact, and a monolithically integrated elec

106 owing to the limited sample quality and poor electrical contact, probing the lowest LLs has been chal

107 lactate in isolated muscles recovering from electrical contractions in an O(2) atmosphere.

108 We conclude that whereas electrical coupling between beta-cells is sufficient for

109 As a result, the electrical coupling between PQDs is enhanced, leading to

110 To examine the effect of electrical coupling on dimensionality and chaotic dynami

111 ity regulation is possible via modulation of electrical coupling through the gap junctions between in

112 lamp experiments substantiate low resistance electrical coupling.

113 ereby helical molecules polarize the spin of electrical current, is an intriguing effect with potenti

114 When subjected to an electrical current, the chiral winding of the spin textu

115 Consequently, ions generate transient electrical currents first discovered more than 30 years

116 del that accounts for biophysical origins of electrical currents generating MEG/EEG.

117 provide a substantial fraction of the global electrical demand.

118 gn the two states to two different permanent electrical dipole orientations generated from the Gd ato

119 presence of many different chemicals, and an electrical discharge.

120 ray flashes (TGFs) are a class of enigmatic electrical discharges in the Earth's atmosphere.

121 Igniting and guiding electrical discharges to desired targets in the ambient

122 eatments for NALCN channelopathies and other electrical disorders.

123 This work examines the effect of electrical doping on the electronic band structure of tw

124 ined by the local capacitive response of the electrical double layer (EDL) of the working electrode.

125 e capacitance modulations arising within the electrical double layer from the RTIL- CO(2) interaction

126 allows for a more detailed quantification of electrical dyssynchrony compared with conventional elect

127 at a relatively larger left ventricular (LV) electrical dyssynchrony in smaller hearts contributes to

128 with symptomatic systolic heart failure and electrical dyssynchrony, CRT was associated with improve

129 Electrical effects due to chip-scale ultrasound delivery

130 To accomplish this, we engineered an electrical-electrochemical vertical device (EEVD) that c

131 Here we report the electrical endurance and magnetic properties of thin (le

132 i.e., that allow for a facile conversion of electrical energy into mechanical and vice versa, offer

133 n OHCs, which enables these cells to convert electrical energy into mechanical energy, has been analy

134 led to applications in chemical sensing and electrical energy storage, among others.

135 s) are devices to convert chemical energy to electrical energy via the oxidation of fuel at the anode

136 sion without the need of any cleanup step or electrical equipment, allowing its portability for the e

137 Electrical events in neurons occur on the order of milli

138 arizing sodium (Na(+)) leak currents enhance electrical excitability(1,2).

139 )s) in animals allowed rapid Na(+)-dependent electrical excitability, and enabled the development of

140 Combined with simple optical or electrical feedback, the structure is suitable for preci

141 ilizes a physiologic response composed of an electrical field generated by the sensory cells of the i

142 pid binding of bacterial cells to a G-FET by electrical field guiding to the device to realize an ove

143 They are exposed to the strong electrical field of the plasma membrane.

144 Electrical field stimulation (EFS) in the presence of L-

145 staining and airway narrowing in response to electrical field stimulation in precision cut lung slice

146 Here, we demonstrated the use of in situ electrical field stimulation to deactivate the adhesive

147 pses, we induced single action potentials by electrical field stimulation, then subjected neurons to

148 tile tool for liquid atomization by means of electrical forces.

149 attribute environmental impacts through the electrical grid may affect their findings.

150 further elevated due to Pitx2 deficiency: 1) Electrical heterogeneity between left and right atria in

151 meter-scale gold electrodes that measure the electrical impedance of an ultrathin (~ 150-200 nm), two

152 xtracted from equivalent circuit modeling of electrical impedance spectroscopy data varied only accor

153 howed that forsterite dissolution begins and electrical impedance spectroscopy demonstrated that diff

154 e end-expiratory pressure levels selected by electrical impedance tomography- and transpulmonary pres

155 w ganglion neurons generate uncharacteristic electrical impulses due to abnormal VGSC functional expr

156 tal to ensure the anisotropic propagation of electrical impulses, a function mainly accomplished by g

157 increasing attention in the past decades, as electrical induced polarization has been shown to provid

158 ailable synaptic partners and influences the electrical integration of synaptic currents.

159 injured cardiac scar tissue with concomitant electrical integration.

160 bic structure and facilitating interparticle electrical interaction of QD solids.

161 ication bandwidth and overcome the limits of electrical interconnects, silicon photonic technology ha

162 printing, achieved by leveraging mechanical, electrical, magnetic, optical, or thermal phenomena.

163 terials with biaxial magnetic anisotropy for electrical manipulation.

164 By means of electrochemical and electrical measurements in atomic force microscopy, we d

165 pathways for cells to transfer metabolic and electrical messages.

166 he theta (8 Hz) band, and that low-frequency electrical microstimulation of pIC elicited LOB and Pica

167 se this signal to control the application of electrical microstimulation to the OFC.

168 FICANCE STATEMENT Previous studies combining electrical microstimulation with functional imaging show

169 hich is straightforward to interpret without electrical models.

170 luding drug delivery systems, biosensing and electrical modulation of tissues and organs, largely req

171 splints, manual therapies and transcutaneous electrical nerve stimulation.

172 ctivity, it triggers transduction to produce electrical noise even in darkness.

173 n computing as a result of their superlative electrical, optical, and mechanical properties.

174 ed with grain boundaries (GB defects) on the electrical, optical, magnetic, mechanical and chemical p

175 Cells convert mechanical stimuli into electrical or chemical signals via mechanically activate

176 e fiber/fabric-based NGs with both excellent electrical output properties and outstanding textile-rel

177 hese contractions are driven by an intrinsic electrical pacemaker, working through an unknown underly

178 zymes, various reaction constants as well as electrical parameters in the Butler-Volmer relationship.

179 AA included (1) >=3 s electrical pause or asystole; (2) high-grade Mobitz type

180 The improvement in transistor electrical performance can be attributed to the combined

181 s at strains of 200%, and exhibit no loss in electrical performance even under extreme elongations of

182 in a bottom-gate configuration, enhanced the electrical performance of transistors.

183 The devices show comparable electrical performances with conventional, rigid, nonpor

184 Electrical phenotypes are common in genetic DCM, but the

185 ty and feasibility of temporary percutaneous electrical phrenic nerve stimulation on user-specified i

186 Details of mechanical, electrical, physicochemical, and biocompatible propertie

187 ne flexoelectricity (strain-gradient-induced electrical polarization) suggests that flexoelectricity

188 genation catalysis under mild conditions via electrical polarization.

189 This work presents new insights into the electrical-poling-triggered ion migration and, in turn,

190 cient conversion of radiated waste heat into electrical power can be used to reduce energy consumptio

191 re, we examined the relationship between the electrical power densities generated from synthetic NaCl

192 Electrical power generation from a broadband blackbody t

193 xygen reduction in an enzymatic BFC supplied electrical power to the ABS.

194 ss process (i.e., in the absence of external electrical power), the open circuit potential (OCP), the

195 wasted environmental, mechanical energy into electrical power.

196 rences in any other study outcome, including electrical power.

197 al myofibre model we study the dependency of electrical propagation and force development on intercel

198 coupling due to structural remodelling slow electrical propagation and provide obstacles to attract

199 Their electrical properties are thought to depend critically o

200 y stable, with a computed hardness value and electrical properties in excellent agreement with the ex

201 The estimation of parameters controlling the electrical properties of biological neurons is essential

202 CQD films without degrading the optical and electrical properties of CQD.

203 ehensive methodology for measurements of the electrical properties of graphene that ranges from nano-

204 uld be observed in the optical domain, where electrical properties of the film allowed for applicatio

205 The abrupt change in the structural and electrical properties of this material therefore provide

206 ted many attractive optical, mechanical, and electrical properties that lend themselves to new and ex

207 present fibers have superior mechanical and electrical properties to many other conductive fibers fa

208 Q = Se, Te) and compare their structural and electrical properties to the previously reported Ir(2)In

209 th histamine having diverse effects on their electrical properties, including depolarization of the m

210 degree of freedom to manipulate 3D graphene electrical properties, which may pave a new way to desig

211 owing to their unique optical, magnetic, and electrical properties.

212 ces originating out of temperature-dependent electrical property variations, transport the suspended

213 rrent work seeks to develop the technique of Electrical pulse (EP)-mediated Turmeric silver nanoparti

214 an EQE of ~1% at 1 kA cm(-2) are shown using electrical pulses, which represents an important milesto

215 Here, using single-channel electrical recording in planar lipid bilayers in conjunc

216 atrial node of the heart, which results from electrical remodeling of individual pacemaker cells alon

217 g rate upon the implementation of AF-induced electrical remodelling associated with SND agreed with t

218 analysis demonstrated that HF-induced atrial electrical remodelling increased susceptibility to atria

219 BBB models demonstrate low transendothelial electrical resistance (TEER) and poor BBB phenotype.

220 ier function was assessed as transepithelial electrical resistance (TEER).

221 Further, the short-time fluctuations in the electrical resistance during an antibiotic susceptibilit

222 , mu(w) is the weighted mobility, rho is the electrical resistivity measured in mOmega cm, T is the a

223 lability of combined Seebeck coefficient and electrical resistivity measurement systems, it is now ea

224 ighted mobility from Seebeck coefficient and electrical resistivity measurements is introduced, which

225 bilities are estimated using Hall effect and electrical resistivity meausrements, which are are routi

226 Electrical resonance, filtering of the receptor potentia

227 high frequencies, but hair cells <1 kHz show electrical resonance.

228 eals the intrinsic time and length scales of electrical response to photoexcitation in van der Waals

229 The mechanical and electrical responses of the mammalian cochlea to acousti

230 vides short-term hemodynamic improvement and electrical resynchronization that is at least as good as

231 This mechanism could contribute to electrical rhythmicity in cells.

232 opore sensors relies on measuring changes in electrical signal as analyte molecules translocate throu

233 trochemical measurements with an independent electrical signal input, the present manufacturing of th

234 Recent developments in visualizing electrical signaling dynamics in the field of neuroscien

235 cterial K(+) channels have integral roles in electrical signaling, information propagation, and inter

236 dynamic patterns of touch are transduced to electrical signals and transformed by the brain into a m

237 The temperature dependence of the electrical signals at both resonances suggests that the

238 We investigate the generation of electrical signals by suspended thermoelectrically coupl

239 c nucleotide (CN) binding and unbinding into electrical signals in sensory receptors and neurons.

240 decades' worth of work using these transient electrical signals to understand the kinetic transitions

241 ials to convert mechanical deformations into electrical signals, the representative applications of s

242 Such electrical signals, which represent the onset of biofilm

243 rological function of transducing light into electrical signals.

244 by transducing absorbed photons into neural electrical signals.

245 of magnitude efficiency improvement over the electrical state-of-the-art.

246 ractions (both concentric and eccentric) via electrical stimulation (e-stim) of the sciatic nerve twi

247 n conflicting results from trials of gastric electrical stimulation (GES) for treatment of refractory

248 Intracranial electrical stimulation (iES) of the human brain has long

249 total of 487 patients received postoperative electrical stimulation and 454 patients received control

250 and motor unit activation were measured via electrical stimulation and electromyography, respectivel

251 ws 2.4-fold in diameter, and allowed chronic electrical stimulation and monitoring for 2 months witho

252 Additionally, electrical stimulation based on drawn-on-skin electronic

253 We conducted two experiments using electrical stimulation in rhesus monkeys (Macaca mulatta

254 ranial electroencephalographic recording and electrical stimulation integrated and synchronized with

255 potentials were elicited in motor neurons by electrical stimulation of a peripheral nerve.

256 Striatal field recordings and electrical stimulation of corticostriatal afferents reve

257 Electrical stimulation of each of the 3D-structure nodes

258 However, electrical stimulation of presynaptic axons, conventiona

259 tioning complex nerve network in response to electrical stimulation of the CN, which was clearly diff

260 nts activated by the muscle twitch evoked by electrical stimulation of the facial nerve.

261 idence supports the view that transcutaneous electrical stimulation of the spinal cord (TESS) promote

262 tudies supports the view that transcutaneous electrical stimulation of the spinal cord (TESS) promote

263 self-reported dissociation, and local brief electrical stimulation of this region elicited dissociat

264 Further, direct electrical stimulation of this region results in reading

265 rcepts of small spots of light produced with electrical stimulation of visual cortex (phosphenes) wil

266 TT luminal concentration imbalances at high electrical stimulation rates would be countered by eleva

267 ised cochlea was subjected to mechanical and electrical stimulation that are analogous to acoustic an

268 Transcutaneous electrical stimulation was applied onto the fingertips o

269 nectivity of the latter regions, we combined electrical stimulation with fMRI in male macaque monkeys

270 platform under three conditions: (1) without electrical stimulation, (2) test Hoffman reflex (H-refle

271 tro system that combines both mechanical and electrical stimulation, and as such, we foresee it findi

272 of neuronal-like networks, especially under electrical stimulation, can be an appealing avenue towar

273 d in response to an intervention, pharyngeal electrical stimulation, in a published meta-analysis.

274 Upon electrical stimulation, individual FDB fibers show twitc

275 ss of whether outcomes involved reward gain, electrical stimulation, or reward loss.

276 imb blood flow measurements were made during electrical stimulation.

277 reveal the neural response during continuous electrical stimulation.

278 ecific muscles elicited using transcutaneous electrical stimulation.

279 rs, hydration sensors, pressure sensors, and electrical stimulators, which are made via spray printin

280 ed vestibular afferent responses to the same electrical stimuli in monkeys.

281 -based supports since the discovery that the electrical stimulus can have dramatic effect on cell beh

282 mulated the cells with a focal and transient electrical stimulus that promotes the release of exosome

283 Biophysical cues, such as electrical stimulus, mechanical feature, and surface top

284 olecular-level multielectron handling toward electrical storage is a worthwhile approach to solar ene

285 , rare patients develop treatment-refractory electrical storm and their hemodynamic instability preve

286 mbrane oxygenation-supported drug-refractory electrical storm patients, 42% survived 6 months post-IC

287 long been considered as unsuitable for pure electrical switches; under weak electric fields, they sh

288 Moreover, the electrical switching of magnetic anisotropy is repeatabl

289 Ganglion cells can form electrical synapses between dendrites of neighboring cel

290 However, if electrical synapses were in axo-dendritic connections, w

291 hippocampus express previously unrecognized electrical synapses, which are normally silent.

292 the shift, thereby enabling the transfer of electrical to mechanical power at the basilar membrane.

293 gated channel that serves as a perfect chemo-electrical transducer.

294 o realize a quantum critical system in which electrical transport features a universal hydrodynamic d

295 freedom is normally invisible and ignored in electrical transport measurements but is vital to the de

296 A comparison of electrical transport measurements in PtMn with and witho

297 on of the effect of metal cation identity on electrical transport properties.

298 decent Seebeck coefficient and controllable electrical transport properties.

299 asm with potential for portable electronics, electrical vehicles, and grid-scale systems.

300 100-1,000x lower heat load than conventional electrical wiring, relaxing the requirements for thermal