ライフサイエンスコーパス: electrophysiology

1 nd corticoamygdalar plasticity using in vivo electrophysiology.

2 e paracrine effects of EpAT on cardiomyocyte electrophysiology.

3 cytes depending on subcellular structure and electrophysiology.

4 performed functional assessment using slice electrophysiology.

5 ue, we refer to this technique as near-field electrophysiology.

6 T cells and performed whole-cell patch-clamp electrophysiology.

7 plore mOP-LTD in DMS using mouse brain slice electrophysiology.

8 employing noise-overexposure and single-unit electrophysiology.

9 criptomes with cell location, morphology and electrophysiology.

10 s were measured using whole-cell patch clamp electrophysiology.

11 using multielectrode arrays and patch clamp electrophysiology.

12 we confirmed with simultaneous juxtacellular electrophysiology.

13 rotein expression, oxidative metabolism, and electrophysiology.

14 eening paradigms that make use of nociceptor electrophysiology.

15 ckout model was elaborated using brain slice electrophysiology.

16 made a major impact on the field of cardiac electrophysiology.

17 weeks using in vitro whole-cell patch-clamp electrophysiology.

18 in CA1 neurons was studied using patch clamp electrophysiology.

19 these theories for applications in bacterial electrophysiology.

20 suggest an updated view of human hippocampal electrophysiology.

21 neurons in the awake mouse with large-scale electrophysiology.

22 was assessed using molecular approaches and electrophysiology.

23 Median FI varied according to subspecialty (electrophysiology=2; heart failure=11; interventional ca

24 months, 638 (33%) patients were referred to electrophysiology, 536 (27%) received an ICD, and 445 (2

25 ndorff-perfused rat hearts to assess cardiac electrophysiology after MEHP exposure compared with cont

26 nt models on adult ventricular cardiomyocyte electrophysiology, allowing for prediction of mutant imp

27 of the S-OFF midget circuit with single cell electrophysiology and 3D electron microscopy reconstruct

28 f therapy in 3 cardiovascular areas: cardiac electrophysiology and arrhythmias, the vasculature and a

29 munication throughout development by in vivo electrophysiology and behavioral testing.

30 urements correlate well with published data (electrophysiology and biochemistry), further confirming

31 sibility of a multimodal approach, combining electrophysiology and broadband Vis-NIR spectroscopy, to

32 Cardiac electrophysiology and Ca(2+) handling change rapidly dur

33 Using brain-slice electrophysiology and Ca(2+) imaging from male and femal

34 he impact of molecular changes on whole cell electrophysiology and calcium cycling.

35 led to an increase in [Ca] (i) Simultaneous electrophysiology and calcium imaging showed that the RI

36 We used a combination of electrophysiology and cell class-specific Ca(2+) imaging

37 addressed these questions using patch-clamp electrophysiology and confocal Ca(2+) imaging in a rat m

38 using intact heart optical mapping, cellular electrophysiology and confocal Ca(2+) imaging, and compu

39 -specific genetic manipulations, patch clamp electrophysiology and connectomic analysis, we identifie

40 Electrophysiology and DFT studies also show that the com

41 eloped MCs from conditional knockout mice by electrophysiology and EM, and found that Stx3, and not S

42 ntricular model (ToR-ORd) for simulations of electrophysiology and excitation-contraction coupling, f

43 re performed on recorded slices to correlate electrophysiology and expression patterns.

44 nesis during tumor infiltration with in vivo electrophysiology and GCAMP7 calcium imaging, revealing

45 n relation to anatomy, morphology, hodology, electrophysiology and gene expression, including differe

46 r analysis highlights challenges in relating electrophysiology and imaging data, and suggests forward

47 Recent advances in cardiac electrophysiology and imaging have improved our understa

48 logous cells using high-throughput automated electrophysiology and immunocytochemistry-flow cytometry

49 Ex vivo patch clamp electrophysiology and immunohistochemical analysis revea

50 were functional after 24 h, as determined by electrophysiology and immunohistochemistry.

51 We then used a combination of ex vivo electrophysiology and in vivo fiber photometry to assess

52 hed rat model of alcohol dependence, ex vivo electrophysiology and ISH, provides mechanistic insights

53 ttent alcohol vapor exposure), ex vivo slice electrophysiology and ISH.

54 Using electrophysiology and live imaging, we identified defect

55 ng the functional interplay of cardiomyocyte electrophysiology and mechanics.

56 Employing slice electrophysiology and mice with a genetic deletion of th

57 lipidic environment and are complemented by electrophysiology and molecular dynamics simulations.

58 than 60 different lipid types together with electrophysiology and mutagenesis experiments.

59 Combining in vivo electrophysiology and neuroanatomy with behavioral testi

60 unctional roles by synthesizing results from electrophysiology and neuroimaging studies.

61 rivatives, using two-electrode voltage-clamp electrophysiology and noncanonical amino acid mutagenesi

62 Using in vitro electrophysiology and optogenetics, we examined how Delt

63 vels in recruiting inhibition using in vitro electrophysiology and optogenetics.

64 Using a combination of patch clamp electrophysiology and photolytic uncaging of RuBi-GABA w

65 the Ang II-induced changes in atrial myocyte electrophysiology and preventing fibrosis throughout the

66 Electrophysiology and quantal imaging revealed evoked re

67 Here, we combined electrophysiology and real-time high-speed imaging of ex

68 The study suggests that visual electrophysiology and retinal imaging could be useful bi

69 etal magnetocardiography to characterize the electrophysiology and rhythm phenotypes of fetuses with

70 Patch-clamp electrophysiology and RNA-sequencing was performed on do

71 nal free energy landscape, as encountered in electrophysiology and single-molecule fluorescence exper

72 le approaches, nanodisc-based planar bilayer electrophysiology and single-molecule FRET, to address t

73 In the current study, we used simultaneous electrophysiology and time-lapse two photon imaging to e

74 2, and V4, supplemented by higher-resolution electrophysiology and two-photon imaging in awake macaqu

75 Slice and in vivo electrophysiology and Western blots were conducted in ra

76 Here, using electrophysiology and X-ray crystallography, we show tha

77 SC), research technique (calcium imaging vs electrophysiology), and stimulus type (drifting gratings

78 Here, we use in vivo calcium imaging, electrophysiology, and behavior to understand how geneti

79 coupled with immunolabeling, Ca(2+) imaging, electrophysiology, and behavioral analysis, revealed tha

80 through anatomical reconstructions, in vivo electrophysiology, and behavioral assays.

81 By using radioligand analysis, electrophysiology, and calcium imaging, we found that ol

82 e-transcriptome sequencing, histology, slice electrophysiology, and calcium imaging, we performed the

83 ha-bungarotoxin, two-electrode voltage-clamp electrophysiology, and calcium imaging.

84 terrogated using nuclear magnetic resonance, electrophysiology, and cell viability assays.

85 nd (iii) sharing all neuroimaging, annotated electrophysiology, and clinical metadata to facilitate f

86 We characterized tissue assembly, electrophysiology, and contractility of neonatal rat ven

87 re we used functional MRI, microstimulation, electrophysiology, and deep networks to investigate the

88 parasubiculum using immunohistochemistry and electrophysiology, and determine their distribution thro

89 ive-cell fluorescence imaging, pharmacology, electrophysiology, and genetic manipulation, we show tha

90 Multimodal imaging, electrophysiology, and IHC were performed to determine t

91 Using biochemistry, electrophysiology, and imaging, we show that NLGN4Y disp

92 examination including psychophysical tests, electrophysiology, and imaging.

93 er drugs (DREADDs), behavioral pharmacology, electrophysiology, and immunoelectron microscopy in male

94 sgenic reporter mice, whole-cell patch-clamp electrophysiology, and input-specific optogenetics, we e

95 using a combination of optogenetics, in vivo electrophysiology, and machine learning analysis, we fin

96 a combination of site-directed mutagenesis, electrophysiology, and modeling to probe both sites, we

97 single-molecule superresolution microscopy, electrophysiology, and modeling, we determined the avera

98 ABAergic neurons with a distinct morphology, electrophysiology, and molecular profile.

99 Using behavior, in vivo electrophysiology, and optogenetics, we first show that

100 , congenital heart diseases, peri-procedural electrophysiology applications, and the functional evalu

101 variation; however, daily changes in cardiac electrophysiology, arrhythmia susceptibility, and Ca(2+)

102 Here, we used a combination of electrophysiology as well as imaging approaches to inves

103 tro recording of cardiac and neural cellular electrophysiology, as well as in vivo applications for h

104 porting the selection of candidates for cell electrophysiology assay and with potential clinical appl

105 d in vitro by Ca(2+)-imaging and patch-clamp electrophysiology assays.

106 re tested in glutamate uptake and whole-cell electrophysiology assays.

107 The effects of MEF on the electrophysiology at high pacing rates are shown to be p

108 imal models and patients, brain imaging, and electrophysiology-based pain biomarkers, the collection

109 es, including light and electron microscopy, electrophysiology, biochemistry, optogenetics, and molec

110 te early human brain structure, biology, and electrophysiology but also have minimal size variation a

111 s during movement, as previously reported by electrophysiology but not easily detected using modern c

112 have strong time-of-day variation in cardiac electrophysiology, Ca(2+) handling, and adrenergic respo

113 Using patch-clamp electrophysiology, Ca(2+) imaging, calcitonin gene-relat

114 ames to mitigate the influence of fiberoptic/electrophysiology cables, analyzing specified portions o

115 rm of physiological assays using patch-clamp electrophysiology, calcium imaging, and multielectrode a

116 rains of mice and a rhesus monkey by in vivo electrophysiology, calcium imaging, positron emission to

117 Our results demonstrate that all-optical electrophysiology can reveal basic principles of neural

118 ry and branches, either a circular or basket electrophysiology catheter was placed in the right pulmo

119 Using mice, we combined patch clamp electrophysiology, chemogenetics, unsupervised cluster a

120 Molecular dynamics simulations and electrophysiology confirm the granisetron binding orient

121 c examination, advanced retinal imaging, and electrophysiology consistent with achromatopsia.

122 We use direct cilia electrophysiology, cryogenic electron microscopy, and su

123 Using monkey and human electrophysiology data, we show here that attractor dyna

124 processing, analysis and mapping of complex electrophysiology datasets from diverse experimental mod

125 RGC electrophysiology demonstrated elevated activity in the

126 h survival of Smn null mice and motor neuron electrophysiology demonstrating that the essential funct

127 It also served as a map for single-neuron electrophysiology driven by an image-based abdominal nav

128 activity using 2-photon calcium imaging and electrophysiology during a visual oddball paradigm.

129 in vitro and in vivo molecular replacement, electrophysiology, electron microscopy, and structure-fu

130 ulated by numerically solving the monodomain electrophysiology equations on anatomically-detailed mod

131 outer membrane of Gram-negative bacteria by electrophysiology experiments as well as by all-atom mol

132 Electrophysiology experiments confirmed that JJC8-091 wa

133 Patch-clamp electrophysiology experiments show that, when expressed

134 amaged and damaged utricle, fate-mapping and electrophysiology experiments showed that Plp1+ supporti

135 In whole-cell electrophysiology experiments, we identified that heme i

136 Further, in vitro electrophysiology experiments, with ALD in the presence

137 important processes: metabolism, signaling, electrophysiology, extracellular matrix, clotting, and i

138 Noninvasive electrophysiology-guided cardiac radioablation is associ

139 ave suggested the efficacy of catheter-free, electrophysiology-guided noninvasive cardiac radioablati

140 The field of cardiac electrophysiology has been on the cutting edge of advanc

141 abetic Akita mice using in vivo intracardiac electrophysiology, high-resolution optical mapping in at

142 eptibility and atrial function using in vivo electrophysiology, high-resolution optical mapping, patc

143 ne, using male C57BL6/J mice and patch-clamp electrophysiology, how chronic high-fat high-sugar (HFHS

144 The structure, confirmed by our electrophysiology, illustrates the configuration of a bo

145 We used electrophysiology, imaging, and biochemical studies in m

146 d using histology, echocardiography, in vivo electrophysiology, immunofluorescence, and flow cytometr

147 In electrophysiology, implantable devices with CP coating o

148 females), we show that two markers in human electrophysiology implicated in spatial and temporal ant

149 ide YY to EEC-deficient mice restores normal electrophysiology, improves glucose and peptide absorpti

150 ed two-photon Ca(2+) imaging and single-cell electrophysiology in awake behaving mice following audit

151 -order) using optogenetics and extracellular electrophysiology in awake mice.

152 Using in vitro patch-clamp electrophysiology in brain slices containing the OFC, we

153 We use patch-clamp electrophysiology in combination with mutagenesis and in

154 Ex vivo electrophysiology in double-transgenic mice was used to

155 Previously, we used whole-cell electrophysiology in Drosophila to show that serotonergi

156 2 receptor (D2R) agonism using ex vivo slice electrophysiology in Dyt1 (DeltaGAG/+) mice.

157 We combined chronic electrophysiology in freely behaving animals with an eye

158 Here, we use chronic electrophysiology in freely behaving rats to follow indi

159 We also achieve capacitive control of the electrophysiology in isolated hearts, retinal tissues an

160 Using cFos activation and in vivo electrophysiology in male rats, we demonstrated that the

161 Using in vivo electrophysiology in male Sprague Dawley rats, we demons

162 ng a combination of fluorescence imaging and electrophysiology in neocortical synapses, we show that

163 work 1) supports the utility of all-optical electrophysiology in providing high-content data to refi

164 thod can isolate single urothelial cells for electrophysiology in situ and can also isolate pure urot

165 using a clinically relevant dose, on cardiac electrophysiology in the intact heart.

166 ed in the small intestine to maintain normal electrophysiology in the presence of vasoactive intestin

167 dy investigated AF susceptibility and atrial electrophysiology in type 1 diabetic Akita mice using in

168 Electrophysiology in vitro was then combined with the co

169 Using two-electrode voltage clamp electrophysiology in Xenopus laevis oocytes and radiolig

170 We also used mutagenesis and electrophysiology in Xenopus laevisoocytes to functional

171 We therefore used a combination of slice electrophysiology, in vivo two-photon calcium imaging, a

172 a unique molecular profile, morphology, and electrophysiology, including a previously overlooked IN

173 (immediate) translation based on all-optical electrophysiology, including high-throughput screening,

174 Tissue-scale simulations of cardiac electrophysiology, incorporating both dynamic action pot

175 ion through NMII inactivation affects axonal electrophysiology, increasing action potential conductio

176 tional dissection of electrical signaling by electrophysiology is basically impossible.

177 on methods such as two-photon microscopy and electrophysiology is bridging boundaries between cellula

178 The ability to modulate cellular electrophysiology is fundamental to the investigation of

179 Cardiac electrophysiology is one of the most advanced areas, wit

180 Electrophysiology is the most used approach for the coll

181 e-cell based techniques, such as patch-clamp electrophysiology, is laborious and time-consuming.

182 se of implantation compared to intracortical electrophysiology, larger cortical coverage, and potenti

183 Anatomical study with deep learning-embedded electrophysiology mapping allows for an optimal selectio

184 ain-dependent perturbations to cardiomyocyte electrophysiology may contribute to this arrhythmogenesi

185 a and interpret the decision of the model by electrophysiology means.

186 Electrophysiology measurements on gramicidin A (gA) ion

187 Here, we combine electrophysiology measurements, infrared spectroscopy, a

188 Here, we used electrophysiology, microdialysis, and NMR spectroscopy t

189 itution to create reaction-diffusion cardiac electrophysiology models.

190 To test this, we combined fast perfusion electrophysiology, molecular dynamics simulations and st

191 nd a tissue-level field-of-view for cellular electrophysiology monitoring.

192 ), in vivo calcium imaging (n = 20), ex vivo electrophysiology (n = 8), and molecular regulation of p

193 e show that a combination of high-resolution electrophysiology, new noise-filtering analysis protocol

194 An electrophysiology nurse monitored participants for any h

195 cterizing the transcriptomes, morphology and electrophysiology of interneurons.

196 Collectively, using single fiber electrophysiology of lingual sensory fibers, we show tha

197 Patch clamp electrophysiology of SGNs isolated from DKO mice display

198 dels of ionic currents are used to study the electrophysiology of the heart, brain, gut, and several

199 Hypoglycemia affects the electrophysiology of the heart.

200 ge tracing, single-cell transcriptomics, and electrophysiology of the mouse retina and showed that ad

201 In addition, ex vivo slice electrophysiology of transgenic Cre-inducible Rosa-eGFP-

202 extended International Society for Clinical Electrophysiology of Vision protocol.

203 s laevis Using whole-cell and single-channel electrophysiology of Xenopus oocytes expressing ENaC iso

204 Here, we use anatomical tracing, electrophysiology, optogenetics, and 2-photon Ca(2+) ima

205 We used electrophysiology, optogenetics, and fluorescent in situ

206 Combined electrophysiology, optogenetics, and statistical analysi

207 Here, using in vivo electrophysiology, optogenetics, behavioral tasks and ma

208 arks of cardioprotection were recorded using electrophysiology or fluorescence imaging: cardiomyocyte

209 ombine 2P-DH and synthetic optogenetics with electrophysiology, or with red fluorescence Ca(2+) recor

210 Using a combination of electrophysiology, pharmacology and biochemistry, we sho

211 ook advantage of a high throughput automated electrophysiology platform (SyncroPatch 768PE) to invest

212 iomyocytes using a high throughput automated electrophysiology platform.

213 acted healthcare delivery, including cardiac electrophysiology practice throughout the globe.

214 The median number of electrophysiology procedures was 77 (25th, 75th: 0, 160)

215 idance for managing invasive and noninvasive electrophysiology procedures, clinic visits, and cardiac

216 for infection prevention efforts to include electrophysiology procedures.

217 potential recording techniques were used for electrophysiology, qPCR for gene and, Western blot and i

218 In parallel, we conducted whole-cell electrophysiology recordings in the NAc of stress-suscep

219 will exploit mesoscale imaging and multisite electrophysiology recordings to construct network models

220 providers were followed to the end points of electrophysiology referrals, ICD implantations, and all-

221 normal and diseased cardiac MSCs on myocyte electrophysiology remain unclear.

222 We used electrophysiology, renal clearance techniques, and immun

223 We used electrophysiology, renal clearance, and immunoblotting t

224 Electrophysiology results revealed that the CBD-treated

225 filing and chromatin analyses, combined with electrophysiology, reveal that FOS activates the transcr

226 Patch-clamp electrophysiology revealed an increase in excitability,

227 In vivo electrophysiology reveals disrupted action encoding in d

228 nty as to how and when to resume and deliver electrophysiology services for patients with arrhythmia.

229 els from brain data, it is often unclear how electrophysiology should be combined with other neuroima

230 e preference behavior and ex vivo whole-cell electrophysiology showed that cocaine-primed reinstateme

231 Cardiac electrophysiology simulation is a mature area of multi-s

232 on cardiac arrhythmogenesis using 3D tissue electrophysiology simulations.

233 We performed electrophysiology studies on mice treated with ibrutinib

234 Functional MRI and electrophysiology studies suggest that consciousness dep

235 Acute open chest electrophysiology studies were performed in sheep (n=3).

236 s, and acute (n=3) and chronic (4-week, n=6) electrophysiology studies were performed.

237 We used electrophysiology studies, immunoblotting, immunostainin

238 Electrophysiology study and histopathological analyses v

239 An in vitro electrophysiology study determined a strong relationship

240 Whole-cell patch-clamp electrophysiology subsequently revealed that 21a had fun

241 resent a quantifiable, sensitive, and robust electrophysiology technique with minimal damage to the u

242 Here, using surface-biotinylation assays and electrophysiology techniques, we examined mPRs' role in

243 rrhythmia burden was evaluated with invasive electrophysiology testing in adult mice.

244 We demonstrate, by in vivo single-MN electrophysiology, that, contrary to expectations, excit

245 Despite dramatic differences in cardiac electrophysiology, the cardiac fight-or-flight response

246 to kHz frequencies according to conventional electrophysiology theory.

247 atory cells significantly contribute to scar electrophysiology through coupling mediated at least par

248 s these open questions using single-turnover electrophysiology, time-resolved step-scan FTIR, and Ram

249 docking, molecular dynamics simulations, and electrophysiology to address this question.

250 nd tau binding on synaptosomes, we performed electrophysiology to assess the dysfunctional impact of

251 Second, we used patch electrophysiology to characterize the chromatic tuning o

252 Here, we combined optogenetics with electrophysiology to characterize the synaptic transmiss

253 d two-photon calcium imaging with whole-cell electrophysiology to determine how action potential firi

254 We also use electrophysiology to examine the functional effects of I

255 ary analyses, site-directed mutagenesis, and electrophysiology to examine the role of the alpha-subun

256 -NAc activity in vivo and used ex vivo slice electrophysiology to identify the mechanism of this chan

257 with reference to recent studies in cardiac electrophysiology to illustrate key points.

258 Here, we used electrophysiology to investigate the role of the prelimb

259 morphology, chemogenetics, optogenetics, and electrophysiology to obtain a more comprehensive picture

260 Here we use strutural studies and electrophysiology to show that electrophiles act through

261 se confocal microscopy, calcium imaging, and electrophysiology to show that in every manipulation the

262 We used single-channel electrophysiology to show that oAbeta(42) activates both

263 the NavMs voltage-gated sodium channel, and electrophysiology to show the functional effects of bind

264 understood due to the current limitations of electrophysiology tools and this article presents our in

265 rst study investigating the human cerebellar electrophysiology using optically pumped magnetometers.

266 al cells, by gating for their characteristic electrophysiology versus spores, so that germination can

267 To this end, we employ a combination of electrophysiology, voltage-clamp fluorometry, synthetic

268 Patch clamp electrophysiology was used to determine the effect of pr

269 Using whole-cell patch clamp electrophysiology we demonstrate that small LNvs (sLNvs)

270 e this gap between invasive and non-invasive electrophysiology we developed and recorded human-compar

271 togenetics with extracellular and whole-cell electrophysiology, we assessed the effect of mAChR activ

272 Using confocal imaging and whole-cell electrophysiology, we demonstrate that overexpression of

273 Using patch clamp electrophysiology, we demonstrated that each of the mode

274 n slice recording, and in vivo multi-channel electrophysiology, we discovered a core ensemble of hypo

275 Using patch-clamp electrophysiology, we evaluated doublecortin-positive (D

276 an approach combining modeling, imaging, and electrophysiology, we explored mechanisms that support t

277 Combining genetics, pharmacology, and electrophysiology, we find that a signaling system consi

278 Using solid-supported membrane electrophysiology, we find that promiscuous transport of

279 tools, intracellular peptide, and dendritic electrophysiology, we found that FMRP regulates HCN chan

280 ar dynamics simulations, calcium imaging and electrophysiology, we identify an allosteric Yoda1 bindi

281 r flow processing have been revealed through electrophysiology, we lack a comprehensive description o

282 Using slice electrophysiology, we measured how acute sleep deprivati

283 Based on electrophysiology, we observed that activation of these

284 Second, using large-scale electrophysiology, we observed that behaviorally suffici

285 ics in combination with in vivo and in vitro electrophysiology, we provide evidence for a direct cort

286 Using whole-cell electrophysiology, we show here that heterologous PMP22

287 Using lipid bilayer electrophysiology, we show that medin oligomers induce i

288 Through brain-slice electrophysiology, we show that subthreshold GAT1508 con

289 gand docking, site-directed mutagenesis, and electrophysiology, we show that TETS is binding in the p

290 Using ex vivo male rat brain slice electrophysiology, we show that the selective Y(2)R agon

291 Using electrophysiology, we showed that both inhibitory and ex

292 logy, and MSN excitatory inputs (patch-clamp electrophysiology) were characterized.

293 ere, we report a system integrating wireless electrophysiology, wireless eye tracking, and real-time

294 We have seen advances in basic cardiac electrophysiology with data suggesting that secretoneuri

295 Here, we combined computational electrophysiology with Markov state model analysis to in

296 band Vis/near-infrared(NIR) spectroscopy and electrophysiology with studying E-I ratio based on the s

297 ng clinical practice and research in cardiac electrophysiology, with emphasis on disease detection an

298 a continuum of variability in morphology and electrophysiology, with neighbouring transcriptomic cell

299 trated high-temporal resolution (<1 ms) opto-electrophysiology without any artifact-induced signal qu

300 Here, using a combination of electrophysiology, yeast functional complementation and