ライフサイエンスコーパス: conduction

1 del myelinated axon physiology and saltatory conduction.

2 V)1.5-rich ID nanodomains and slowing atrial conduction.

3 revealing the fully diffusons governed heat conduction.

4 disrupting ID nanodomains and slowing atrial conduction.

5 ntially required for AV node and ventricular conduction.

6 dium channels (Na(V)1.5) and slowing cardiac conduction.

7 n but in action potential transformation and conduction.

8 ted to cause cardiac arrhythmias and reduced conduction.

9 the gene desert, TBX3 regulation and cardiac conduction.

10 materials without deleterious parallel bulk conduction.

11 tures demonstrated to be dominated by proton conduction.

12 ey regulation processes for atrioventricular conduction.

13 esting (30 mg) was used to reveal dormant PV conduction.

14 linated axons, underlies effective saltatory conduction.

15 markedly enhanced homogeneity in ventricular conduction.

16 ease-induced failure in human SAN intranodal conduction.

17 rapid and efficient axonal action potential conduction.

18 dapted for fast pathway activation and rapid conduction.

19 junctional conductances to safeguard cardiac conduction.

20 lity(1), metal-ion immobilization(2), proton conduction(3), and stimuli-dependent magnetic(4,5), elec

21 nto a computational model to simulate axonal conduction, a rapid decrease in velocity was observed, r

22 hat HD patients have increased prevalence of conduction abnormalities and compromised sinoatrial node

23 r maintaining the function of the heart, and conduction abnormalities are known to potentially lead t

24 vide a molecular basis for understanding the conduction abnormalities associated with GATA6 mutations

25 ons: paravalvular leakage (PVL) and onset of conduction abnormalities leading to permanent pacemaker

26 ere constructed and faithfully recapitulated conduction abnormalities seen in mutant hearts.

27 that the ASO treatment reversed the cardiac conduction abnormalities, and this correlated with resto

28 ntricular conduction, and is associated with conduction abnormalities, pacemaker implantation, atrial

29 nal features of DM1 are myotonia and cardiac conduction abnormalities.

30 , especially in patients without preexisting conduction abnormalities.

31 tery dilation and aneurysms, arrhythmia, and conduction abnormalities.

32 Heat conduction across both amorphous region and its crystall

33 otic zones which-seemingly-constrain impulse conduction across restricted regions of electrotonically

34 ther, cellular excitability controls whether conduction across the cells is blocked.

35 t inhibit the phospholipid-scrambling or ion conduction activities of the dual-functional TMEM16F.

36 neously exhibit n-type conduction and p-type conduction along different directions of the single crys

37 anvier are essential for effective saltatory conduction along myelinated axons.

38 tion along x and y directions as well as pai conduction along the z axis across the pai columns.

39 f atrial action potential (AP) alternans and conduction alternans that perpetuate AF.

40 d underscore the shared mechanisms of atrial conduction and AF.

41 Since the contributions from mobile-carrier conduction and bound-charge oscillation to the ac conduc

42 ntricular repolarization, as well as cardiac conduction and contraction.

43 ction up to 25 degrees C during the day when conduction and convection are limited and a net cooling

44 t biological processes, including electrical conduction and development.

45 op functional MOF channels for selective ion conduction and efficient ion separation.

46 e, stimuli-responsive COFs, gas storage, ion conduction and energy storage, and discuss the intricate

47 scillatory energy bands for which the lowest conduction and highest valence states of the low-lying p

48 sity of active sites and the poor electrical conduction and mass transport of the single-atom electro

49 g myelin regeneration, hence restoring nerve conduction and metabolic support to the axon.

50 key regulators of the SAN genetic program in conduction and nonconduction cells, such as TBX3 and EDN

51 materials can simultaneously exhibit n-type conduction and p-type conduction along different directi

52 es, e.g., negatively affecting hole/electron conduction and severely shortening device lifetime.

53 tion significantly affect cardiac electrical conduction and stability in contraction arrested ex vivo

54 ous transistors demonstrate a unidirectional conduction and strong photovoltaic effect.

55 at shortened action potential duration, slow conduction and triggered activity occur due to electrica

56 They act differently on the conduction and valence bands of WS(2) compared to WSe(2)

57 outer electrons leading to inversion of the conduction and valence bands, and spin-orbit coupling.

58 valley magnetic moment of carriers from the conduction and valence bands.

59 but had adverse effects on atrioventricular conduction and ventricular repolarization.

60 ere proton-conduction, single-crystal proton-conduction, and including MOF-based membranes for fuel c

61 raphic PR interval reflects atrioventricular conduction, and is associated with conduction abnormalit

62 a charge-screening mechanism for TMEM16F ion conduction, and it provides hints to further studies of

63 it contributes to mechanical strength, water conduction, and plant defence.

64 erstanding of the polygenic basis of cardiac conduction, and the genetic relationship between PR inte

65 on in the field of humidity condition proton-conduction, anhydrous atmosphere proton-conduction, sing

66 eatures make them ideal platforms for proton conduction applications.

67 These differences in heterogeneity in conduction are already present during sinus rhythm and m

68 ity is attributed to the considerable proton conduction, as confirmed by hydrogen permeation experime

69 and mouse TBX3 locus, including two cardiac conduction-associated variant regions, for regulatory fu

70 nd FF (b = -4.0%) were associated with nerve conduction at calf level (P < .001).ConclusionMRI of leg

71 generation of atrial AP alternans and their conduction at the cellular and one-dimensional (1D) tiss

72 e findings are useful in explaining the heat conduction at the interfaces in graphene/2D-SiC vdWH and

73 ce bands (VB) and the lowest degenerate H(6) conduction band (CB) as well as a higher energy transiti

74 The molecular nature of the conduction band allows us to electronically dope the mat

75 The organic-molecule-based conduction band and the inorganic-ion-based valence band

76 a hedgehog-like radial spin texture near the conduction band edge.

77 ucture reveals a 100-mV stabilization of the conduction band energy when compared to that recorded fo

78 nature with the valence band maximum and the conduction band minimum mainly dominated by the halide a

79 ne of the deep levels is found to follow the conduction band minimum of each host, attributed to the

80 how that the donor level with respect to the conduction band minimum shrinks with increasing pressure

81 The lower-lying conduction band of g-C(3)N(4) as compared to Ru-complexe

82 haus spin-splitting in the inorganic-derived conduction band with opposite spin textures between R- a

83 y from Ag-d/I-p (valence band) and Bi-p/I-p (conduction band) states.

84 associated with oxygen vacancies occupy the conduction band, leading to an increase in the electrica

85 s with low-lying pai* orbitals that form the conduction band, substantially decreasing the band gap o

86 apparent lifetime of mobile electrons in the conduction band.

87 ve the Fermi level in close proximity to the conduction band.

88 these 3R domains, featuring layer-polarized conduction-band states caused by lack of both inversion

89 Our ability to hear through bone conduction (BC) has long been recognized, but the underl

90 A strong dependence of the conduction behavior and breakdown strength of the polyme

91 relectrode conduction time of 7 to 11 ms and conduction block (CB) as conduction time >=12 ms.

92 potentially arrhythmogenic by promoting both conduction block and reentry arising from the depolariza

93 All conditions produced conduction block in Fhf2(KO) mice, with Fhf2 wild-type (

94 generates rapid, controlled, and reversible conduction block in motor, sensory, and autonomic nerves

95 The mechanisms of conduction block in mutant strands with reduced gCa(V) o

96 arization and consequently induces localized conduction block in tissue.

97 may have utility in clinical applications of conduction block of peripheral nerve hyperactivity, for

98 f periodically firing neurons and reversible conduction block that occurs in cardiomyocytes both resu

99 kHz biphasic current waveform that produced conduction block without onset firing in peripheral axon

100 and electrophysiologically by partial motor conduction block.

101 fter post-treatment showed p-type electrical conduction, both p and n-type conductivity were obtained

102 ression of the LAPW ablation, albeit without conduction breakthrough.

103 sion of genes required for VCS-specific fast conduction but maintenance of expression of genes requir

104 ly activated cis-regulatory elements at fast conduction channel genes required for fast physiological

105 The conduction channel is formed by conventional silver (Ag)

106 e we demonstrate a Si memristor with alloyed conduction channels that shows a stable and controllable

107 the energetics of adatom binding, localized conduction channels, molecular functionality and their r

108 y no standard approach to identify potential conduction channels.

109 a) values, which define pH-controlled proton conduction critical to the virus lifecycle.

110 xhibit p-type conduction in-plane and n-type conduction cross-plane via either mechanism depending on

111 in mice leads to severe cardiac dysfunction, conduction defect, ventricular arrhythmias, fibrosis, ap

112 investigated familial clustering of cardiac conduction defects and pacemaker insertion in the FHS (F

113 ctor and microRNA activities-induces cardiac conduction defects in DM1 individuals.

114 e key DM1 phenotypes of myotonia and cardiac conduction defects.

115 (fl/fl); Kcne1(CreERt2)) did not demonstrate conduction defects.

116 pathology, contributing to axonal damage and conduction deficits.

117 Conduction delay (CD) was defined as interelectrode cond

118 uency ablation was used to create epicardial conduction delay after which CNTf and then silk suture c

119 nome editing, reproduced DM1-related cardiac conduction delay and spontaneous episodes of arrhythmia.

120 atter with self-organizing properties, where conduction delay statistics are autonomously adjusted to

121 bundle branch block, and 12 intraventricular conduction delay).

122 trospectively analyzed 946 CRT patients with conduction delay.

123 functional lateralisation to avoid excessive conduction delays between the hemispheres.

124 Given conduction delays, the earliest part of these reflexes c

125 conserved despite appreciable corticospinal conduction delays.

126 pid and efficient saltatory action potential conduction depends on the myelin sheath and clustered Na

127 Etv1(f/f)Mlc2a(Cre/+) mice displayed atrial conduction disease and arrhythmias.

128 Ch) inhibitors for the management of SND and conduction disease is a viable approach.

129 erized by high rates of atrial fibrillation, conduction disease, advanced heart failure, and life-thr

130 for cardiovascular disease, including distal conduction disease, AF, and atrioventricular pre-excitat

131 a syndrome characterized by cardiomyopathy, conduction disease, and ventricular pre-excitation.

132 There were more conduction disorders at Bachmann bundle and this area ha

133 to compare the severity and extensiveness of conduction disorders between obese patients and nonobese

134 ts, obese patients have higher incidences of conduction disorders, which are also more extensive and

135 tients with dilated cardiomyopathy (DCM) and conduction disorders.

136 charge of patients without evidence of early conduction disturbances after ASA can be considered as a

137 a and experience regarding the management of conduction disturbances after TAVR and proposes an evide

138 Conduction disturbances after transcatheter aortic valve

139 ding a reasonable strategy to manage cardiac conduction disturbances after transcatheter aortic valve

140 ed trials; the often transient nature of the conduction disturbances; evolving technologies; and the

141 Here we show, using the conduction domain construct of M2 in lipid bilayers, tha

142 sed on the shuttling of charges corralled in conduction domains.

143 ensheathing Schwann cells, and altered nerve conduction during development.

144 ) originates from the Berry curvature of the conduction electrons near the Fermi energy(1,2).

145 Here we instead exploit the conduction electrons of lithium metal to achieve an orde

146 f the entanglement between local moments and conduction electrons, from triplet resonating valence bo

147 s and argue that depending on the filling of conduction electrons, the magnon Bose-Einstein condensat

148 Myelination facilitates rapid axonal conduction, enabling efficient communication across diff

149 ions suggest that I(Na) is essential for SAN conduction, especially in fibrotic failing hearts.

150 decrease in velocity was observed, reaching conduction failure in small diameter axons.

151 mic stimulation and overdrive suppression to conduction failure.

152 body temperature is associated with impulse conduction failure.

153 tical voltage mapping revealed slower atrial conduction following VEGF treatment (10 +/- 0.4 cm/s vs.

154 ich facilitates ion transport and electronic conduction for fast redox reactions.

155 1) signaling pathway and activator of rapid conduction gene programming, we identified a direct corr

156 a(Cre/+) mice showed downregulation of rapid conduction genes and upregulation of profibrotic gene pr

157 pAT volume clinically correlated with slowed conduction, greater electrogram fractionation, increased

158 In addition, atrial conduction heterogeneity was increased with more extensi

159 gated potassium channels, thereby enhancing conduction in demyelinated axons.

160 t, which is important for understanding heat conduction in doped semiconductors.

161 that the backbones mediate the long-distance conduction in dsDNA, contrary to the common wisdom in DN

162 nal changes required for activation and K(+) conduction in inward-rectifier K(+) (Kir) channels are s

163 mance for room temperature Na(+)-related ion conduction in MOF-based composite electrolytes to date.

164 ks of interconnected pores for efficient ion conduction in MOF/IL blends, whereas pore symmetry is a

165 Nav1.7 is crucial for impulse generation and conduction in peripheral pain pathways [1].

166 ographic measurement that represents cardiac conduction in the atria.

167 s in MOFs as a versatile platform for proton conduction in the field of humidity condition proton-con

168 Schwann cells ensure efficient nerve impulse conduction in the peripheral nervous system.

169 peptide tertiapin-Q could improve HR and AV conduction in these mouse strains.

170 rs separated by A cations can exhibit p-type conduction in-plane and n-type conduction cross-plane vi

171 red host filled with continuous 2D catalysis-conduction interfaces.

172 he solids and see the moment when electrical conduction is "turned on".

173 backbone hinge motion, whereas bidirectional conduction is achieved by a symmetric scissor motion.

174 eighboring genes and how they affect cardiac conduction is not understood.

175 ectronic conductors, though the mechanism of conduction is not yet understood.

176 further impairs automaticity and intranodal conduction, leading to beat-to-beat variability and reen

177 eads to an excellent electron density in the conduction level and thus to a highly metallic behavior.

178 In thin films, processes such as charge conduction, light absorption, and emission are governed

179 , leading to limited bandgaps and hence high conduction loss and poor energy densities, especially at

180 F porous structure that facilitates the heat conduction, making gamma-SD/PLL excellent heat mediators

181 tions about the lattice dynamics and thermal conduction mechanism in [Formula: see text] We find that

182 The conduction mechanism in the high-resistance state follow

183 tetrad at low pH, thus validating the proton conduction mechanism in the M2FL protein by which the pr

184 The conduction mechanism is identified based on classic oxyg

185 Poole-Frenkle and Richardson-Schottky conduction mechanisms are also discussed for both of the

186 We found that sodium ion (Na(+))-gated water-conduction nanochannels could be created by assembling N

187 fficient in situ water removal through water-conduction nanochannels led to a substantial increase in

188 Robust, gas-impeding water-conduction nanochannels that can sieve water from small

189 ox dependent, physiologically dominant, fast conduction network driven specifically in the VCS.

190 n of the nervous system by facilitating fast conduction of action potentials.

191 l mechanisms underlying the regeneration and conduction of APs at mammalian NRs remain incompletely u

192 The conduction of electrical signals through cardiac tissue

193 Here we report on the thermal conduction of helium-3 in a 1.1 mum high channel.

194 Tertiapin-Q also improved cardiac conduction of Na(v)1.5(+/-) mice by 24%.

195 a, which form myelin sheaths to regulate the conduction of nerve impulses across the brain, hence cri

196 (v)1.5 inactivation is necessary for healthy conduction of the cardiac action potential.

197 rminated VTs were localized in areas of slow conduction on CV maps.

198 es where APs can be regenerated during nerve conduction on myelinated nerves, ion channel mechanisms

199 We show that PAMs alter the ion conduction pathway and, in general, reduce the calcium p

200 amics to simulate K(+) ions moving along the conduction pathway between the lower cavity and cytosol.

201 the intracellular (inner) region of the ion conduction pathway is further expanded in our model.

202 is well understood, whereas the specific ion conduction pathway through the intracellular domain is l

203 th reduced water accessibility along the ion conduction pathway, consistent with the closed state of

204 minor effects on the conformation of the ion-conduction pathway, potentially contributing to its regu

205 the extracellular (outer) region of the ion conduction pathway.

206 le allowing water greater access to the K(+) conduction pathway.

207 els at the cytoplasmic entrance into the ion conduction pathway.

208 te gyrus (DG) in TLE may create pathological conduction pathways for synchronous discharges in the te

209 le buried features and previously unresolved conduction pathways, crucial for optimizing hybrid perov

210 However, the heat conduction performance of these vdWHs holds a crucial ro

211 In-plane and out-of-plane thermal conduction phenomena in graphene/2D-SiC vdWHs were studi

212 d the molecular mechanisms of AF and cardiac conduction phenotypes.

213 expression of genes required for nodal slow conduction physiology.

214 d multicarrier mechanisms for axis-dependent conduction polarity and their identifying band structure

215 two different mechanisms for axis-dependent conduction polarity.

216 and two physical constrictions along the ion-conduction pore involving both the extracellular selecti

217 homodimeric architecture with a central ion-conduction pore lined by the side chains of the pore-lin

218 tention in electronics, due to their unusual conduction properties stemming from their inherent out-o

219 s, including atrioventricular block with 3:1 conduction ratio, QRS alternans in 2:1 atrioventricular

220 The requirements of this signal conduction remain elusive.

221 nal changes open the lateral portals for ion conduction, rendering ion conduction through the vertica

222 hese results indicate that asymmetric proton conduction requires a backbone hinge motion, whereas bid

223 oton-conduction, anhydrous atmosphere proton-conduction, single-crystal proton-conduction, and includ

224 Optical mapping showed significant conduction slowing in AF+AFLs and AF but not AFL, parall

225 Conclusions Wavefronts of conduction slowing/block may aid identification of criti

226 or association between MRI parameters, nerve conduction, strength, and body mass index (BMI).ResultsT

227 lis anterior muscle was confirmed with nerve conduction studies and immunohistochemical analysis of t

228 iber sensory polyneuropathy on sensory nerve conduction studies in all patients associated with lower

229 used quantitative sensory testing and nerve conduction studies to evaluate the function of large and

230 Nerve conduction study (NCS) abnormalities suggestive of demye

231 PN was defined by symptoms, signs, and nerve conduction study abnormalities in >=2 nerves; CAN was as

232 rminants, including abnormalities in impulse conduction (such as tissue fibrosis and other extra-card

233 The heartbeat is organized by the cardiac conduction system (CCS), a specialized network of cardio

234 the CCS into atrial node versus ventricular conduction system (VCS) components with distinct physiol

235 Left bundle branch block may be due to conduction system degeneration or a reflection of myocar

236 ) developed AV block while tamoxifen-induced conduction system deletion of Tjp1 distal to the AV node

237 d by ventricular pre-excitation, progressive conduction system disease and left ventricular hypertrop

238 sidered in patients with HCM and progressive conduction system disease.

239 tion site were studied to assess the risk of conduction system disturbance and were found highest in

240 tructural changes that could lead to cardiac conduction system dysfunction were seen.

241 s in TBX3 expression affect atrioventricular conduction system function.

242 electively governs Cacna1g expression in the conduction system in vivo.

243 ther and to what extent the atrioventricular conduction system is affected by Tbx3 dose reduction, we

244 the arrhythmogenic beats originate from the conduction system or the ventricular working myocardium.

245 We analyzed the Rush conduction system pacing registry on LBBP to assess the

246 rged as a promising alternative modality for conduction system pacing.

247 es that mHTT could cause progressive cardiac conduction system pathology that could increase the susc

248 other tissues including the atrioventricular conduction system, lungs, and liver.

249 es the structure and function of the cardiac conduction system, which may underlie the differences in

250 Mice with tamoxifen-induced conduction system-specific deletion of Tjp1 (Tjp1(fl/fl)

251 iched gene, and in Cacna1g, a down-regulated conduction system-specific gene.

252 -1) , and exceptional selectivity for Li-ion conduction (t(Li+) = 0.95) is reported.

253 iogram (ECG) abnormalities involving cardiac conduction that are known to increase risk of sudden arr

254 venue for stabilizing mixed ionic-electronic conduction thermoelectrics, and gives fresh insights int

255 d we find the primary contributor to be slow conduction through axonal collaterals within HVC, which

256 ationic dyes, which is usually attributed to conduction through ionotropic P2X receptors.

257 ponsible for maintaining appropriate AV node conduction through maintaining gap junction protein loca

258 al portals for ion conduction, rendering ion conduction through the vertical portal unlikely.

259 e of 7 to 11 ms and conduction block (CB) as conduction time >=12 ms.

260 ion delay (CD) was defined as interelectrode conduction time of 7 to 11 ms and conduction block (CB)

261 ahead of the His) due to the retrograde His conduction time.

262 uggesting that CB-M1 pathways with different conduction times interact with AP and PA networks.

263 regions drove gene expression in the cardiac conduction tissue in transgenic reporter mice.

264 this form is predicted to impede electrical conduction to an extent that appears incompatible with v

265 e DWs precludes the alternating current (ac) conduction under an excitation electric field perpendicu

266 and Co-HAB are determined to exhibit n-type conduction under both ambient and nitrogen conditions; N

267 ed on the softer substrates displayed higher conduction velocities (CVs) and improved electrophysiolo

268 ive correlations were found with sural nerve conduction velocities (NCVs) (r = -0.65, P < 0.001) and

269 ple carbon fibers per experiment, determined conduction velocities of some vagal signals in the affer

270 ock their action potentials and reduce their conduction velocities, as expected from previous knowled

271 VT with comparison of circuit dimensions and conduction velocity (CV) across a wide range of both sta

272 Characterizing myocardial conduction velocity (CV) in patients with ischemic cardi

273 correlations were found for the tibial nerve conduction velocity (r = -0.23; 95% CI: -0.44, -0.01; r

274 correlations were found for the tibial nerve conduction velocity (r = -0.24; 95% CI: -0.45, -0.01).

275 rdiac adipose tissue-secreted factors slowed conduction velocity and contained proteins with capacity

276 rthermore, inner-zone GCs have faster axonal conduction velocity and elicit faster synaptic potential

277 y ameliorated DPN by improving sciatic nerve conduction velocity and increasing thermal and mechanica

278 critical for the re-establishment of axonal conduction velocity and metabolic support to the axons.

279 caliber plays a crucial role in determining conduction velocity and, consequently, in the timing and

280 , we find that the variation in diameter and conduction velocity correlates with the mean diameter, c

281 aluate NINM effects on pain rating and nerve conduction velocity in DPN patients.

282 Although the conduction velocity of sciatic nerves of mutant mice sho

283 t of adaptive, activity-dependent changes in conduction velocity on the large-scale phase synchroniza

284 ardiac wavelength, due to the attenuation of conduction velocity slowing (p = 0.03), and the preserva

285 Unlike conduction velocity slowing and APD heterogeneity, the m

286 MD, increased myelination and restored nerve conduction velocity, motor function and lifespan of the

287 Axonal conduction velocity, which ensures efficient function of

288 ectrophysiology, increasing action potential conduction velocity.

289 mation processing in addition to speeding up conduction velocity.

290 s that intercellular coupling determines the conduction velocity.

291 is due to the increase of the dispersion of conduction velocity.

292 increased P-wave duration and slowed atrial conduction velocity.

293 the gene desert upstream of TBX3 in cardiac conduction velocity.

294 cted included lead deployment success, nerve conduction, ventilation variables, work of breathing, el

295 Ventricular conduction was not altered despite decreased localizatio

296 Unexpectedly, conduction was unimpaired in the locked channels.

297 xplanted human hearts depress intranodal SAN conduction, which worsens during autonomic stimulation a

298 tors reveal tunable ambipolar charge carrier conduction with an electron mobility up to ~294 cm(2) V(

299 at low temperature is dominated by the edge conduction with the nonlinear behavior.

300 uth of K(+)-channels pore, stopping K(+)-ion conduction, without inducing conformational changes.