ライフサイエンスコーパス: low-voltage

1 n improve mapping resolution within areas of low voltage.

2 l (LEC), the polymer emits infrared light at low voltage.

3 ing the load vanishes to enable switching at low voltage.

4 of basal LV epicardial > endocardial bipolar low voltage.

5 ending on the frequency applied at sustained low voltage.

6 < 10% of left atrial surface area) of atrial low voltage.

7 mely thin electrodes, and can be actuated at low voltage.

8 duce an even-distributed electric field with low voltage.

9 n improve mapping resolution within areas of low voltage.

10 nce the OFET transconductance when driven at low voltages.

11 that leads to inefficient electrophoresis at low voltages.

12 strates and scaled the devices to operate at low voltages.

13 nnels, unique CaV1 channels that activate at low voltages.

14 ropy of NiFe can be electrically modified by low voltages.

15 on to achieve gigahertz digital switching at low voltage (0.1 V).

16 /VF; they were found to have unique abnormal low voltage (0.94+/-0.79 mV), prolonged duration (132+/-

17 hieve simultaneous high-speed (25 Gb s(-1)), low-voltage (0.5 VPP) and efficient 0.9 fJ per bit error

18 roducible rectification ratios above 1000 at low voltage (2.7 V).

19 uid chromatography (GLC) in combination with low voltage (30 eV) electron ionization ion trap mass sp

20 and reactivity with the SWNT, as revealed by low-voltage aberration-corrected high-resolution transmi

21 VI only and patients requiring PVI+selective low-voltage ablation (P = 0.42).

22 gamma(6) calcium channel subunit to modulate low voltage activated (Cav3.1) calcium current density.

23 capable of acting as a negative modulator of low voltage activated calcium current.

24 erstanding of gamma(6) subunit modulation of low voltage activated calcium current.

25 ity induces rapid Ca(2+) signals mediated by low-voltage activated Ca(2+) channels under strict inhib

26 These data identify a role of low-voltage activated calcium channels in synaptic plast

27 Mitral cells express low-voltage activated Cav3.3 channels on their distal ap

28 The present study tested the hypothesis that low-voltage activated Kv1 channels affect threshold dyna

29 dered inhibitory because of this increase in low-voltage activated outward currents.

30 have indicated that T-type calcium channels (low-voltage activated T-channels) are potently inhibited

31 mall molecule that has been shown to inhibit low-voltage activated T-type Ca(2+) channels (TCCs).

32 After 24 h in NA, additional low-voltage activated transient Ca(2+) current developed

33 alocytes in noradrenaline for 24 h induced a low-voltage activated transient Ca(2+) current whose pha

34 nnels, it has been reported to block T-type (low-voltage activated) calcium channels.

35 We have tested the hypothesis that low voltage-activated (LVA) and nonvoltage-gated (NVG) c

36 e calcium channel gamma(6) subunit modulates low voltage-activated (LVA) calcium current in both huma

37 Voltage clamp recordings revealed transient low voltage-activated (LVA) currents with activation bet

38 Ca(v)3.x gene family members, encoding low voltage-activated (LVA) or T-type channels, were fir

39 Low voltage-activated (LVA), T-type, calcium channels me

40 g Ca(2+) channel subunit Ca(V)3.2 mediates a low voltage-activated (T-type) Ca(2+) current (I(CaT)) t

41 Low voltage-activated (T-type) Ca2+ channels are respons

42 These channels are low voltage-activated calcium channels that play a key r

43 annels coimmunoprecipitate and interact with low voltage-activated Cav3.2 Ca(2+) channels at the nano

44 the brake and its function to maintain these low voltage-activated channels closed at resting membran

45 d Ca(2+) channels (Ca(v)1.3) responsible for low voltage-activated L-type Ca(2+) current.

46 tial amplitudes were mediated extensively by low voltage-activated potassium channels containing the

47 erbalancing the suppression of EPSP peaks by low voltage-activated potassium channels.

48 All three forms of recombinant low voltage-activated T-type Ca(2)(+) channels (Ca(v)3.1

49 and has been considered electrically silent, low voltage-activated T-type Ca(2+) channels are assumed

50 recent evidence that H2 S is a modulator of low voltage-activated T-type Ca(2+) channels, and discri

51 Low voltage-activated T-type Ca(v)3.2 calcium channels a

52 ras between P/Q channels and Gem-insensitive low voltage-activated T-type channels, we identify a reg

53 ure, at 23 A resolution, for a member of the low voltage-activated voltage-gated calcium channel fami

54 from proenkephalin, inhibited high (but not low) voltage-activated Ca2+ current in both DRG and SCG

55 ntaining TN cells examined, we recorded both low-voltage-activated (LVA) and high-voltage-activated (

56 Ca(2+) channels, only OFF RGCs also express low-voltage-activated (LVA) Ca(2+) channels.

57 nction and responsiveness of high (HVA)- and low-voltage-activated (LVA) Ca2+ channels to IGF-1, usin

58 modifier toxins have been reported to target low-voltage-activated (LVA) calcium channels, and the st

59 otransmitter release, and stimulate thalamic low-voltage-activated (LVA) currents that contribute to

60 inent high-voltage-activated (HVA) and small low-voltage-activated (LVA) macroscopic (whole-cell) Ca

61 Although the presence of low-voltage-activated (T-type) Ca channels in nuclear ne

62 Low-voltage-activated (T-type) calcium channels are resp

63 trous oxide's selective inhibition of CaV3.2 low-voltage-activated (T-type) calcium channels in pain

64 activated Ca(2+) channels, the inhibition of low-voltage-activated Ca(2+) channels is subtype-depende

65 ptic hyperpolarization and deinactivation of low-voltage-activated Ca(2+) channels.

66 epolarized level, are further boosted by the low-voltage-activated Ca(2+) conductance.

67 activated calcium channels without affecting low-voltage-activated calcium channels.

68 ent (I(h)), persistent Na+ current (I(NaP)), low-voltage-activated calcium current (I(L/T)) mediated

69 D3 receptor activation was found to regulate low-voltage-activated CaV3.2 calcium channels localized

70 maturing (P7-P9) type I hair cells acquired low-voltage-activated channels that shortened the rise t

71 inner-ear mechanisms (transducer adaptation, low-voltage-activated channels, nonquantal transmission,

72 d more simply on the selective expression of low-voltage-activated ion channels by irregular afferent

73 signal with temporal precision depends on a low-voltage-activated K(+) conductance (gKL) and a hyper

74 uctances are relatively small, in particular low-voltage-activated K(+) conductances (K(LVA)).

75 Low-voltage-activated Kv1-type (dendrotoxin-I sensitive)

76 These immature nodal structures lacked low-voltage-activated KV1.1 which was not enriched at ju

77 Thus, potentiation of a low-voltage-activated L-type current by synaptically rel

78 of type I hair cells is the expression of a low-voltage-activated outward rectifying K(+) current, I

79 named the calyx, and by the expression of a low-voltage-activated outward rectifying K(+) current, I

80 A strong, low-voltage-activated potassium conductance (g(KL)) at t

81 Interestingly, we also found a low-voltage-activated potassium conductance present at E

82 A low input resistance and activation of a low-voltage-activated potassium conductance that are cha

83 rolling subthreshold synaptic integration: a low-voltage-activated potassium current (I(K-LVA)) and a

84 nd genetic data indicate a prominent role of low-voltage-activated T-type calcium channels (T-channel

85 e, and in mice, secondarily elevate neuronal low-voltage-activated T-type calcium currents.

86 e for calcium entry into T cells-through the low-voltage-activated T-type CaV3.1 calcium channel.

87 Calcium currents via low-voltage-activated T-type channels mediate burst firi

88 oes occur, but there is little evidence that low-voltage-activated, Ca(v)3 ("T-type"), channels take

89 , voltage ramps revealed a non-inactivating, low-voltage-activated, nimodipine-sensitive current that

90 CACNA1H is a human gene encoding Ca(v)3.2 low-voltage-activated, T-type calcium channels associate

91 itability of these neurons, secondary to the low voltage-activating, noninactivating K(V)7/M channels

92 providing scar-related EP characteristics of low voltages, altered SR activation, electrogram fragmen

93 e) use of real-time modeling of conventional low-voltage alternating-current impedance spectroscopy t

94 h these electrodes could be smaller than the low-voltage aluminum electrolyte capacitors that are typ

95 d easily with carbon nanotube (CNT)-assisted low-voltage ambient ionization mass spectrometry.

96 ENODe switches at low voltage and energy (<10 pJ for 10(3) mum(2) devices)

97 The agreement between low voltage and fat on multidetector computed tomography

98 bination of noninvasive parameters-namely, a low voltage and increased intraventricular septal thickn

99 gistic regression models, a combination of a low voltage and measures of myocardial thickness produce

100 se scar [DS] and low voltage areas, unipolar low voltage and penumbra areas) and morphology character

101 egative predictive value for poor outcome of low-voltage and isoelectric electroencephalogram pattern

102 for predicting poor neurological outcome of low-voltage and isoelectric electroencephalogram pattern

103 The univariate analysis showed that low-voltage and pseudo-infarction patterns on the ECG an

104 t have characteristics of reduced amplitude (low voltage) and fractionation.

105 l limit, in both the variable-range-hopping (low-voltage) and sequential-tunnelling (high-voltage) re

106 c arrest, the combined group of isoelectric, low voltage, and "burst-suppression with identical burst

107 ual addressability, fast switching time with low voltage, and no moving solid parts.

108 imately 500 mJ/m(2) to near zero) using very low voltage, and the change is completely reversible.

109 may serve as useful devices for high-current/low-voltage applications and as testbeds for probing ele

110 lose to the visible spectrum with remarkably low voltages ( approximately 3 V).

111 These TFTs operate at low voltages (approximately 4.0 V) and exhibit good visi

112 llation (AF), left atrial diameter (LAD) and low voltage area (LVA) are intermediate phenotypes that

113 Mean total low voltage area in patients with ICM was 101 +/- 55 cm(

114 Within the total low voltage area, vLP were observed more frequently in I

115 <5 mm area was smaller than the endocardial low-voltage area (54 cm(2) [Q1-Q3, 46-92] versus 71 cm(2

116 ardial area was greater than the endocardial low-voltage area (55.3 +/- 33.5 cm(2) vs. 22.9 +/- 32.4

117 atients with nonischemic cardiomyopathy, the low-voltage area by far exceeded the area accounted for

118 r amplitude <0.5 mV) with a 47% smaller very low-voltage area identified using 1-mm electrode cathete

119 In patients without cardiomyopathy, the low-voltage area matched well with the area of epicardia

120 The extent of bipolar RV endocardial low-voltage area was a powerful predictor of arrhythmic

121 The presence and extent of LA low voltage areas may influence the long-term outcomes a

122 The presence of LA low voltage areas was a predictor of 12-month AF recurre

123 diofrequency catheter ablation of AF, but LA low voltage areas were more frequently observed in patie

124 LA low voltage areas were observed in 46% of patients with

125 Left atrial (LA) low voltage areas were semiquantitatively estimated and

126 ysis of voltage (bipolar dense scar [DS] and low voltage areas, unipolar low voltage and penumbra are

127 All patients had unipolar low voltage areas, whereas 18% had no identifiable endoc

128 MetS was an independent predictor of LA low voltage areas: odds ratio, 11.64; 95% confidence int

129 Low-voltage areas (<1.5 mV) and local abnormal ventricul

130 Low-voltage areas (<1.5 mV) were commonly identified on

131 rval, 1.4-8.8; P=0.03) and extent of bipolar low-voltage areas (hazard ratio=1.7 per 5%; 95% confiden

132 atrial voltage mapping, PVI, and ablation at low-voltage areas (LVA < 0.5 mV in AF) associated with e

133 blation of atrial fibrillation (AF) based on low-voltage areas (LVAs) in the left atrium (LA).

134 elping to identify propagating activation in low-voltage areas from nonconducting tissue.

135 ationship of ventricular tachycardia (VT) to low-voltage areas in dilated cardiomyopathy (DCM).

136 LV perivalvular low-voltage areas noted in 5 patients were associated wi

137 estimated burden of bipolar versus unipolar low-voltage areas of 24.8% (7.2-31.5) and 64.8% (39.8-95

138 With median bipolar and unipolar low-voltage areas of 37 and 116 cm(2), respectively, 22%

139 Epicardial low-voltage areas showed 49.7% wide (>80 ms), split, and

140 The bipolar and unipolar low-voltage areas were compared, and direct electrogram

141 Confluent low-voltage areas were present in 18 epicardial (82%) an

142 , abnormal electrograms disappeared, whereas low-voltage areas were replaced by scar areas (<0.5 mV)

143 ured following periods of calendar ageing at low voltages, at and well below the manufacturer's recom

144 were collected from an area with discordant low-voltage bipolar/normal unipolar EVM and they showed

145 o 60% of baseline) whereas the percentage of low-voltage BSWS was not affected.

146 nificant differences in bipolar and unipolar low-voltage characterization of scar were observed with

147 This approach is readily applicable to low-voltage circuit integration, as this work exemplifie

148 nt remaining challenge is the achievement of low-voltage circuit operation.

149 The low voltage combined with a higher density than graphite

150 Low-voltage complementary circuits comprising n-type and

151 Printed low-voltage complementary inverters based on electrolyte

152 Our approach enables low-voltage complementary n-type and p-type transistor o

153 ide 3-kinase blocker wortmannin, whereas the low-voltage component is not.

154 tES) is a neuromodulatory technique in which low voltage constant or alternating currents are applied

155 ic (FM) based heterostructures which exhibit low voltage-controlled magnetic anisotropy (VCMA) effici

156 zing the performance of MeRAM devices is the low voltage-controlled magnetic anisotropy (VCMA) effici

157 Here, the first report of low-voltage-controlled molecular release with a novel or

158 etween the areas of WT <5 mm and endocardial low voltage (correlation-R=0.82; P=0.001), but no such c

159 Importantly, 54.4% of all low voltage data points recorded with 1-mm electrode cat

160 ielectric constant gate insulator layers for low-voltage device operation.

161 Unipolar low-voltage distribution in nonischemic cardiomyopathy a

162 o weakly or highly anisotropic attractive by low-voltage electric fields.

163 eates passive contraction of muscles through low-voltage electrical impulses delivered through skin e

164 -micrometer electrodic cavity, which enables low-voltage electrical operation of pi-gels.

165 ilicon is inexpensive, reusable, and runs on low-voltage electrical power.

166 theoretical challenges and possibilities for low-voltage electro-optic devices.

167 rate the possibility to set up an efficient, low-voltage, electrochemical cell that converts CO2 into

168 Isoelectric or low-voltage electroencephalograms after 24 hrs predicted

169 use of unipolar EVM unmasked >/=1 region of low-voltage electrogram affecting 26.2% (11.6-38.2) of R

170 e only independent predictor was the bipolar low-voltage electrogram burden (hazard ratio=1.6 per 5%;

171 The LP were defined as low voltage electrograms (<1.5 mV) with onset after the

172 ent bipolar (<1.5 mV) and unipolar (<6.0 mV) low-voltage electrograms was estimated using the CARTO-i

173 emonstrate a novel type of high-temperature, low-voltage electromechanical oxide actuator based on th

174 A low voltage electropolishing of metal wires is attractiv

175 Patterns were classified as isoelectric, low voltage, epileptiform, burst-suppression, diffusely

176 To test the safety of the batteries at low voltages, external short-circuit tests were performe

177 e include the presence of a discrete zone of low voltage fast activity and prolonged propagation time

178 sy can be classified as hypersynchronous and low-voltage fast according to their onset patterns.

179 ry cortex that resembles focal seizures with low-voltage fast activity at onset observed in humans.

180 bral cortex and REM sleep by an "activated," low-voltage fast electroencephalogram (EEG) paradoxicall

181 200 Hz) and fast ripples (250-500 Hz) during low-voltage fast-onset (LVF) and hypersynchronous-onset

182 optogenetically induced seizures had similar low-voltage fast-onset patterns.

183 Experimental evidence suggests that low-voltage fast-onset seizures mainly result from the s

184 interneuronal networks in the initiation of low-voltage fast-onset seizures.

185 ation of 4-aminopyridine), the initiation of low-voltage, fast and of hypersynchronous onset seizures

186 It has been suggested that the low-voltage, fast onset pattern is mainly contributed by

187 genetic activation of interneurons displayed low-voltage, fast onset patterns that were associated wi

188 assified, based on their onset pattern, into low-voltage, fast versus hypersynchronous onset seizures

189 Although demonstrated on silicon, low-voltage field ionization can be detected on any shar

190 Here, we report the fabrication of a low-voltage field-effect transistor with a vertical vacu

191 The low-voltage field-ionization phenomena observed here can

192 e functionality of ion gels by demonstrating low-voltage, flexible electrochemiluminescent (ECL) devi

193 switch on intercalation at an unprecedented low voltage for an oxide?

194 g high concentrations of salt and relatively low voltage for the spray.

195 which was then compared with the regions of low voltage from electroanatomic maps from the pulmonary

196 on threshold" that differentiated functional low voltage from nonconducting areas for each map.

197 getically coupled during the activation of a low voltage-gated T-type CaV3 channel.

198 analyzed the voltage dependence of high- and low-voltage-gated Ca(2+) channels.

199 dies emphasized the importance of the T-type low-voltage-gated calcium channels (VGCC) in different c

200 ecordings and computational modeling, that a low-voltage-gated potassium current, IKLT, underlies the

201 Low-voltage-guided substrate modification is an emerging

202 tive and improved objective image quality of low-voltage half-dose CT angiograms compared with standa

203 quid gating on a functional thin film with a low voltage has drawn a lot of attention due to rich che

204 ty (high voltage low frequency, HVLF, versus low voltage high frequency, LVHF), are not well defined.

205 capable of overcoming this effect, allowing low-voltage high-mobility operation.

206 Aberration-corrected, low-voltage, high-resolution transmission electron micro

207 showed high wall stress was associated with low voltage (ie, <0.5 mV) and electrical scar (ie, <0.05

208 ultiple molecules into various cell types at low voltage in a dosage-controlled manner.

209 ro pre-treatment of samples and operation at low voltages in a direct electron transfer mode.

210 in Xenopus oocytes and measured the onset of low-voltage inactivation under two-electrode voltage cla

211 emiquantitatively estimated and presented as low voltage index.

212 rence increased with 84.5% for every unit of low voltage Index.

213 ide, mineralocorticoid receptor antagonists, low voltage, ineligibility for chemotherapy, response to

214 In 11 patients, 13 confluent low-voltage infarct regions were present.

215 ction into the chemisorbed molecular ring at low voltage, injection into the physisorbed molecular ri

216 rochemical actuation, providing a low power, low voltage integrated Laboratory-on-a-Chip for reproduc

217 nt for the future design and optimization of low-voltage intercalation anodes for lithium batteries.

218 The secondary ions are extracted at very low voltage into 8 mTorr of N 2 gas introduced for colli

219 his work provides a basis for development of low-voltage ionization sensors.

220 anic complexes further enhances the scope of low-voltage ionization.

221 electric-field-driven magnetic switching at low voltage is achievable by design.

222 Markedly, these devices operated at very low voltages (less than 500mV) and were able to monitor

223 This is compared with low-voltage lithium intercalation for unstrained MoS2.

224 In particular, the low voltage loss of these cells implies a remarkably low

225 illators, constructed from high-performance, low-voltage, low-hysteresis CdSe nanocrystal field-effec

226 ufficient to treat patients with left atrial low voltage < 10%.

227 ed in voltage attenuation and best separated low voltage (<1.5 mV) from normal voltage (>/=1.5 mV; se

228 polar switching memory characteristics, with low voltage (<1.5 V) operation, no significant retention

229 It operates with high transmission, low voltage (<2 Vrms), fast response (<1 sec), diffracti

230 effect mobility of 91 cm(2) V(-1) s(-1), at low voltage (<5 V).

231 ive inorganic semiconductor function well at low voltages (<+/-4.0 V).

232 er infarction is characterized by regions of low-voltage (<1.5 mV) scar on electroanatomic maps.

233 voltage and LGE CMR signal intensities with low voltage occurring across a large range of signal int

234 Moreover, we achieve 10 mA cm(-2) at a low voltage of 1.44 V for 48 h in basic media for overal

235 erall-water-splitting with 10 mA cm(-2) at a low voltage of 1.64 V is achieved using the ternary elec

236 g-time stable and can be induced by applying low voltages of 200 mV.

237 otension and cyanosis, pericardial effusion, low voltage on the electrocardiogram, marked elevation o

238 The impact of low voltages on microbial attachment to electrically con

239 tform enables straightforward integration of low-voltage, on-chip EOPs into portable microfluidic dev

240 ge hole mobilities up to 17.2 cm(2)/(V.s) in low-voltage operating devices.

241 Low-voltage-operating organic electrochemical light-emit

242 ansmission electron microscope optimized for low voltage operation can resolve and identify the chemi

243 ents down to 6 x 10(-9) A cm(-2) that enable low voltage operation of p-type semiconducting single-wa

244 stance than interconnection wire resistance, low voltage operation, low power consumption, long-term

245 lies that exhibit a practical combination of low-voltage operation and efficient electrochromic switc

246 ude longitudinal-field reduction demanded by low-voltage operation plays a fundamental role, enabling

247 ole) and shows that the general paradigm for low-voltage operation via an enhanced gate-to-channel ca

248 acid to a target solution, and demonstrates low-voltage operation, high drug-delivery capacity, and

249 cal advances, such as device scalability and low-voltage operation, is achieved in the future.

250 Low-voltage organic field-effect transistors (OFETs) pro

251 ibes and correlates the threshold voltage of low-voltage organic field-effect transistors with the mo

252 approximately 300 nF cm(-)(2)), and enabling low-voltage OTFT functions.

253 Here, we present a means of addressing the low voltage output by introducing novel trimetallic nitr

254 conversion efficiencies (PCEs) has been the low voltage output caused by a molecular orbital mismatc

255 However, low power and low voltage output of MFCs typically do not allow direct

256 nstitute an important milestone in realizing low-voltage polymer transistors for solution-based analo

257 Through manipulation of channel geometry, a low-voltage power source (500 V max) was used to selecti

258 a substrate in a fraction of a second via a low-voltage pulse that drives electroosmotic flow.

259 However, low-voltage QRS complex is not a uniform finding with th

260 Low-voltage QRS complex was the sine qua non of infiltra

261 athode carbon nanotubes (CNTs) are used in a low-voltage quadrupole ion trap mass spectrometer and sh

262 t receptor potential-like conductance in the low-voltage range, and in the high-voltage range, a Ca(2

263 RM helps to define activation through low-voltage regions and aids ablation of atrial tachycar

264 Regional myocardial WT correlates to low-voltage regions and distribution of LAVA critical fo

265 In patients with a paucity of dense, low-voltage regions identified during substrate mapping,

266 Low-voltage regions were also assessed for wide (>80 ms)

267 s to its ability in identifying and locating low-voltage regions.

268 The combined attributes of flexible design, low voltage requirements and lossless ion transmission t

269 mbined attributes of the flexible design and low voltage requirements for the TW-SLIM module provide

270 Endocardial voltage mapping (EVM) identifies low-voltage right ventricular (RV) areas, which may repr

271 ity of designer channels, which accounts for low-voltage sensitivity in all known temperature-gated i

272 ion atrial tachycardias are characterized by low-voltage signals that challenge current mapping metho

273 tion (PVI) plus ablation of selective atrial low-voltage sites may be more successful than PVI only.

274 y recorded cells, as well as K-complexes and low-voltage spindles in the local field potential.

275 cortical oscillations including K-complexes, low-voltage spindles, and high-voltage spindles.

276 memory trace reactivation is correlated with low-voltage spindles, it is not correlated with high-vol

277 in wall stress were associated with areas of low voltage, suggestive of focal remodeling.

278 ulti-level analog states, "write" linearity, low-voltage switching, and low power dissipation.

279 uding potassium (K(ATP), A-type) and calcium low voltage T-type and high voltage L-type currents.

280 on occurring in solution was captured by the low-voltage technique.

281 dence of the differential conductance at the low voltages that operate in biological systems.

282 to produce high-mobility ZnO thin films for low voltage thin-film transistors (TFTs) and digital log

283 : structural adaptations in CaV1.3 mediate a low-voltage threshold for activation, and alterations in

284 c dielectric P(VDF-TrFE-CFE), we demonstrate low-voltage transistors with hole mobilities on the orde

285 Low-voltage transmission electron microscopy has shown a

286 odes, we prepared an all-solution-processed, low-voltage transparent oxide transistor on an ITO glass

287 of patients in group I with a low amount of low voltage undergoing PVI only and patients requiring P

288 from an area with discordant normal bipolar/low-voltage unipolar EVM and they were diagnostic or sug

289 The nanoscale depth of the device and the low voltage used limit convection relative to diffusion,

290 It is believed that the plasma generated by low-voltage, vacuum spark, via a pulsed DC in Spark Plas

291 greater release in the hemisphere displaying low-voltage (waking) EEG activity, linking acetylcholine

292 Pacing threshold within the area of low voltage was lower with 1-mm electrode catheters (0.9

293 e of the tachycardia from within the area of low voltage was more frequent with 1-mm electrode cathet

294 For instance, one model showed that if a low voltage was present and interventricular septal thic

295 an bipolar voltage amplitude in this area of low voltage was significantly higher with 1-mm electrode

296 icide transformations, particularly those at low voltages, which are highly relevant to practical cyc

297 ielectrics, enabling transistor operation at low voltages with kilohertz switching frequencies.

298 annel light-emitting transistor operating at low voltage, with low power dissipation, and high apertu

299 One treatment of 16 or 24 Gy low-voltage x-ray therapy with as-needed ranibizumab app

300 w-temperature conversion method to fabricate low-voltage ZnO transistors with electron mobilities exc