ライフサイエンスコーパス: impulse

1 sducing magnetic information into a neuronal impulse.

2 urge to act and a failed inhibition of that impulse.

3 tion and propagation of the cardiac electric impulse.

4 f on-phase and 30 s of off-phase and a 25 Hz impulse.

5 ally lead to the generation of an electrical impulse.

6 a cell and converts this signal into a nerve impulse.

7 l for initiation and propagation of neuronal impulses.

8 of sound, motion, and gravity into neuronal impulses.

9 the basis for saltatory conduction of nerve impulses.

10 acts to convert auditory stimuli into neural impulses.

11 n released from MCs initiates Abeta-afferent impulses.

12 stantial temporal integration across whisker impulses.

13 tion tracts designed to propagate electrical impulses.

14 re the anisotropic propagation of electrical impulses, a function mainly accomplished by gap junction

15 (IMPULSE: A Safety and Feasibility Study of the IOWA Appr

16 sheaths to regulate the conduction of nerve impulses across the brain, hence critically impacting ne

17 It was proposed that impulses acting on the boundary might lead to a trapping

18 sion of ion channel subunits associated with impulse activity (Cav1.2, Cav1.3, HCN1, Nav1.2, and NavB

19 The relationship between neuronal impulse activity and neurotransmitter release remains el

20 ), the phenomenon that brief, high-frequency impulse activity at synapses in the brain can lead to lo

21 e ubiquitous TRPV1 channel, thereby lowering impulse activity in the peripheral nociceptor endings un

22 lying cellular preselection, we recorded the impulse activity of VTA neurons in response to cocaine a

23 other discovery is that nerve-evoked muscle impulse activity, rather than putative trophic factors,

24 hat resists temptations - variously known as impulses, addictions, or bad habits; that it operates si

25 rial duration, the movement speed, the force impulse after insertion and the endpoint stiffness magni

26 d for the saltatory conduction of electrical impulses along axons.

27 er and in the rapid propagation of the nerve impulses along myelinated axons.

28 critical balance between the strength of an impulse and an individual's ability to inhibit the desir

29 ion and conduction of the cardiac electrical impulse and are associated with various arrhythmia pheno

30 recently with the demonstration using focal impulse and rotor modulation (FIRM) mapping that rotors

31 on of atrial fibrillation (AF) include focal impulse and rotor modulation (FIRM) mapping, and initial

32 Focal impulse and rotor modulation (FIRM) with an endocardial

33 Ablation comprised source (focal impulse and rotor modulation [FIRM]) and then convention

34 or Atrial Fibrillation With or Without Focal Impulse and Rotor Modulation) trial, in which 92 consecu

35 ochlea, the temporal gap between the primary impulse and the following coda ranges from once to thric

36 late cell division, circadian rhythms, nerve impulses and chemotaxis, and guide the development of or

37 in the brain communicate through electrical impulses and coordinate this activity in ensembles that

38 ent evidence regarding the reward aspects of impulses and desires, the neural mechanisms that underli

39 in the tendency to seek stimulation, act on impulse, and engage in substance use are correlated with

40 the differences in the hourly transient IOP impulse, and transient IOP fluctuation frequency and mag

41 cess model of self-control to illustrate how impulses are generated and regulated, emphasizing opport

42 and allow the fast propagation of electrical impulses, are produced by oligodendrocytes.

43 SI), FibroScan, and acoustic radiation force impulse (ARFI) in a cohort of NAFLD patients who underwe

44 improvement in the acoustic radiation force impulse (ARFI) technology-most notably the addition of a

45 ging technique, and acoustic radiation force impulse (ARFI), an ultrasound-based imaging technique, a

46 h the presynaptic membrane (PM) when a nerve impulse arrives.

47 actical applications, its predicted specific impulse as a solid rocket propellant would be 333 s.

48 machine was used to provide a short pulling impulse at the waist in the anterior direction to ten da

49 inated axons can conduct sustained trains of impulses at high frequency, but this involves substantia

50 hold mechanoreceptors (Abeta-LTMRs) generate impulses at their terminals in the skin.

51 tion solving the transient mass, energy, and impulse balance.

52 l (AVC) is essential for delay of electrical impulses between atria and ventricles, and defects in AV

53 ar excitation-consists of not only a primary impulse but also a coda of delayed secondary responses w

54 current stimulation (tDCS) preserves action impulses but prevents their behavioral expression.

55 units did not effectively integrate whisker impulses, but instead combined weak impulse responses wi

56 , elevated the generation and propagation of impulses by LTMRs, and altered the spinal cord circuitry

57 The electrons introduced by the current impulse cause reduction and devolatilization of the ash

58 pal determinants, including abnormalities in impulse conduction (such as tissue fibrosis and other ex

59 nt sclerotic zones which-seemingly-constrain impulse conduction across restricted regions of electrot

60 Remarkably, impulse conduction continued throughout, and all these c

61 h rising body temperature is associated with impulse conduction failure.

62 myelination is essential for rapid saltatory impulse conduction in the nervous system, and malformati

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

64 channels (Nav) and thus underpin rapid nerve impulse conduction in the vertebrate nervous system [1].

65 logical changes in axons following sustained impulse conduction that appear to result from osmosis an

66 pace after they have entered the axon during impulse conduction.

67 of a small molecule drug that promotes nerve impulse conduction.

68 ode (SN) was dominant and AVRs displayed 1:1 impulse conduction.

69 t studies (~85%) did not screen for comorbid impulse control and related disorders.

70 duced brain function in regions intrinsic to impulse control and taste responsiveness, risk allele ca

71 a motor test, aimed at assessing changes in impulse control and visuomotor performance, respectively

72 t LHb dysfunction may contribute to impaired impulse control associated with drug addiction.

73 nectivity were in turn associated with lower impulse control at 24 months of age, and mediated the as

74 Impulse control behaviours (ICBs) are a range of behavio

75 made amongst participants with a history of impulse control behaviours based on the interaction of t

76 lications for studies examining deviances in impulse control by showing that the developmental path b

77 Some others now suggest that impulse control can bypass motivation altogether, althou

78 impulses varies greatly, and difficulty with impulse control can have severe consequences; in the ext

79 Here, we test the hypothesis that this impulse control capacity is driven by increased maturati

80 l Mn exposure causes lasting attentional and impulse control deficits in adulthood, and whether conti

81 trol, and may point to avenues for improving impulse control deficits in various neurologic and psych

82 cutive dysfunctions (i.e. hypervigilance and impulse control deficits, respectively).

83 o verify whether creativity is related to an impulse control disorder (ICD) as a complication of dopa

84 l measure, Parkinson's disease patients with impulse control disorder from those who do not experienc

85 not modulate pupillary reward sensitivity in impulse control disorder patients, whereas in control pa

86 Emerging evidence suggests impulse control disorder subtypes have dissociable corre

87 Impulse control disorders (ICD) are commonly associated

88 Impulse control disorders (ICD), including pathological

89 rkinson's disease (PD) patients suffers from impulse control disorders (ICDs), which are side effects

90 ts with Parkinson's disease (PD) suffer from impulse control disorders (ICDs).

91 mpulsivity is mild for some patients, severe impulse control disorders affect approximately 10% of ca

92 Individuals with impulse control disorders also exhibited heightened sens

93 ioural side-effects, such as dyskinesias and impulse control disorders also known as behavioural addi

94 Mechanisms underlying impulse control disorders and dyskinesias could provide

95 redictive of the risk of future emergence of impulse control disorders and may thereby provide the po

96 n-interventional, multicentre study (ICARUS (Impulse Control disorders And the association of neuRops

97 Impulse control disorders are commonly associated with d

98 Impulse control disorders are typically managed by reduc

99 ds to motor complications and, occasionally, impulse control disorders caused by intermittent stimula

100 treat patients with Parkinson's disease and impulse control disorders have shown efficacy in randomi

101 Impulse control disorders in Parkinson's disease are com

102 a contributing factor to the development of impulse control disorders in Parkinson's disease.

103 Impulse control disorders include a wide spectrum of beh

104 when ON dopamine medication, suggesting that impulse control disorders may not emerge simply because

105 sults was replicated even when patients with impulse control disorders on dopamine agonists were excl

106 Yet, the neural systems engaged in specific impulse control disorders remain poorly characterized.

107 atients with Parkinson's disease may develop impulse control disorders under dopaminergic treatments.

108 d between 15 PD patients with and 15 without impulse control disorders using independent t tests.

109 rkinson's disease patients with a history of impulse control disorders were compared to 26 patients w

110 ations, prolongation of the QT interval, and impulse control disorders were infrequent (prevalence <=

111 In patients with Parkinson's disease and impulse control disorders, impairments are observed acro

112 Impulse control disorders, including gambling disorder,

113 further implicating this STN subdivision in impulse control disorders.

114 n Parkinson's disease even in the absence of impulse control disorders.

115 ned because they are efficacious in treating impulse control disorders.

116 attention deficit hyperactivity disorder and impulse control disorders.

117 impulsivity in the majority of patients with impulse control disorders.

118 Impulse control disorders/other compulsive behaviours ('

119 n association with intersubject variation in impulse control in 114 young adults.

120 Difficulty with impulse control is heightened in children with a family

121 I as a novel neural substrate of maladaptive impulse control mechanisms that may facilitate the devel

122 , whereas associative ability (learning) and impulse control were spared.

123 techniques clarifies the neurophysiology of impulse control, and may point to avenues for improving

124 ractions with the world-attention and focus, impulse control, decision making, and working memory.

125 disorders, are characterized by deficits in impulse control, however the relationship between orexin

126 n other disorders with altered D2R-dependent impulse control, such as addiction.

127 was associated with a reduced efficiency in impulse control, whereas DS led to a relative impairment

128 e for vHP MCH signaling in the regulation of impulse control.

129 ALX5407 in the vmPFC alleviated deficits in impulse control.

130 ernal interleukin-6 concentrations and lower impulse control.

131 ldren completed a snack delay task to assess impulse control.

132 ead to premature movements mimicking lack of impulse control.

133 uld better explain individual differences in impulse control.

134 of PFC pyramidal neurons as key mediators of impulse control.

135 and impulsiveness, emotional regulation, and impulse control/error monitoring.

136 Recent evidence indicates that impulse-control deficits may contribute to the severity

137 ar disorder (BPD); however, the emergence of impulse-control disorders has been documented in Parkins

138 -wake disorders; 12% (10-15) for disruptive, impulse-control, and conduct disorders; 11% (9-13) for d

139 ve functions, including planning, reasoning, impulse-control, and making decisions based on contingen

140 nts who use deliberation to override selfish impulses: Deliberation only serves to undermine cooperat

141 persal by the parent fungus is limited to an impulse delivered to the spores to carry them clear of t

142 minals and lower frequency of nerve terminal impulse discharges under mechanical stimulation.

143 neurons generate uncharacteristic electrical impulses due to abnormal VGSC functional expression infl

144 either diagnostic ultrasound-guided high MI impulses during an intravenous Definity (Lantheus Medica

145 To measure aggressive impulses, each evening participants stuck between 0 and

146 Here, we use single-impulse electrical stimulation of the whisker pad in the

147 o be exceptional, with a calculated specific impulse exceeding that of AP, leading to its high potent

148 ic generator (FO-TEG) is applicable for both impulse excitation and sinusoidal vibration which univer

149 For the impulse excitation, the generated current sustains and s

150 High-current impulse experiments were performed on volcanic ash sampl

151 Using laboratory high-current impulse experiments, this research shows that within the

152 f safer, composite panels by controlling the impulses felt by protective screens.

153 in DRG neurons, HA decreases TRPV1-mediated impulse firing and channel sensitization by bradykinin.

154 further strengthening even in the absence of impulse flow.

155 t to these results, we hope to give a strong impulse for further investigation on studying possible r

156 tron microscope (SEM) is a technique gaining impulse for its ability to enable rapid and contactless

157 turn pathway for the sodium ions involved in impulse formation.

158 The model shows that the impulse frequency of different modules can differ from e

159 HMI impulses from a diagnostic transducer, combined with a c

160 bubble infusion, high mechanical index (HMI) impulses from a diagnostic ultrasound (DUS) transducer m

161 demonstrated that high mechanical index (MI) impulses from a diagnostic ultrasound transducer during

162 gauge the ability to prevent these incorrect impulses from turning into overt action errors.

163 ear relationship between signal injected and impulse generated.

164 We were able to rescue the failure of impulse generation and conduction by additional genetic

165 The sodium channel Nav1.7 is crucial for impulse generation and conduction in peripheral pain pat

166 ng a specific role for the junction cells in impulse generation and in SAN-atrial exit conduction.

167 Unlike in most neurons, amplification and impulse generation by voltage-gated channels are dispens

168 dysfunction), electrical refractoriness, and impulse generation.

169 dels to understand sinus node physiology and impulse generation.

170 t but not the right ventral striatum of high-impulse (HI) rats compared with low-impulse (LI) rats.

171 es in nerve conduction velocity following an impulse (i.e. velocity recovery cycles) reflect after-po

172 ing system in which acoustic radiation force impulse imaging (ARFI) and shear wave elasticity imaging

173 ssociated with increases in sexual drive and impulse in both men and women.

174 inear increase across steppes, and an abrupt impulse in desert-steppes following a slight increase in

175 increases with blast overpressure (BOP) and impulse in dose-dependent manner.

176 ing body sway, as revealed by an early force impulse in the opposite direction to that seen in LG.

177 hysiology because they transmit depolarizing impulses in enteric neurons, thereby enabling the coordi

178 Intense electromagnetic impulses induced by Jupiter's lightning have been recogn

179 In this work, we demonstrate that a voltage-impulse-induced ferroelastic domain switching in the (01

180 specialized for the conversion of electrical impulses into the exocytotic release of neurotransmitter

181 of relativistic nonlinear optics of plasmas, impulse IR spectroscopy and pump-probe experiments in th

182 that interaction between these two types of impulse is central to cerebellar cortical information pr

183 mary impulse (the group delay of the primary impulse is on the order of a few hundred microseconds).

184 Rapid conduction of nerve impulses is critical in life and relies on action potent

185 sker impulse sequences that varied in single-impulse kinematics (5-20-ms time scale) and mean speed (

186 ostly 5-10 ms), accurately reflecting single impulse kinematics.

187 The temperature dependence of peak impulse latency was weakened at temperatures above 30 de

188 of high-impulse (HI) rats compared with low-impulse (LI) rats.

189 se variations can be characterized by single impulse-like progression patterns.

190 anglion (DRG) neurons controlling electrical impulses may have abnormal activity during latent viral

191 resent study, we designed a micro-electrical impulse (micro-EI)-on-a-chip (micro-EI-chip), which can

192 By fitting a representative impulse model to each gene, it reports differentially ex

193 dataset based on the biologically-motivated impulse model, LPWC is the only method to recover the tr

194 Horizontal motion is stabilized by total leg impulse modulations, whereas the vertical motion is stab

195 The speed of electrical impulse movement through axons is increased by myelin, a

196 re randomized to either DUS intermittent HMI impulses (n = 20) just prior to emergent percutaneous co

197 ly correct trials, revealing covert response impulses not discernible in overt behavior.

198 sufficient details, including a plot of the impulse or step response as an inset.

199 e self-control necessary to reign in selfish impulses, or does self-interested deliberation restrain

200 We have demonstrated that the impulse oscillation system and TremoFlo FOT demonstrate

201 eak expiratory flow, diffusing capacity, and impulse-oscillometric findings.

202 ared two commercially available FOT devices: Impulse Oscillometry (IOS) and TremoFlo FOT (Thorasys) i

203 nd (ii) small airway involvement measured by impulse oscillometry (IOS) in adolescence.

204 emonstrated that VH markers derived by using impulse oscillometry (IOS) or multiple-breath washout (M

205 We used impulse oscillometry (IOS) to compare single and repeate

206 ma and 18 healthy control subjects underwent impulse oscillometry (IOS), multiple breath inert gas wa

207 minus resistance at 20 Hz measured by using impulse oscillometry (R5-R20) values.

208 ults relative to group 1, particularly their impulse oscillometry and spirometry measurements, and gr

209 Impulse oscillometry and spirometry results, which were

210 (a milder and a more severe group) by use of impulse oscillometry and spirometry, which are easy to u

211 Levels of impulse oscillometry reactance area indicating periphera

212 In multivariate analyses higher impulse oscillometry reactance area was associated (P =

213 At 4-year follow-up visit, impulse oscillometry with exercise challenge was perform

214 s, such as spirometry, body plethysmography, impulse oscillometry, and multiple breath nitrogen washo

215 pants with spirometry, body plethysmography, impulse oscillometry, multiple breath nitrogen washout,

216 l effect on airway resistance as measured by impulse oscillometry, this finding was of uncertain sign

217 cilitates the rapid conduction of electrical impulses over long distances.

218 d higher ankle plantar flexor moment angular impulse (p = 0.002), total support moment impulse (p = 0

219 ar impulse (p = 0.002), total support moment impulse (p = 0.016), and hip stance positive work (p = 0

220 ponded bimodally to both visual and auditory impulses, possibly reflecting visual dominance of workin

221 ring cells, which are involved in electrical impulse propagation and coordinated contraction of the h

222 of gap junctions during normal and abnormal impulse propagation are essential in the control of arrh

223 y caused slowing and interruption of cardiac impulse propagation at the atrioventricular junction.

224 conductive biomaterial polymer that restores impulse propagation could synchronize contraction and re

225 Rapid impulse propagation in the heart is a defining property

226 Myelination of axons facilitates rapid impulse propagation in the nervous system.

227 er resemble native heart tissue; the fastest impulse propagation is along the long axis of the aligne

228 Neuronal electrical impulse propagation is facilitated by the myelin sheath,

229 rvous system, myelination of axons for rapid impulse propagation requires the synthesis of large amou

230 N), the central connection point that delays impulse propagation to optimize cardiac performance.

231 caused a lesion with interruption of cardiac impulse propagation using this respective target volume.

232 g a temperature-sensitive process that slows impulse propagation.

233 ) caused slowing and interruption of cardiac impulse propagation.

234 ay structural abnormalities likely to affect impulse propagation.

235 hf2 wild-type (Fhf2(WT)) mice showing normal impulse propagation.

236 eath generated by oligodendrocytes for rapid impulse propagation.

237 against numerous threats to reliable cardiac impulse propagation.

238 In ultra-wideband or impulse radio terahertz wireless communication, the atmo

239 our survival of rats in 0-450 kPa (0-800 Pas impulse) range at 10 discrete levels (60, 100, 130, 160,

240 o shows that, if correlations of the average impulse rate between different modules decreases, there

241 ere is a concomitant decrease in the average impulse rate in the modules, consistent with the observe

242 se regions, the freeze-out phenomenon in the impulse region, especially, the scaling law of the excit

243 e.g., the boundary between the adiabatic and impulse regions, the freeze-out phenomenon in the impuls

244 he neural mechanisms underlying this type of impulse regulation capacity.

245 s of brain systems that subserve emotion and impulse regulation including the ventral prefrontal cort

246 ons are commonly modeled using linear finite impulse response (FIR) filters.

247 nvestigate (i) the generation of the primary impulse response and the dependence of the group delay o

248 omponents of a RF can be separated; (ii) the impulse response can be reconstructed at sample rates of

249 both photon arrival times and the instrument impulse response function (IRF).

250 iated to provide an estimate of the system's impulse response function and is used to convolute the a

251 ts (both genders), with the subject-specific impulse response function period determined from a separ

252 ches the period of participant's oscillatory impulse response function reverberating in alpha.

253 uperposition of two hypothetical oscillatory impulse response functions generated in response to each

254 We also observed a sensory-specific impulse response in visual working memory, while auditor

255 Here, we test whether this impulse response is uniquely visual and sensory-specific

256 ly applied form of the general linear model, impulse response models, and network control models.

257 it can accurately recover the spatial RF and impulse response of ganglion cells recorded on a multi-e

258 rast, during visual WM maintenance, only the impulse response to visual stimulation was content-speci

259 m-specific information is decodable from the impulse response, even in the absence of attention and l

260 on also resulted in an auditory WM-dependent impulse response, implicating the visual cortex in the m

261 with space-invariant and -variant nonlinear impulse response.

262 statistical regularities exist, we measured impulse responses (IRs) of 271 spaces sampled from the d

263 17% of units, mostly in L5, showed weaker impulse responses and a slow firing rate increase during

264 The stimuli were spatialized using measured impulse responses and presented via earphones.

265 mixtures are well described by odor-specific impulse responses convolved with the odorant's temporal

266 The same impulse responses convolved with the respiratory airflow

267 t analysis (LDA) is developed for recovering impulse responses in photon counting from a high speed p

268 whisker impulses, but instead combined weak impulse responses with a distinct, slow signal correlate

269 processing were done offline using recorded impulse responses, before presentation over headphones.

270 rence in neural states between time-specific impulse responses, reflecting dynamic changes, yet the c

271 We trained rats to discriminate whisker impulse sequences that varied in single-impulse kinemati

272 rdia (VT) supporting channels have very slow impulse spread and possess low entropy because of their

273 In ventricular scar, impulse spread is slow because it traverses split and zi

274 halography to measure the neural response to impulse stimuli during a WM delay.

275 Previous work using a visual impulse stimulus to perturb the memory network has impli

276 We show that a neutral auditory impulse-stimulus presented during the maintenance of a p

277 The BVP group also completed a video head impulse test and examinations of ocular and cervical ves

278 ties for students to deliberately strengthen impulses that are congruent with, and dampen impulses th

279 impulses that are congruent with, and dampen impulses that are incongruent with, academic goals.

280 ct and transduce sound waves into electrical impulses that are sent to the brain.

281 ges present in the environment into neuronal impulses that guide insect behaviour.

282 ical cues from the environment into neuronal impulses that propagate throughout the gut and into othe

283 nce to thrice the group delay of the primary impulse (the group delay of the primary impulse is on th

284 arge rate were analysed as a function of the impulse (the time-force integral) and the maximal rate o

285 r hair cells (IHCs) encode sounds into nerve impulses through fast and indefatigable Ca(2+)-dependent

286 e of TCR and BCR repertoires give a powerful impulse to adaptive immunity studies.

287 tigated following the introduction of copper impulse to reach a copper concentration which was shown

288 l discs transduce touch into slowly adapting impulses to enable tactile discrimination, but their tra

289 rilla groups demonstrated a stronger looking impulse toward the camera trap device compared to chimpa

290 ty is also required for natural filtering of impulse trains as they travel through the sensory neuron

291 lls around axons that is essential for rapid impulse transmission, but how glial cells accomplish thi

292 h on vertebrate axons is critical for neural impulse transmission, but whether electrically active ax

293 E) is fundamental for the termination of ACh impulse transmission.

294 The ability to control impulses varies greatly, and difficulty with impulse con

295 of dopamine neurons precisely represents the impulse vector (force exerted over time) generated by th

296 mine neurons contribute to components of the impulse vector in different directions.

297 ystolic blood pressure, and electromyography impulses were derived for wavelet transform coherence an

298 (detonation velocity, pressure and specific impulse) were obtained using the EXPLO v6.01 program.

299 tes of loading at impact but increases force impulses, with unknown effects on the skeleton that meri

300 stabilized by differentially modulating the impulse within stance.