ライフサイエンスコーパス: high-frequency oscillation

1 tional mechanical ventilation and 80 (46.8%) high-frequency oscillation.

2 ompared with infants initially ventilated by high-frequency oscillation.

3 chanical ventilation can be delivered during high-frequency oscillation.

4 f a more random topology is witnessed in the high frequency oscillations.

5 VOR can be unstable and could be affected by high frequency oscillations.

6 mmendations to improve separation from other high-frequency oscillations.

7 oted to understanding the role of interictal high-frequency oscillations.

8 ed reactivation was associated with amygdala high-frequency oscillations.

9 own neural oscillations, from delta waves to high-frequency oscillations.

10 odes of increased activity with superimposed high-frequency oscillations.

11 quency oscillations and unable to respond to high-frequency oscillations.

12 ergic system, which will lead to deficits in high-frequency oscillations.

13 At high frequency oscillation (1.5 Hz), normal subjects inv

14 nasal respiration underlies the emergence of high-frequency oscillations (130-180 Hz, HFO) and behavi

15 tween the phase of beta and the amplitude of high-frequency oscillations (256-362 Hz) emerged in the

16 dy is the first non-invasive study to detect high frequency oscillations, address the efficacy of hig

17 we detected hippocampal ripples and parietal high-frequency oscillations after different behaviors, a

18 toinhibition in CCK(+) BCs promotes aberrant high frequency oscillations and hyperexcitability in hip

19 d non-invasive detection and localization of high frequency oscillations and its clinical utility in

20 to be involved in network phenomena such as high frequency oscillations and travelling waves.

21 ventilation at Day 30 was 36% and 31% in the high-frequency oscillation and conventional ventilation

22 opathologic evidence that the combination of high-frequency oscillation and perfiubron administration

23 ABC prevented reward-associated increases in high-frequency oscillations and synchrony of these oscil

24 We present a quantitative analysis of high-frequency oscillations and their rates of occurrenc

25 mechanism for delayed-onset, sustained ictal high frequency oscillations, and provide a practical, ef

26 piratory pressure (PEEP), prone ventilation, high-frequency oscillation, and venovenous extracorporea

27 aled spontaneous activities and pathological high-frequency oscillations; and (3) multineuron Ca(2+)

28 ( approximately 80 Hz) gamma-band and during high-frequency oscillations ( approximately 130 Hz).

29 High frequency oscillations are associated with normal b

30 High frequency oscillations are detected during encoding

31 High frequency oscillations are detected in the human me

32 However, these high frequency oscillations are not adopted in the clini

33 Bursts of high frequency oscillations are temporally correlated wi

34 We demonstrated that high frequency oscillations are the major determinants f

35 High-frequency oscillations are important for auditory f

36 tensively studied but the cellular bases for high-frequency oscillations are not understood.

37 f medial entorhinal cortex can also generate high frequency oscillations associated with gamma rhythm

38 Ripples are high-frequency oscillations associated with population b

39 emble spiking, and simultaneous induction of high-frequency oscillations at multiple locations result

40 ure to detect delayed-onset, sustained ictal high frequency oscillations based on cross-frequency cou

41 Recent intracranial studies suggest that high frequency oscillations between 80 and 200 Hz could

42 High frequency oscillations beyond the classic electroen

43 nd high gamma amplitude are closely related, high frequency oscillations can be used as a surrogate m

44 High-frequency oscillations can be generated in the axon

45 High-frequency oscillations can involve the replay of sp

46 end of the treatment periods, only PLV using high-frequency oscillation continued to require higher a

47 Hippocampal sharp-wave ripples (SPW-Rs) are high-frequency oscillations critical for memory consolid

48 aracteristic curve analyses, only sources of high-frequency oscillations demonstrated the best sensit

49 mode of bursting that permits generation of high-frequency oscillations during locomotion.

50 ex, and lastly the frontal cortex, while the high-frequency oscillation first appeared in the midbrai

51 flubron and five animals continued receiving high-frequency oscillation for a total duration of 2 hrs

52 Thirty-day mortality was 37% in the high-frequency oscillation group and was 52% in the conv

53 way pressure was significantly higher in the high-frequency oscillation group compared with the conve

54 The high-frequency oscillation group showed early (less than

55 BPD compared with 43 patients (53.8%) in the high-frequency oscillation group.

56 High frequency oscillations (> 80-90 Hz) occur in neocor

57 lated with the occurrence of spindles, and a high-frequency oscillation (>0.1 Hz) prominent in deep s

58 Aperiodic high-frequency oscillations (>100 Hz) reflect a short-te

59 nstrate that gamma oscillations coexist with high-frequency oscillations (>90 Hz).

60 High-frequency oscillation has been proposed for use in

61 High frequency oscillations have been proposed as a clin

62 High frequency oscillations have been shown to reflect c

63 tal biomarkers: spike, spike-gamma, wideband high frequency oscillation (HFO, 80-500 Hz), ripple (80-

64 Wake-related ketamine-dependent high frequency oscillations (HFO) can be recorded in loc

65 time were decreased and the amplitude of the high frequency oscillations (HFO) seen during the expuls

66 We investigated the developmental changes in high-frequency oscillation (HFO) and Modulation Index (M

67 Cortical sources within the high-frequency oscillation (HFO) bandwidth (70-150Hz) lo

68 ms of gas exchange, and potential utility of high-frequency oscillation (HFO) has been acquired in an

69 s interictal epileptiform discharges (IEDs), high-frequency oscillation (HFO) rate, and relative band

70 phase-coupling relationship between LFP and high-frequency oscillation (HFO) signals closely resembl

71 Within the OSCILLATE trial of high-frequency oscillation (HFO) versus conventional ven

72 The timing of high-frequency oscillation (HFO), which was sometimes pr

73 High-frequency oscillations (HFO) characteristic for the

74 signals from feedback signals, we leveraged high-frequency oscillations (HFO) which have previously

75 Recent research suggests that high-frequency oscillations (HFO), in the ripple (80-250

76 sory evoked potentials (SEP) and the area of high-frequency oscillations (HFO).

77 e also characterise the relationship between high frequency oscillations (HFOs) and propagating spike

78 High frequency oscillations (HFOs) are bursts of neural

79 growing that in addition to epileptic spikes high frequency oscillations (HFOs) are important biomark

80 High frequency oscillations (HFOs) are newer biomarkers

81 Interictal high frequency oscillations (HFOs), in particular those

82 fraction of SPW-Rs were temporally locked to high-frequency oscillations (HFOs) (120-180 Hz) in LS, w

83 High-frequency oscillations (HFOs) are a promising bioma

84 Hippocampal high-frequency oscillations (HFOs) are prominent in phys

85 an intracerebral recordings, that 100-400 Hz high-frequency oscillations (HFOs) may be synchronized b

86 High-frequency oscillations (HFOs) may synchronize neura

87 EG) biomarkers, including interictal spikes, high-frequency oscillations (HFOs), and seizures, each o

88 ere is compelling evidence that pathological high-frequency oscillations (HFOs), called fast ripples

89 epsy biomarkers such as epileptic spikes and high-frequency oscillations (HFOs).

90 ighly pathological IEDs are characterized by high-frequency oscillations (HFOs).

91 In epilepsy, high-frequency oscillations (HFOs, >80Hz) have proven pa

92 at resection of tissue generating interictal high-frequency oscillations (HFOs, 80-500 Hz) in the iEE

93 Transient high-frequency oscillations (HFOs; 150-600Hz) in local f

94 shown to influence the temporal dynamics of high-frequency oscillations (HFOs; 200-500 Hz) and singl

95 High-frequency oscillations (HFOs; 80-500 Hz) are though

96 High-frequency oscillations (HFOs; 80-500 Hz) seem bette

97 eous neural firing correlated with a lack of high frequency oscillations in adjacent subdural recordi

98 Presentation of the images induced high frequency oscillations in all three studied bands w

99 led the detection of epileptiform events and high frequency oscillations in an epilepsy model thus of

100 (ii) we found no difference in the rates of high frequency oscillations in control neocortex and the

101 rate (Hz) on tidal volumes delivered during high-frequency oscillation in adults.

102 ransient-evoked muscarinic receptor-mediated high-frequency oscillations in cortical regions.

103 Recent reports converge to the idea that high-frequency oscillations in local field potentials (L

104 ity size and explains previously undescribed high-frequency oscillations in measles incidence.

105 y cortical areas couples to the amplitude of high-frequency oscillations in olfactory cortex during c

106 tudies show that cholinergic agonists induce high-frequency oscillations in slice preparations.

107 of East Antarctica that show high-magnitude, high-frequency oscillations in surface level during the

108 de array recordings, we report activation of high-frequency oscillations in the beta and gamma ranges

109 High-frequency oscillations in the beta range (10-45 Hz)

110 High-frequency oscillations in the brain open a new wind

111 sudden spectral variations, these extremely high-frequency oscillations in the burst peak are a cruc

112 aimed to investigate to what extent ongoing, high-frequency oscillations in the gamma-band (30-100 Hz

113 ment, but are ideally arranged to damp these high-frequency oscillations in the limb.

114 Faster cortical high-frequency oscillations increased after normal learn

115 We conclude that high-frequency oscillation is a safe and effective mode

116 We also found that the amplitude of high-frequency oscillations is organized by the phase of

117 e show that, during motor behavior, low- and high-frequency oscillations jointly couple cortex and st

118 These data suggest that high frequency oscillations may represent the substrate

119 These findings suggest that high-frequency oscillations may subserve intra- and inte

120 (n = 7); d) partial liquid ventilation with high-frequency oscillation (n = 7); and e) partial liqui

121 ring persistent gamma frequency oscillations high frequency oscillations occur with a high bispectral

122 The data suggest that high-frequency oscillations occurred as a consequence of

123 High-frequency oscillation of the perfiuorocarbon-filled

124 Unique high-frequency oscillations of 250 to 500 Hz, termed fas

125 Coherent high-frequency oscillations of electrical activity in CA

126 Regular high-frequency oscillations of insulin secretion are cha

127 anically complex hinge that transforms tiny, high-frequency oscillations of specialized power muscles

128 rate certainty), and we found no support for high-frequency oscillation or high Vt with prone ventila

129 Patients received either high-frequency oscillation or jet ventilation if respira

130 andatory ventilation (IMV) rate; c) PLV with high-frequency oscillation; or d) PLV with high-frequenc

131 ication and it has been suggested that these high frequency oscillations originate as collective beha

132 quency oscillations, address the efficacy of high frequency oscillations over the different neural os

133 High-frequency oscillations paralleled the activation of

134 aled that the spatial extent of pathological high-frequency oscillations (pHFO) was associated with s

135 ilepsy, brain networks generate pathological high-frequency oscillations (pHFOs) during interictal pe

136 It has been 10 years since pathological high-frequency oscillations (pHFOs) were described in th

137 and, in particular, whether stimulus-driven high-frequency oscillations play a role in odor processi

138 able as increased coherence between low- and high-frequency oscillations, probably resulting from inh

139 that larger prospective studies correlating high-frequency oscillations rates with seizure-onset zon

140 The temporal coordination of high frequency oscillations reactivated across cortical

141 e both the phase and the envelope of low and high frequency oscillations, respectively.

142 hibited states are characterized by low- and high-frequency oscillations, respectively, with layer-sp

143 pothesis suggests that synchronous bursts of high-frequency oscillations ("ripples") contribute to bi

144 Brief high-frequency oscillations ("ripples") occur in the hip

145 The power spectrum of these high-frequency oscillations shows either two peaks of en

146 ition; these networks exhibited theta-nested high frequency oscillations similar to the putative ING

147 High frequency oscillation sources corresponding with th

148 If high frequency oscillation sources were spatially congru

149 The concordance rate of high frequency oscillations sources (80-200 Hz) with the

150 If high frequency oscillations sources were discordant with

151 Here we investigate high frequency oscillations spanning the high gamma (50-

152 In summary, our results show that high frequency oscillations, spanning a wide range of fr

153 Thus high-frequency oscillations synchronize the activity of

154 taneous ripples, and focal optically induced high-frequency oscillations ("synthetic" ripples) in fre

155 Sharp-wave ripples (SWRs) are high-frequency oscillations that generate highly synchro

156 When compared with high frequency oscillations, the most commonly proposed

157 of strongly increased overall activity with high-frequency oscillations, the so-called sharp-wave/ri

158 ermittent, strong increases of activity with high-frequency oscillations; the models developed predic

159 ed ten pediatric centers that frequently use high-frequency oscillation to describe current clinical

160 We report active-reset sensors by use of high-frequency oscillations to accelerate dissociation,

161 ant epilepsy and to focus on interictal very high-frequency oscillations (VHFOs) between 500Hz and 2k

162 D for conventional mechanical ventilation vs high-frequency oscillation was demonstrated, after adjus

163 After stabilization, high-frequency oscillation was initiated at a mean airwa

164 To examine the possibility of high-frequency oscillations, we used a finite-element mo

165 Both the gamma frequency and high frequency oscillations were attenuated by the gap j

166 These repetitive high frequency oscillations were seen in recordings from

167 ies suggested that additional low-amplitude, high-frequency oscillations were also possible.

168 decision making, the amplitudes of multiple high-frequency oscillations were dynamically modulated i

169 rby pyramidal cells was sufficient to induce high-frequency oscillations, whereas closed-loop silenci

170 elow the cut, respectively) and eliminated a high frequency oscillation which occurred during the bur

171 nctive features of epileptic foci, including high-frequency oscillations with evidence of out-of-phas

172 athway for histamine-dependent regulation of high-frequency oscillations within the hippocampal forma