ライフサイエンスコーパス: HFO

1 HFO at lower rates may be the optimal method of respirat

2 HFO may extend the window of time available for removal

3 HFO may provide smaller tidal volumes and more complete

4 HFO was synthesized, labeled with (65)Cu to achieve a Cu

5 HFO-1234yf is volatile at ambient temperatures; however,

6 HFO-PLV was initiated by instillation of perflubron at a

7 HFOs appear excellent markers for the epileptogenic zone

8 HFOs occurred spontaneously in extracellular field poten

9 HFOs show promise for improving surgical outcome and acc

10 The introduction of open, high-field, 1.0T (HFO) MR scanners offers advantages for examinations of o

11 s to compare standard cMRI sequences from an HFO scanner and those from a cylindrical, 1.5T MR system

12 Standard cardiac MRI sequences in an HFO platform offer a high image quality that is comparab

13 When compared with both CV and HFO at 10 Hz, the TGV in the HFO at 15 Hz group was sign

14 vessel operated on marine gas oil (MGO) and HFO, respectively.

15 C) in the STN was specific to beta phase and HFO amplitude, and this coupling was strongest at the do

16 standing of the optimal approach to applying HFO in human studies.

17 ndicated that the majority of Cu ingested as HFO was assimilated (values >70%), implying that colloid

18 rly crystalline Fe(III) oxyhydroxides and As-HFO phases suggest a high As mobilization potential unde

19 rphous As(V)-rich hydrous ferric oxides ("As-HFO") with a reduced number of corner-sharing FeO6 octah

20 agreement is clinically significant, because HFOs may be good markers of epileptogenic areas.

21 We found higher beta-HFO PAC near DBS lead contacts that were clinically effe

22 indings provide additional support that beta-HFO PAC may be central to the pathophysiology of PD and

23 esidue samples from the 2007 M/V Cosco Busan HFO spill (San Francisco, CA).

24 s (PSs) from clusters of bursting cells, but HFOs in the ripple and the fast ripple range are vastly

25 lated (values >70%), implying that colloidal HFO potentially represents a source of dietary Cu to ben

26 Beta-coupled HFOs and field-locked neurons had different preferred ph

27 sufficient for the emergence of beta-coupled HFOs.

28 sorbed to synthetic hydrous ferric oxide (Cu-HFO).

29 ssed randomization window (15%), and current HFO use (14%).

30 They were then randomized to CV, HFO at 10 Hz, or HFO at 15 Hz.

31 What determines the expression of different HFOs?

32 During HFO, 25 of 30 patients maintained acceptable gas exchang

33 rified the mechanisms of gas exchange during HFO, identified approaches to setting mean airway pressu

34 s (40%, p< .007) remained hypercarbic during HFO at 15 Hz.

35 achieve the lowest oxygenation index during HFO-PLV is between 5 and 15 mL/kg.

36 zapine, and the bursting pattern seen during HFO was abolished.

37 er of MHCs during T. potens growth on either HFO or AQDS, and that several MHCs are localized to the

38 We categorized ENE patients as ENE-HFO and ENE-CV based on receipt of HFO at any time.

39 atients in respective arms of the trial, ENE-HFO patients were younger and had worse lung injury, whe

40 The pathophysiology of epileptic HFOs is challenging, probably involving populations of n

41 al meaning, and pathophysiology of epileptic HFOs.

42 Laboratory experiments explored HFO-1234yf degradation by (i) microbial processes under

43 Clinical management algorithm for HFO that minimized delivered tidal volumes by encouragin

44 We provide guidelines for HFO in adults with acute respiratory distress syndrome t

45 f the fuel injection system is optimized for HFO operation.

46 rable to that determined in naturally formed HFO, and then aged.

47 restricted in the brain than lower-frequency HFOs.

48 Mass transfer of (65)Cu from HFO to the diatom was less than 1%, indicating that HFO

49 minated diet and assimilation of (65)Cu from HFO was determined following 1-3 days of depuration.

50 te that even the fine particles emitted from HFO based combustion can have a significant effect on cl

51 ition metals) were significantly higher from HFO than from DF operation, at all engine loads.

52 Removal of brain tissue generating HFOs has been related to better postsurgical outcome tha

53 DNAs encoding histone H2A (HTA), histone H4 (HFO), and histone H3-11 (HTR11) displayed increased tran

54 We studied how HFOs and spikes in combined pre- and postresection ECoG

55 nce in aquifers should be expected; however, HFO-1234yf is not inert and a biomolecule may mediate re

56 ne expression was observed when histone HTA, HFO, or HTR11 overexpression constructs were cotransfect

57 cellular correlates of interictal and ictal HFO events.

58 ested to be explained by the metals found in HFO contributing to metal oxide particles catalyzing the

59 Interictal HFOs were recorded from hippocampal microelectrodes in 1

60 However, most research investigating HFO in humans comes from microwire recordings, whose rel

61 It also reduced the amplitude of late HFO.

62 We, retrospectively, marked HFOs, divided into fast ripples (FRs; 250-500 Hz) and ri

63 While most HFOs were limited to single channels, approximately 10%

64 ygroscopic even as fresh and, in the case of HFO+LFO emulsion, the hygroscopic growth of the particle

65 especially during the first several days of HFO.

66 Sequential reductive defluorination of HFO-1234yf to 3,3,3-trifluoropropene and 3,3-dichloropro

67 y range, compared to a broad distribution of HFO frequencies recorded from microwires.

68 The distribution of HFO frequencies recorded from the macroelectrodes was co

69 term study of the lung-protective effects of HFO-PLV.

70 water emulsion of HFO, and water emulsion of HFO mixed with light fuel oil (LFO).

71 he studied fuels were HFO, water emulsion of HFO, and water emulsion of HFO mixed with light fuel oil

72 ume recruitment with HFOV, the initiation of HFO-PLV was best tolerated with the two lower doses in o

73 Early institution of HFO at 15 Hz in meconium aspiration may exacerbate air t

74 ts as ENE-HFO and ENE-CV based on receipt of HFO at any time.

75 The study of HFO in large animal models has been essential to our und

76 Modification of the goals and tactics of HFO use may better protect against ventilator-associated

77 ffects on patient outcome of the best use of HFO compared to the most protective use of conventional

78 This contrasts with the typical use of HFO in adults, in which frequencies generally do not exc

79 However, the distribution of HFOs during seizures remains undefined.

80 l extent, classification and distribution of HFOs using a dense 4 x 4 mm(2) two dimensional microelec

81 derlying the emergence of these two forms of HFOs by combining multisite, single-cell and paired-cell

82 and effects of normal and abnormal forms of HFOs have been controversial.

83 ion results in the emergence of two forms of HFOs reminiscent of ripples and fast ripples recorded in

84 nical and pathophysiological implications of HFOs within the frontal cortical region are unclear and

85 reviously been reported, and the presence of HFOs during absence seizures is a novel finding.

86 ine engine, operated on both heavy fuel oil (HFO) and distillate fuel (DF), was studied under various

87 2 +/- 0.04 gkW(-1) h(-1) for heavy fuel oil (HFO) containing 2.51 wt % sulfur.

88 Heavy fuel oil (HFO) is a commonly used fuel in industrial heating and p

89 nd to be more effective with heavy fuel oil (HFO) than with light fuel oil.

90 by the unintended release of heavy fuel oil (HFO).

91 nents abundant in crude and heavy fuel oils (HFOs) as well as transformation products.

92 en volunteers underwent cMRI both in an open HFO and in a cylindrical MR system.

93 ile the association between HA and SiO(2) or HFO inhibited U desorption.

94 were then randomized to CV, HFO at 10 Hz, or HFO at 15 Hz.

95 und that interactions between HAs and ZnO or HFO greatly inhibited the sorption of U onto colloids in

96 urces within the high-frequency oscillation (HFO) bandwidth (70-150Hz) localized primarily to the fro

97 ntial utility of high-frequency oscillation (HFO) has been acquired in animal studies.

98 CILLATE trial of high-frequency oscillation (HFO) versus conventional ventilation (CV) in adults with

99 The timing of high-frequency oscillation (HFO), which was sometimes present in the correlations, w

100 High-frequency oscillations (HFO) characteristic for the adult inspiratory nerve acti

101 mplitude of the high frequency oscillations (HFO) seen during the expulsion phase were markedly reduc

102 h suggests that high-frequency oscillations (HFO), in the ripple (80-250 Hz) and fast ripple (250-100

103 and the area of high-frequency oscillations (HFO).

104 Hippocampal high-frequency oscillations (HFOs) are prominent in physiological and pathological co

105 at pathological high-frequency oscillations (HFOs), called fast ripples (FR, 150-500Hz), reflect abno

106 Interictal high frequency oscillations (HFOs), in particular those with frequency components in

107 In epilepsy, high-frequency oscillations (HFOs, >80Hz) have proven particularly important and usef

108 Transient high-frequency oscillations (HFOs; 150-600Hz) in local field potentials generated by

109 ral dynamics of high-frequency oscillations (HFOs; 200-500 Hz) and single neurons, potentially compro

110 High-frequency oscillations (HFOs; 80-500 Hz) are thought to mirror the pathophysiolo

111 High-frequency oscillations (HFOs; 80-500 Hz) seem better biomarkers for epileptogeni

112 f Fe(II) adsorbed onto hydrous ferric oxide (HFO) has been studied using ferrocene (bis-cyclopentadie

113 colloidal SiO(2), ZnO, hydrous ferric oxide (HFO) or humic acids (HAs) as well as heterogeneous suspe

114 to synthetic colloidal hydrous ferric oxide (HFO) was evaluated from the assimilation of (65)Cu by tw

115 solutions by means of hydrated ferric oxide (HFO)-treated sugarcane bagasse (SCB-HFO) (Saccharum offi

116 n to the reduction of hydrous ferric oxides (HFO) or anthraquinone-2,6-disulfonate (AQDS), an analog

117 g compounds increased relative to the parent HFO, likely from bio- and photodegradation.

118 Pathological HFOs, such as FR, may provide a reliable surrogate marke

119 They differ from physiological HFOs in not being paced by rhythmic inhibitory activity

120 To record HFOs, the intracranial EEG needs to be sampled at least

121 Here, we recorded HFOs in slices of the subiculum prepared from human hipp

122 , supporting the hypothesis that fast-ripple HFO are primarily generated by highly localized, sub-mil

123 Ripple and fast-ripple HFO recorded from both microwires and clinical macroelec

124 Fast-ripple HFO were most often recorded on a single microwire, supp

125 The average frequency of ripple HFO recorded from macroelectrodes was lower than that re

126 We propose that large-scale HFOs, rather than the more frequent highly focal events,

127 c oxide (HFO)-treated sugarcane bagasse (SCB-HFO) (Saccharum officinarum L.) was investigated.

128 The adsorption capacity of SCB-HFO for As(V) was found to be 22.1 mg/g under optimum co

129 m the solution phase onto the surface of SCB-HFO.

130 ion influenced the removal efficiency of SCB-HFO.

131 defining the neuronal correlate of specific HFO frequency bands could improve electroencephalographi

132 ydrofluoroolefin 2,3,3,3-tetrafluoropropene (HFO-1234yf) has been introduced to replace 1,1,1,2-tetra

133 rated higher elemental carbon emissions than HFO at typical load points (50% and 75%) for marine oper

134 These investigations demonstrated that HFO-1234yf was recalcitrant to microbial (co)metabolism

135 the diatom was less than 1%, indicating that HFO was the source of (65)Cu to the grazers.

136 olecular-level characterizations reveal that HFO interacted with HAs by electrostatic interactions, a

137 es, given identical compliance, suggest that HFO at 15 Hz resulted in greater large airway obstructio

138 Taken together, these findings suggest that HFO-1234yf recalcitrance in aquifers should be expected;

139 Additionally, we found that HFOs were commonly associated with widespread interictal

140 ving the seizure onset zone, indicating that HFOs may mark cortex that needs to be removed to achieve

141 segments were recorded: 6/960 (0.6%) by the HFO and 17/960 (1.8%) segments by the cylindrical system

142 rt, both power and deltaP were higher in the HFO at 15 Hz group (p< .001).

143 ith both CV and HFO at 10 Hz, the TGV in the HFO at 15 Hz group was significantly higher following ra

144 ine sequence was significantly higher in the HFO platform compared to the 1.5T MR scanner (0.685+/-0.

145 SNR was significantly lower in the HFO scanner (all p<0.001).

146 Therefore, the HFO frequency band reflects a range of firing dynamics o

147 ghly focal events, are the substrates of the HFOs detected by clinical depth electrodes.

148 each steady-state when switching from MGO to HFO and approximately 84 min in the opposite direction.

149 leptogenic zone when compared to traditional HFOs.

150 r epileptogenic zone compared to traditional HFOs.

151 ) indicating that biomolecules can transform HFO-1234yf at circumneutral pH and at ambient temperatur

152 ll yield a smaller tidal volume than typical HFO settings where frequency is limited to 6 Hz or less

153 lts can maintain adequate gas exchange using HFO frequencies well above 5-6 Hz.

154 for high-frequency oscillatory ventilation (HFO) in adults provide acceptable gas exchange but may n

155 The studied fuels were HFO, water emulsion of HFO, and water emulsion of HFO mi

156 With HFO's inherent low tidal volumes, progression of meconiu

157 stribution matrixes, electrode contacts with HFOs and VHFOs were detected and analyzed.