ライフサイエンスコーパス: endotracheal tube

1 The model was applied to diagnose obstructed endotracheal tube.

2 a face mask that prevented rebreathing or by endotracheal tube.

3 ry to generate an audible airleak around the endotracheal tube.

4 re made directly into the trachea through an endotracheal tube.

5 aced in the ventilation circuit, next to the endotracheal tube.

6 ots of P. multocida were administered via an endotracheal tube.

7 ered into the right atrium, femoral vein, or endotracheal tube.

8 ssure were measured at the distal end of the endotracheal tube.

9 asured with a pneumotachometer placed at the endotracheal tube.

10 bbits were tracheostomized with a multilumen endotracheal tube.

11 rogen dioxide was <1 ppm at the level of the endotracheal tube.

12 days mostly (n = 432; 56%) ventilated via an endotracheal tube.

13 ving mechanical ventilation through a cuffed endotracheal tube.

14 nium in normal saline was instilled into the endotracheal tube.

15 of large amounts of sand from the patient's endotracheal tube.

16 red during ventilation with the conventional endotracheal tube.

17 with the pressure at the carinal end of the endotracheal tube.

18 of the ventilator to the carinal end of the endotracheal tube.

19 to the test lung collected drug exiting the endotracheal tube.

20 nce imposed by the breathing circuit and the endotracheal tube.

21 ressure triggering at the carinal end of the endotracheal tube.

22 theter positioned 2 cm beyond the tip of the endotracheal tube.

23 hrough a specialized device connected to the endotracheal tube.

24 ontaminated pharyngeal secretions around the endotracheal tube.

25 by the use of a catheter passed through the endotracheal tube.

26 secretions from the interior surface of the endotracheal tube.

27 using a bronchial blocker or a double-lumen endotracheal tube.

28 stylet end positioned within the tip of the endotracheal tube.

29 as been used to confirm the placement of the endotracheal tube.

30 ed in ten dogs by partially constricting the endotracheal tube.

31 significant pressure gradient exists across endotracheal tubes.

32 sociated with underweight stature and cuffed endotracheal tubes.

33 mall for commercially available double-lumen endotracheal tubes.

34 lling plastic devices, such as catheters and endotracheal tubing.

35 were initially intubated with a conventional endotracheal tube (2.5-mm internal diameter; 3.6-mm oute

36 d (1.98+/-1.68) in comparison with untreated endotracheal tubes (3.72+/-2.20, p=.045) or those treate

37 tubes used in patients compared with unused endotracheal tubes (5.4 +/- 0.7 vs. 6.0 +/- 0.6 mL, p <.

38 es used in patients compared with the unused endotracheal tubes (7.5 +/- 0.4 vs. 6.7 +/- 1.2 mm, p <.

39 egatively associated with the presence of an endotracheal tube (adjusted odds ratio, 0.13; 95% CI, 0.

40 f a stylet is superior to intubation with an endotracheal tube alone and is comparable with use of a

41 iratory limb collected albuterol exiting the endotracheal tube and any albuterol lost, respectively.

42 record airway pressure just proximal to the endotracheal tube and cuff pressure via the pilot tube.

43 Mechanical ventilation via an endotracheal tube and delirium are important predictors

44 Presence of an endotracheal tube and delirium were negatively associate

45 The horizontal orientation of the endotracheal tube and neck, through lateral body rotatio

46 athing (work to spontaneously inhale through endotracheal tube and ventilator circuit), work by venti

47 sedation were eligible, if they had a cuffed endotracheal tube and were physiologically stable.

48 y surgery fires due to laser ignition of the endotracheal tube and/or its contents.

49 Double-lumen endotracheal tubes and bronchial blockers have been foun

50 Double-lumen endotracheal tubes and bronchial blockers should be part

51 s a clinical comparison between double-lumen endotracheal tubes and bronchial blockers to determine w

52 lung isolation devices, namely double-lumen endotracheal tubes and bronchial blockers.

53 provides nutrients for patients who require endotracheal tubes and mechanical ventilation.

54 eal tube segment volumes, between the unused endotracheal tubes and the endotracheal tubes used in pa

55 to the lungs of anesthetized rats through an endotracheal tube, and a series of square-wave pulses we

56 ormedics 3100B high-frequency ventilator, an endotracheal tube, and a test lung, tidal volume was mea

57 del consisting of a HFOV and circuit, 4.5-mm endotracheal tube, and lung simulator was assembled.

58 pediatric breathing circuit, 4.0- or 6.0-mm endotracheal tube, and lung simulator, was assembled.

59 re, devices such as intravascular catheters, endotracheal tubes, and ventilators are a common source

60 se of prophylactic probiotics and subglottic endotracheal tubes are cost-effective for preventing VAP

61 observed that women and patients with narrow endotracheal tubes are often successfully extubated with

62 Endotracheal tubes are typically inserted in the operati

63 ymorphism analysis of virus isolated from an endotracheal-tube aspirate and from bronchoalveolar lava

64 lmonary oxyradical stress were determined on endotracheal tube aspirates and were normalized accordin

65 Endotracheal tube aspirates were collected and clinical

66 tilation animals received perflubron via the endotracheal tube at either full functional residual cap

67 100B high-frequency ventilator and an 8.0-mm endotracheal tube attached to a 48.9-L plethysmograph.

68 Systemic treatment with linezolid limits endotracheal tube biofilm development and methicillin-re

69 Complications (e.g., removal of the endotracheal tube by the patient) occurred in three of t

70 thesia, 40 piglets (11.5+/-0.3 kg) underwent endotracheal tube clamping (6.8+/-0.3 minutes) until sim

71 At approximately 7 mins following endotracheal tube clamping, ventricular fibrillation was

72 andstill with loss of aortic pulsation after endotracheal tube clamping.

73 s a safe, feasible, and efficient device for endotracheal tube cleaning in the clinical setting.

74 The Mucus Shaver is helpful in preventing endotracheal tube colonization by potentially harmful mi

75 Pathologic evaluation of the removed endotracheal tube contents from one of our patients demo

76 (PLV, n = 15) with perflubron (18 mL/kg via endotracheal tube), conventional mechanical ventilation

77 sure amplitude, frequency, and the use of an endotracheal tube cuff leak, and to maintain oxygenation

78 Endotracheal tube cuff leaks promote egress of tracheal

79 tidal volume, distal pressure transmission, endotracheal tube cuff leaks, and simulated clinical con

80 procedures relevant to HFOV include setting endotracheal tube cuff leaks, performing lung recruiting

81 Impact of endotracheal tube cuff material and shape on tracheal se

82 An endotracheal tube cuff pressure between 20 and 30 cmH2O

83 nvestigator deflated and then reinflated the endotracheal tube cuff until tracheal seal was reestabli

84 otracheal tube or was lodged at the inflated endotracheal tube cuff.

85 n and constantly accumulated at the inflated endotracheal tube cuff.

86 4), or spherical (n = 22) polyvinyl chloride endotracheal tube cuffs.

87 a ventilator "ON" at the carinal end of the endotracheal tube decreases imposed work of breathing by

88 ssure changes in a saline filled cuff of the endotracheal tube (Delta15 +/- 2 mm Hg).

89 ude transmission is directly correlated with endotracheal tube diameter and peripheral airway resista

90 r lobe atelectasis believed to be related to endotracheal tube displacement during the passage of the

91 esaturations during MRI and other because of endotracheal tube displacement during transport for MRI)

92 gery, specifically the use of a double-lumen endotracheal tube (DLT); a few centers use carbon dioxid

93 initiating mechanical ventilation through an endotracheal tube during a 12-wk interval formed the stu

94 The model was ventilated through an endotracheal tube during controlled mechanical ventilati

95 The volume of secretions collected on the endotracheal tube during the 1.5-hr experiment and on a

96 anically ventilated for 4 hrs, with head and endotracheal tube elevated 30 degrees from horizontal.

97 (combined nasal wash [NW]-throat swab [TS], endotracheal tube [ET] aspirate, or bronchoalveolar lava

98 The endotracheal tube (ETT) is a medical device placed in th

99 tients with confirmed acute occlusion of the endotracheal tube (ETT), acute elevation in peak airway

100 p were kept prone, intubated with a standard endotracheal tube (ETT), and mechanically ventilated for

101 or absence of each of the following devices: endotracheal tube (ETT), enterogastric tube (NGT, or Dob

102 is study was to determine the resistances of endotracheal tubes (ETTs) commonly used in neonatal and

103 em to localize and detect the malposition of endotracheal tubes (ETTs) on portable supine chest radio

104 Corticosteroid-eluting endotracheal tubes (ETTs) were developed and employed in

105 In patients intubated with endotracheal tubes (ETTs), suctioning is routinely perfo

106 ic UAO, stratified by cuffed versus uncuffed endotracheal tubes (ETTs).

107 (n = 6) received nebulized saline through an endotracheal tube every 4 hrs for 48 hrs.

108 illin-resistant S. aureus strain AW7 via the endotracheal tube, extubated, and then monitored for 96

109 Unplanned endotracheal tube extubation occurred at a rate of 0.82

110 equiring invasive mechanical ventilation via endotracheal tube for acute respiratory failure.

111 ibility and safety of use of HFO through the endotracheal tube for apnea testing compared with use of

112 of use of high-flow oxygen (HFO) through the endotracheal tube for apnea testing during brain death e

113 an ICU, and mechanically ventilated with an endotracheal tube for longer than 48 hours were enrolled

114 At extubation, only one endotracheal tube from the Mucus Shaver group was coloni

115 k bacterial deposits were present on all the endotracheal tubes from the control group (p < .001 by F

116 n microscopy showed little secretions on the endotracheal tubes from the study group, whereas thick b

117 An endotracheal tube greater than size 7.0, diabetes, and l

118 these, 814 patients were categorized into 3 endotracheal tube groups: small for height (n = 182), ap

119 Patients receiving a silver-coated endotracheal tube had a statistically significant reduct

120 Patients with small-for-height endotracheal tubes had longer intubation durations (mean

121 A silver-coated endotracheal tube has been designed to reduce VAP incide

122 Animal studies using small (<4 mm) endotracheal tubes have shown reduced histopathologic ev

123 men, especially when breathing through small endotracheal tubes, have a higher f/VT (including likeli

124 nically ventilated for 72 hrs, with neck and endotracheal tube horizontal.

125 hat pulmonary disease mechanics and a 6.0-mm endotracheal tube improve albuterol delivery.

126 Perfluorocarbon was then instilled via the endotracheal tube in an amount estimated to represent fu

127 as achieved by instilling perflubron via the endotracheal tube in an amount estimated to represent th

128 asured with a pneumotachometer placed at the endotracheal tube in infants.

129 evaluated a new device designed to clean the endotracheal tube in mechanically ventilated patients, t

130 In patients with an endotracheal tube in place, there were a total of 593 ac

131 ng was achieved with a 2.0-mm inner diameter endotracheal tube in the breathing circuit.

132 cal judgment and direct visualization of the endotracheal tube in the trachea are required to unequiv

133 ory disease; c) more critical positioning of endotracheal tubes in younger patients and their movemen

134 However, endotracheal tube insertion may be problematic, and vari

135 lung compliance (10, 30, and 50 mL/cm H2O), endotracheal tube internal diameter (6, 7, and 8 mm), bi

136 Decreasing endotracheal tube internal diameter from 8 mm to 7 mm an

137 Test lung findings suggest that endotracheal tube internal diameter is also an important

138 Endotracheal tube intraluminal volume loss is common amo

139 he "Rusch" intubation stylet is used to make endotracheal tube intubation easy.

140 ificant iatrogenic withdrawal, and unplanned endotracheal tube/invasive line removal were not signifi

141 HFO through the endotracheal tube is feasible and safe method for apnea

142 alse-positive results mean that although the endotracheal tube is in the esophagus, the device indica

143 alse-negative results mean that although the endotracheal tube is in the trachea, the device indicate

144 Obstructed endotracheal tube is indicated if R(1) increased > or =3

145 When mucus reached the endotracheal tube, it either entered the endotracheal tu

146 no audible endotracheal tube leak, measured endotracheal tube leak ranged from 0.0% to 7.5%.

147 anically ventilated patients with no audible endotracheal tube leak, measured endotracheal tube leak

148 Using smaller endotracheal tubes may reduce the risk of postextubation

149 During an obstructed endotracheal tube, model parameters change such that the

150 tiple etiologies, including local effects of endotracheal tubes, neuromuscular weakness, and an alter

151 piratory flow demands and degrees of partial endotracheal tube occlusion (25%, 50%, and 75%) were stu

152 assed through the anaesthetized nose, and an endotracheal tube occlusion device was placed in the ven

153 During endotracheal tube occlusion with a conventionally contro

154 Y-piece [PY] used as control signal) during endotracheal tube occlusion.

155 ing spontaneous inspiratory flow demands and endotracheal tube occlusion.

156 By clamping the endotracheal tube of eight intubated, anesthesized dogs,

157 cardiac arrest was produced by clamping the endotracheal tubes of the piglets.

158 unit who had a f/VT measured through an oral endotracheal tube (off of ventilatory support) during 1

159 ressure ventilation; the need to replace the endotracheal tube on admission to the PICU; and the use

160 n be achieved with the use of a double-lumen endotracheal tube or an independent bronchial blocker.

161 absolute lung separation with a double-lumen endotracheal tube or the use of a bronchial blocker in a

162 actant (poractant alfa), administered via an endotracheal tube or thin catheter, or surfactant only.

163 95% CI, 2.07-33.63] and interacting with the endotracheal tube or tracheotomy site [odds ratio, 5.15;

164 the endotracheal tube, it either entered the endotracheal tube or was lodged at the inflated endotrac

165 No preferred strategies included silver endotracheal tubes or selective gut decontamination.

166 Touching the endotracheal tube (OR, 1.75; 95% CI, 1.38, 2.19), beddin

167 ation (n = 16) with perflubron (18 mL/kg via endotracheal tube) or conventional mechanical ventilatio

168 tion, lung secretion drainage, silver-coated endotracheal tubes) or oropharyngeal prophylactic method

169 vation, use of subglottic secretion drainage endotracheal tubes, oral care, chlorhexidine mouth care,

170 blish an airway is by placing a single-lumen endotracheal tube orally or nasotracheally while the pat

171 ly decreases the time to recognize misplaced endotracheal tubes placed during resuscitation, their us

172 one (RR, 0.90 [95% CI, 0.82-0.99]), avoiding endotracheal tube placement with delivery room continuou

173 t from below the vocal cords, usually during endotracheal tube placement.

174 are required to unequivocally confirm proper endotracheal tube placement.

175 llation, <=2 minutes; device confirmation of endotracheal tube placement; and a monitored/witnessed a

176 served in association with both high and low endotracheal tube positions.

177 unit and explored the measurement of twitch endotracheal tube pressure as a less invasive technique

178 At present, the relationship of twitch endotracheal tube pressure to transdiaphragmatic pressur

179 ageal pressure was 0.93, and that for twitch endotracheal tube pressure to transdiaphragmatic pressur

180 Correlation of the means of twitch endotracheal tube pressure to twitch esophageal pressure

181 etween twitch esophageal pressure and twitch endotracheal tube pressure was 0.02 cm H2O.

182 eal pressure was 6.7 cm H2O, and mean twitch endotracheal tube pressure was 6.7 cm H2O.

183 itch transdiaphragmatic pressure, and twitch endotracheal tube pressure were measured.

184 ital perspective included subglottic suction endotracheal tubes, probiotics, and the Institute for He

185 modality can be utilized for confirmation of endotracheal tube.Recent interest in axillary vein cannu

186 Unintentional endotracheal tube removal occurred in 10 of 214 (4.7%) v

187 sure monitors because of marked variation in endotracheal tube resistance in vivo.

188 7% and 6.3 =/- 0.99% for the 4.0- and 6.0-mm endotracheal tubes, respectively.

189 The use of the ultrathin walled Kolobow endotracheal tube resulted in significant decreases in a

190 cantly (p < or = .05) greater for the 6.0-mm endotracheal tube, rigid spacer, dry air, and pulmonary

191 We prospectively analyzed 70 endotracheal tube samples.

192 The percentage difference in the endotracheal tube segment volumes increased significantl

193 The endotracheal tube segment volumes were statistically sma

194 The average percentage difference in endotracheal tube segment volumes, between the unused en

195 The minimum diameter of the endotracheal tube segments was also statistically smalle

196 to measure the intraluminal volume of 13-cm endotracheal tube segments.

197 The area adjacent to the endotracheal tube showed the same degree of damage in bo

198 with administration of perflubron through an endotracheal tube sideport or conventional mechanical ve

199 bation with 1 of 2 high-volume, low-pressure endotracheal tubes, similar except for a silver coating

200 In a multivariable analysis, endotracheal tube size (<= 7.5 vs >= 8.0) was significan

201 ently associated diabetes, body habitus, and endotracheal tube size greater than 7.0 with the develop

202 Larger endotracheal tube size was associated with increased ris

203 Endotracheal tube size was independently selected by the

204 ts of this cohort study suggest that smaller endotracheal tube sizes are not associated with impaired

205 ve exploration of the association of smaller endotracheal tube sizes with recovery from critical illn

206 data delineating the association of smaller endotracheal tube sizes with survival or acute recovery

207 k for laryngeal injury increases with larger endotracheal tube sizes, there are no data delineating t

208 are coisolated from infections of catheters, endotracheal tubes, skin, eyes, and the respiratory trac

209 d-expiratory pressure valve connected to the endotracheal tube (standard test).

210 yethylene catheter was threaded through each endotracheal tube such that it could be positioned to me

211 thin 2 hrs of intubation to receive standard endotracheal tube suctioning treatment or standard sucti

212 After intubation with a cuffed endotracheal tube, swine were conventionally ventilated.

213 5 cm H2O, spontaneous ventilation through an endotracheal tube (T piece), and pressure support ventil

214 were reintubated with a Univent single lumen endotracheal tube that incorporates an internal catheter

215 rom the trachea contiguous to the tip of the endotracheal tube, the distal trachea, the carina, and t

216 hen the model is used to diagnose obstructed endotracheal tube, the method has a sensitivity of 90% a

217 of bright red blood were suctioned from the endotracheal tube, there was no evidence of coagulopathy

218 We measured airway pressures at the endotracheal tube tip, aortic and central venous blood p

219 The Mucus Shaver is advanced to the distal endotracheal tube tip, inflated, and subsequently withdr

220 ual mean airway pressure, as measured at the endotracheal tube tip.

221 /mmol) was administered to normal rabbits by endotracheal tube to assess biodistribution, route of el

222 Among patients with an endotracheal tube, tracheostomy, and noninvasive ventila

223 and the lowest bacterial burden was found in endotracheal tubes treated with linezolid (1.98+/-1.68)

224 egments was also statistically smaller among endotracheal tubes used in patients compared with the un

225 ent volumes were statistically smaller among endotracheal tubes used in patients compared with unused

226 etween the unused endotracheal tubes and the endotracheal tubes used in patients, was 9.8% (range, 0-

227 The silver-coated endotracheal tube was associated with delayed occurrence

228 Absence of gas leak around the endotracheal tube was assured, and all patients were sed

229 racheostomy was performed and a double-lumen endotracheal tube was placed.

230 ith an artificial trachea into which an 8-mm endotracheal tube was positioned.

231 At extubation, each endotracheal tube was removed, cultured, and analyzed by

232 ) were measured (period 1), the conventional endotracheal tube was replaced with a Kolobow tube, and

233 The injection port of the multilumen endotracheal tube was used for the carinal pressure moni

234 at an amplitude of 80 cm H2O) when a 3.5-mm endotracheal tube was used; however, gas flow was attenu

235 during the experiment and the length of the endotracheal tubes was the same for both the conventiona

236 Distal and medial hemisections of the endotracheal tube were assessed to quantify methicillin-

237 ted patients and only 8% of patients with an endotracheal tube were mobilized out of bed as part of r

238 Smaller endotracheal tubes were associated with a higher f/VT, e

239 colonized, whereas in the control group ten endotracheal tubes were colonized (8% vs. 83%; p < .001)

240 The endotracheal tubes were obtained from a previous randomi

241 Endotracheal tubes were obtained from pigs either untrea

242 ted at amplitudes of >40 cm H2O when smaller endotracheal tubes were used.

243 d and C(1) decreased with partial obstructed endotracheal tube, whereas R(1) increased and L and C(2)

244 ternative technique is to use a double-lumen endotracheal tube while using an airway catheter exchang

245 modalities: invasive ventilation (through an endotracheal tube with an inflated cuff connected to a m

246 ed to use of a bougie (n = 556) or use of an endotracheal tube with stylet (n = 546).

247 successful intubation compared with using an endotracheal tube with stylet remains uncertain.

248 on the first attempt compared with use of an endotracheal tube with stylet.

249 most common infections in patients requiring endotracheal tubes with mechanical ventilation.

250 Current guidelines recommend endotracheal tubes with subglottic secretion drainage to

251 ll were mechanically ventilated via a cuffed endotracheal tube, with ventilator rate and tidal volume

252 ant (poractant alfa) or surfactant alone via endotracheal tube within 50 hours of birth.