ライフサイエンスコーパス: ventilate

1 CPAP failed were intubated and mechanically ventilated.

2 ere in the high group; 80% were mechanically ventilated.

3 ed norepinephrine, and 53% were mechanically ventilated.

4 Cats were anesthetized and ventilated.

5 r transfer to critical care and mechanically ventilated.

6 thern Ocean, where much of the deep ocean is ventilated.

7 re anesthetized, intubated, and mechanically ventilated.

8 ill patients, 80% of whom were mechanically ventilated.

9 In a ventilated 18 m(3) laboratory chamber, six cigarettes we

10 ssess preload responsiveness in mechanically ventilated (1B) patients, left ventricular (LV) systolic

11 With the pigs anesthetized and mechanically ventilated, 40 mL/kg of blood was removed yielding marke

12 , intubated using intratracheal cannula, and ventilated (9 mL/kg, 150 min).

13 Nine hundred thirty-four ventilated acute respiratory distress syndrome patients

14 Our study generates the hypothesis that in ventilated acute respiratory failure patients, Sigh may

15 Anesthetized and ventilated adult female C57BL/6 wild-type mice underwent

16 ve activity was recorded in anesthetized and ventilated adult male rats and a multielectrode array wa

17 rocardiogram recordings from 40 mechanically ventilated adult patients receiving sedatives in an ICU

18 and complications occurring in mechanically ventilated adult patients, including but not limited to

19 s that enrolled critically ill, mechanically ventilated adults comparing an IV benzodiazepine-based t

20 In mechanically ventilated adults, delirium was common and associated wi

21 igher 1-year mortality for both mechanically ventilated and non-mechanically ventilated patients.

22 supported by the separation of mechanically ventilated and nonventilated assessments.

23 Ventilated and nonventilated general medical and surgica

24 and 74% enacted early mobilization for both ventilated and nonventilated patients.

25 calculated by dividing the volume of normal ventilated and perfused (%NVQ), unmatched and matched de

26 METHODS AND Isolated ventilated and perfused lungs from Cox4i2(-/-) mice lack

27 in preventing corneal damage in mechanically ventilated and sedated critically ill patients.

28 tilated for >/=7 days and expected to remain ventilated and survive for >/=72 h).

29 ents included in the study were mechanically ventilated and were receiving sedatives.

30 Animals were anesthetized, ventilated, and randomized into three groups and then he

31 Anesthetized, mechanically ventilated, and surgically instrumented pigs underwent 3

32 The Atlantic Ocean is well ventilated, and unlike the major oxygen minimum zones (O

33 fined ventilation defect and hypoventilated, ventilated, and well-ventilated volumes.

34 However, mechanically ventilated animals treated with dominant-negative forkhe

35 shed hydrogen sulfide-mediated protection in ventilated animals.

36 rome patients who were directly mechanically ventilated are similar in terms of lung epithelial, endo

37 ent); 3) in Trendelenburg/prone position and ventilated as in the control group (Trendelenburg).

38 ocations, indicate that the ocean was poorly ventilated at 4.2 km, with better ventilation above and

39 in determining if deeply sourced Fe is ever ventilated at the surface.

40 Forty-eight anesthetized and mechanically ventilated Balb/c mice.

41 ere activated in synchrony with mechanically ventilated breaths.

42 espiratory distress syndrome in mechanically ventilated burn patients, whereas acute respiratory dist

43 matched subjects were similarly sedated and ventilated but were not paced.

44 Patients initially ventilated by conventional mechanical ventilation were v

45 s (33%) died or continued to be mechanically ventilated by day 28.

46 P = 0.01) as compared with infants initially ventilated by high-frequency oscillation.

47 om ozonolysis of pulse-emitted limonene in a ventilated chamber, for 18 experiments at low (0.28 h(-1

48 n tidal volume and mortality in mechanically ventilated children could not be identified, irrespectiv

49 Malnutrition is prevalent in mechanically ventilated children on admission to PICUs worldwide.

50 Mechanically ventilated children with acute respiratory distress synd

51 in intake and 60-d mortality in mechanically ventilated children.

52 with lower odds of mortality in mechanically ventilated children.

53 een dead space and mortality in mechanically ventilated children.

54 Four hundred nine mechanically ventilated children.

55 urce (57%) during occupied periods in a well-ventilated classroom, with ventilation supply air the se

56 Nine anesthetized and mechanically ventilated closed-chest Landrace pigs (67 +/- 2 kg).

57 Although most infants were ventilated, continuous positive airway pressure without

58 tress syndrome, ventilated controls, and non-ventilated controls blood and cultured in vitro.

59 to differentiate into fibrocytes compared to ventilated controls or non-ventilated controls.

60 espiratory distress syndrome and six matched ventilated controls without acute respiratory distress s

61 or (51% [23-66%] of inhibition), whereas non-ventilated controls' broncho-alveolar lavage fluid had n

62 Ventilated controls' broncho-alveolar lavage fluid was a

63 ed from acute respiratory distress syndrome, ventilated controls, and non-ventilated controls blood a

64 Six healthy volunteers served as non-ventilated controls.

65 cytes compared to ventilated controls or non-ventilated controls.

66 Clinical data from 16 mechanically ventilated critically ill obese patients were analyzed.

67 d from diaphragm biopsies of 36 mechanically ventilated critically ill patients and compared with tho

68 Nonhypoxemic mechanically ventilated critically ill patients and healthy volunteer

69 ministration of pantoprazole to mechanically ventilated critically ill patients anticipated to receiv

70 that diaphragm muscle fibers of mechanically ventilated critically ill patients display atrophy and c

71 Mechanically ventilated critically ill patients receive significant a

72 Twenty-four mechanically ventilated critically ill patients suitable to receive e

73 Studies of mechanically ventilated critically ill patients that combine populati

74 Almost one-third of mechanically ventilated critically ill patients were rehospitalized a

75 In intubated, mechanically ventilated critically ill patients, toothbrushing did no

76 ificant contributor to weaning difficulty in ventilated critically ill patients.

77 g strategy has limited mortality benefits in ventilated critically ill patients.

78 sport increases the risk of complications in ventilated critically ill patients.

79 d for studies of controlled reoxygenation in ventilated critically ill stroke populations.

80 little therapeutic advantage in mechanically ventilated, critically ill adults with subsyndromal deli

81 Consistent evidence for a poorly ventilated deep Pacific Ocean that could have released i

82 ion of contractile proteins, in mechanically ventilated, deeply sedated and/or pharmacologically para

83 gastrocnemius complex of nine anaesthetised, ventilated dogs was isolated and attached to a force tra

84 Fourteen fasted anesthetized mechanically ventilated domestic pigs.

85 Restricted to mechanically ventilated elderly patients, rates ranged from 13.9 to 3

86 Mechanically ventilated emergency department patients experiencing ac

87 s with COPD and donors who were mechanically ventilated exhibited lower cell counts (P < .001, P < .0

88 ifteen invasively monitored and mechanically ventilated female sheep.

89 en (age: 1 mo to 18 y) who were mechanically ventilated for >/=48 h.

90 critical illness (i.e., adults mechanically ventilated for >/=7 days and expected to remain ventilat

91 18 years or older, who had been mechanically ventilated for <48 h, and were expected to require mecha

92 After randomization, animals were ventilated for 1 hour and lungs were removed for histolo

93 One group was mechanically ventilated for 12 hrs (CMV) and in the second group both

94 to quantify microaspirations, and lungs were ventilated for 2 hours.

95 Six pigs were sedated and mechanically ventilated for 2.5 days with pacing on alternate breaths

96 tion (alveolar lavage) and were mechanically ventilated for 4 h (positive end-expiratory pressure, 10

97 Animals were mechanically ventilated for 48 hours, while receiving protocol-guided

98 ers of critical care survivors (mechanically ventilated for 48 hr or more).

99 Two groups of animals were ventilated for 54 hours with matched lung strains (ratio

100 tudy of critically ill patients mechanically ventilated for 7 days or longer.

101 rs; range, 2 weeks to 17 years) mechanically ventilated for acute respiratory failure were enrolled i

102 Sixty-four patients mechanically ventilated for acute respiratory failure with esophageal

103 by conventional mechanical ventilation were ventilated for fewer days (P = 0.03), less often needed

104 ICU patients anticipated to be mechanically ventilated for greater than or equal to 48 hours to rece

105 Patients who were mechanically ventilated for greater than or equal to 48 hours.

106 for acutely hospitalized adults mechanically ventilated for more than 24 hours to receive protocolize

107 vers of survivors of intensive care who were ventilated for more than 48 hours and persist at 1 year

108 f 301 adult patients who were expected to be ventilated for more than 72 hours and to require enteral

109 Adult patients who were mechanically ventilated for more than 8 days in the ICU.

110 At each site, 30 adult patients mechanically ventilated >48 hrs were enrolled during four data collec

111 s with COPD and donors who were mechanically ventilated had reduced cell counts.

112 ting PM2.5 inside and outside a mechanically ventilated high school in the ultraindustrialized ship c

113 a retrospective cohort study of mechanically ventilated ICU patients rehospitalized within 30 days in

114 Of 26,947 mechanically ventilated ICU patients rehospitalized within 30 days of

115 Conservative oxygen therapy in mechanically ventilated ICU patients was feasible and free of adverse

116 E. coli isolates originated from ventilated ICU patients with respiratory tract colonizat

117 ably measure quality of life in mechanically ventilated ICU patients.

118 established prospectively among mechanically ventilated ICU patients.

119 a quality and patient safety in mechanically ventilated ICU patients.

120 ve bronchiolitis nursed in a ward setting or ventilated in intensive care produced large numbers of a

121 Four anesthetized rabbits, ventilated in pressure controlled mode.

122 Patients were ventilated in proportional assist ventilation with load-

123 Thereafter, patients were ventilated in PSV and NAVA under continuous rocuronium i

124 A possible donor was defined as a ventilated inpatient death </=75 years of age, without m

125 Mechanically ventilated intensive care unit (ICU) patients are freque

126 ion internationally and fewer patients being ventilated invasively.

127 her [F]fluorodeoxyglucose uptake rate in the ventilated lung compared with atelectrauma (median [inte

128 vivo upon treatment of isolated perfused and ventilated lungs with the purified bacterial toxin, pneu

129 Brain death was induced in 64 ventilated male Fisher rats by inflating a 4.0F Fogarty

130 O poisoning in anesthetized and mechanically ventilated mice to assess the effects of direct lung ill

131 Brains from mechanically ventilated mice were harvested, and signals of apoptosis

132 There, the southward eddy flow advects newly ventilated mode water from the north into the main therm

133 Brain-injured patients ventilated more than 24 hours were evaluated during two

134 e the decision had been made not to intubate/ventilate (n = 105), with the patient under intubation/v

135 Six pigs served as never-ventilated, never-paced control animals.

136 failure was recorded in 13.7% from patients ventilated noninvasively.

137 demonstrate the existence of a shallow well-ventilated northern-sourced cell overlying a poorly vent

138 ere length were significantly smaller in the ventilated-not paced (17.9 mum(2)/kg; IQR, 15.3-23.7; P

139 nitial value showed a significant decline in ventilated-not paced but not in ventilated-paced subject

140 r the experiment in the ventilated-paced and ventilated-not paced groups.

141 se phrenic stimulation, whereas three of six ventilated-not paced subjects did not (P = 0.055).

142 The mortality rate for mechanically ventilated older adults in ICUs is high.

143 care unit, were inpatient, on dialysis, were ventilated, or with ascites.

144 force production over the experiment in the ventilated-paced and ventilated-not paced groups.

145 g; IQR, 15.3-23.7; P = 0.005) but not in the ventilated-paced group (24.9 mum(2)/kg; IQR, 16.6-27.3;

146 t decline in ventilated-not paced but not in ventilated-paced subjects (0.84 [interquartile range (IQ

147 r 60 hours of mechanical ventilation all six ventilated-paced subjects tolerated 8 minutes of intense

148 Given strong national interest in improving ventilated patient care, the National Institute of Healt

149 We assumed 10 days ventilator use per ventilated patient, 13% of total ventilator demand will

150 MEASUREMENTS AND ICUs reported 69,417 ventilated patient-days of intervention compliance obser

151 Twenty mechanically ventilated patients (19 men; 52.2 +/- 20.5 yr; 9 feed in

152 For mechanically ventilated patients (n = 187), we examined the associati

153 the Netherlands, especially in mechanically ventilated patients (P = 0.009).

154 We prospectively enrolled 703 mechanically ventilated patients admitted to the emergency department

155 ed respiratory deterioration in mechanically ventilated patients after a period of stability or impro

156 eus from ETA samples in a quarter of the 231 ventilated patients analyzed; one-third of them develope

157 CU affects as many as 60-80% of mechanically ventilated patients and a smaller but substantial percen

158 ition to delirium in the ICU in mechanically ventilated patients and is an important, modifiable risk

159 Delirium is common in mechanically ventilated patients and is associated with cognitive imp

160 common nosocomial infection in mechanically ventilated patients and is associated with prolonged len

161 across Germany, only 24% of all mechanically ventilated patients and only 8% of patients with an endo

162 r imputation of PaO2/FIO2 among mechanically ventilated patients and understand what factors influenc

163 istics of bronchial epithelial lesions among ventilated patients are reported.

164 Arabic CAM-ICU, overall and for mechanically ventilated patients assessed using Cohen's kappa (kappa)

165 sociated pneumonia was lower in mechanically ventilated patients assigned to the early versus the lat

166 d sedation among critically ill mechanically ventilated patients but did not change the incidence or

167 One hundred twelve mechanically ventilated patients expected to receive enteral nutritio

168 ent therapy); 2) 2006-2009, all mechanically ventilated patients expected to stay for more than or eq

169 We compared data from mechanically ventilated patients from 6 months before to 2 years afte

170 criptional profiles in highly pure PMNs from ventilated patients fulfilling the Berlin ARDS definitio

171 nged over time, and outcomes of mechanically ventilated patients have improved.

172 Twenty-four sedated, mechanically ventilated patients immediately prior to an elective atr

173 A total of 2,853 mechanically ventilated patients in ICU greater than or equal to 4 da

174 ort early mobilization of adult mechanically ventilated patients in ICUs.

175 Delirium is common in mechanically ventilated patients in the ICU and associated with short

176 y appraise randomized trials in mechanically ventilated patients in the ICU testing the effect of ora

177 e decision makers of intubated, mechanically ventilated patients in the medical ICU.

178 Mechanically ventilated patients in whom a bronchoalveolar lavage by

179 Thirty mechanically ventilated patients in whom fluid administration was pla

180 The percentage of mechanically ventilated patients increased with increasing length of

181 Early mobility in mechanically ventilated patients is safe, feasible, and may improve f

182 A major concern in mechanically ventilated patients is the risk of ventilator-induced lu

183 ality-of-life questionnaire for mechanically ventilated patients is valid and can reliably measure qu

184 In the contemporary ICU, mechanically ventilated patients may not have arterial blood gas meas

185 the number of beds filled with mechanically ventilated patients ranged from 20.7% to 38.9%.

186 icantly higher proportion of nonmechanically ventilated patients receiving physical therapy/occupatio

187 Twenty-three ventilated patients underwent bronchoalveolar lavage.

188 (2C); head-of-bed elevation in mechanically ventilated patients unless contraindicated (1B); a conse

189 ality-of-life questionnaire for mechanically ventilated patients was developed.

190 ality-of-life questionnaire for mechanically ventilated patients was responsive to changes in treatme

191 Serial S. aureus ETA isolates from ventilated patients were analyzed for methicillin resist

192 All mechanically ventilated patients were potentially eligible.

193 Forty-eight mechanically ventilated patients who were S. aureus positive by ETA s

194 The cohort included 7,291 mechanically ventilated patients with 75,621 ventilator days.

195 to 24 hours; and 3) 2010-2011, mechanically ventilated patients with a body mass index greater than

196 ters used to predict fluid responsiveness in ventilated patients with a circulatory failure of any ca

197 mortality was higher in NIV than invasively ventilated patients with a PaO2/FiO2 lower than 150 mm H

198 Over the 5-year period, we identified 554 ventilated patients with acute ischemic stroke (19%), 93

199 ith a transition to delirium in mechanically ventilated patients with acute lung injury.

200 veolar lavage fluid (BALF) from mechanically ventilated patients with acute respiratory distress synd

201 This before-after study of mechanically ventilated patients with acute respiratory distress synd

202 d bronchodilators are useful in mechanically ventilated patients with asthma and chronic obstructive

203 different years: 1) 2004-2005, mechanically ventilated patients with at least one additional risk fa

204 ized controlled trial involving mechanically ventilated patients with CS after AMI, routine treatment

205 ith subarachnoid hemorrhage (32%), and 1,404 ventilated patients with intracerebral hemorrhage (49%)

206 bronchoalveolar lavage fluid of mechanically ventilated patients with P. aeruginosa airway colonizati

207 tubation or improve gas flow in mechanically ventilated patients with severe asthma.

208 Among mechanically ventilated patients with severe sepsis and respiratory i

209 and in-hospital mortality among mechanically ventilated patients with severe sepsis.

210 euromuscular-blocking agents to mechanically ventilated patients with status asthmaticus.

211 tients with acute ischemic stroke (19%), 936 ventilated patients with subarachnoid hemorrhage (32%),

212 a population of critically ill mechanically ventilated patients with ultrasound and to identify risk

213 of C. difficile infection among mechanically ventilated patients within the ICUs of three academic ho

214 stay; (4) do not deeply sedate mechanically ventilated patients without a specific indication and wi

215 nd equilibration time (teq) for mechanically ventilated patients without lung injury, it is unclear w

216 rved across subgroups; 100% for mechanically ventilated patients, 88% (60%-98%) and 79% (49%-94%) for

217 ials (SATs) improve outcomes in mechanically ventilated patients, but implementation remains erratic.

218 Hypercapnic acidosis, common in mechanically ventilated patients, has been reported to exert both ben

219 In mechanically ventilated patients, lung injury score (cumulative point

220 In mechanically ventilated patients, nonlinear imputation of PaO2/FIO2 f

221 omy to facilitate weaning among mechanically ventilated patients, potentially leading to significant

222 In mechanically ventilated patients, receipt of a continuous benzodiazep

223 In critically ill mechanically ventilated patients, there is a linear relationship betw

224 monia prevention program for nonmechanically ventilated patients, to our knowledge.

225 induced lung injury observed in mechanically ventilated patients.

226 mechanically ventilated and non-mechanically ventilated patients.

227 er translaryngeal intubation in mechanically ventilated patients.

228 tional multicenter study of 100 mechanically ventilated patients.

229 ention has focused primarily on mechanically ventilated patients.

230 er translaryngeal intubation in mechanically ventilated patients.

231 h other sedation strategies for mechanically ventilated patients.

232 experimental model and in brain samples from ventilated patients.

233 from SBT eligibility among all mechanically ventilated patients.

234 es to antibiotic treatment were evaluated in ventilated patients.

235 airway secretions obtained from mechanically ventilated patients.

236 ravascular-volume assessment in mechanically ventilated patients.

237 ted for breath gas taken from a mechanically ventilated pig under continuous intravenous propofol (2,

238 arotid artery of anaesthetized, mechanically ventilated pigs, without lung injury.

239 Twenty-eight anesthetized, mechanically ventilated pigs.

240 for protecting the diaphragm in sedated and ventilated pigs.

241 Thirteen anesthetized and mechanically ventilated pigs.

242 Twelve mechanically ventilated pigs.

243 A total of 112 ventilated polytrauma patients were recruited.

244 ver Disease [MELD] score >/=35, inpatient or ventilated pre-LT).

245 ted northern-sourced cell overlying a poorly ventilated, predominantly southern-sourced cell at the L

246 Ventilated preterm baboons show activation of the NLRP3

247 rteen intensively monitored and mechanically ventilated preterm lambs.

248 nstillation of microvolumes of liquid into a ventilated pulmonary airway could be an effective strate

249 Anaesthetized, ventilated rats were exposed to a 30 min neural apnoea;

250 In lipopolysaccharide-exposed and mechanical ventilated rats, angiotensin-converting enzyme activity

251 In anesthetized, paralyzed and ventilated rats, moderate AIH-induced pLTF was abolished

252 ho were in the ICU for at least 3 days, were ventilated, received antibiotics, had a central line, an

253 Median FV was significantly increased in ventilated regions (11.1% [25th-75th percentile, 6.8%-14

254 asoconstriction to limit perfusion of poorly ventilated regions of the lungs.

255 luding performing laser or electrocautery in ventilated rooms using standard precautions, is recommen

256 Of 49 mechanically ventilated SCAP patients (21 men and 28 women; median ag

257 ly wrong decisions in a can't-intubate-can't-ventilate scenario.

258 es per day, 5 days a week, for 8 weeks, in a ventilated smoking chamber, or ambient air (controls).

259 printer and filament combinations in poorly ventilated spaces or without the aid of combined gas and

260 high-pCO2 bottom waters to a fully mixed and ventilated state during 2008.

261 ntilated firepits were up to 5 times that of ventilated stoves.

262 In ventilated stroke patients admitted to the ICU, arterial

263 cessary oxygen delivery should be avoided in ventilated stroke patients.

264 Five mechanically ventilated swine were connected to a custom-made circuit

265 In ventilated TBI patients admitted to the ICU, arterial hy

266 Admissions of ventilated TBI patients who had arterial blood gases wit

267 Over the 5-year period, we identified 1212 ventilated TBI patients, of whom 403 (33%) were normoxic

268 delivery should be avoided in critically ill ventilated TBI patients.

269 in the mound flush out CO2 from the nest and ventilate the colony, in an unusual example of deriving

270 nal metabolic heating have been proposed for ventilating the mound, the absence of direct in situ mea

271 waters that are lighter than the base of the ventilated thermocline.

272 ee groups of sheep (n = 6) were mechanically ventilated to the same plateau pressure (30-32 cm H2O) w

273 intervention for the restoration of voice in ventilated tracheostomy patients in the ICU.

274 sed risk for tracheostomy among mechanically ventilated trauma patients (adjusted odds ratio = 1.04;

275 y is potentially overused among mechanically ventilated trauma patients, with nearly half of tracheos

276 ted with higher in-hospital case fatality in ventilated traumatic brain injury (TBI) patients admitte

277 Ventilating tube insertion rate decreased by 19% from 20

278 ncreased during that period, mastoiditis and ventilating tube insertion rates decreased in the last y

279 The control group (n = 6) was ventilated using ARDSnet guidelines, and the electrical

280 mpedance tomography-guided group (n = 6) was ventilated using guidance with real-time electrical impe

281 hat the glacial deep AM was extremely poorly ventilated (ventilation ages of up to 10,000 years).

282 3% of the patient-days mostly (n = 432; 56%) ventilated via an endotracheal tube.

283 try and the global imaging metric percentage ventilated volume (%VV).

284 Results Percentage ventilated volume and average ADC at lobar (129)Xe MR im

285 ect and hypoventilated, ventilated, and well-ventilated volumes.

286 itioned: 1) in semirecumbent/prone position, ventilated with a duty cycle (TITTOT) of 0.33 and withou

287 ed by polysorbate lavage, the APRV group was ventilated with a progressively shorter time at low pres

288 ed by polysorbate lavage, the LTVV group was ventilated with a tidal volume of 6 mL/kg and progressiv

289 ed with low strain rates and 73% among those ventilated with high strain rates (p = 0.010).

290 Those ventilated with high strain rates had much lower inspira

291 Anesthetized mice were ventilated with injurious high tidal volume ventilation

292 nce of pulmonary edema was 20% among piglets ventilated with low strain rates and 73% among those ven

293 Piglets ventilated with low strain rates had an inspiratory-to-e

294 Lambs were ventilated with progressively increasing levels of nasal

295 Thirty-four patients were ventilated with proportional assist ventilation with loa

296 espiratory distress syndrome diagnosis while ventilated with standardized lung-protective ventilation

297 Comparing patients ventilated with tidal volume less than 7 mL/kg and great

298 On average, the two study groups were ventilated with well-matched strains (2.1 +/- 0.9 vs 2.1

299 CU for more than 72 hours, were mechanically ventilated within 48 hours, received exclusive parentera

300 unit (n = 59), or with the patient intubated/ventilated within the intensive care unit (n = 93).Conse