ライフサイエンスコーパス: ventilate

1 Methods Sixteen dogs were anesthetized and ventilated.

2 Animals were anesthetized and mechanically ventilated.

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

4 CPAP failed were intubated and mechanically ventilated.

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

6 ed norepinephrine, and 53% were mechanically ventilated.

7 Cats were anesthetized and ventilated.

8 central lines, and 2,352 (11.6%) chronically ventilated.

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

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

11 luding small airways disease (normal CT, not ventilated: 5% vs 6% [not significant], 11%, and 19% [P

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

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

14 itment assessed by a CT scan in mechanically ventilated acute respiratory distress syndrome patients.

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 nce-based processes of care for mechanically ventilated adult patients.

19 are units (ICUs) who were being mechanically ventilated after out-of-hospital cardiac arrest related

20 control animals) were sedated, mechanically ventilated and connected to an extracorporeal electrodia

21 tion, yet questions remain as to where it is ventilated and how it reaches the Greenland-Scotland Rid

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

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

24 Ventilated and nonventilated general medical and surgica

25 were measured in postmortem lung tissue from ventilated and nonventilated patients.

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 similar among those who were non-invasively ventilated and with mild or moderate PARDS (10-15%), but

31 nts of small airways disease (normal CT, not ventilated) and mild emphysema (normal CT, abnormal ADC)

32 in the intensive care unit, 63% mechanically ventilated, and 42% in severe sepsis or septic shock at

33 d Oct 23, 2016, 93 lung pairs were perfused, ventilated, and assessed on the OCS Lung.

34 The animals were sedated, ventilated, and connected to the artificial lung system

35 At term (GD30) fetuses were delivered, ventilated, and finally harvested for histological and m

36 es inoculation in anesthetized, mechanically ventilated, and surgically instrumented pigs and followe

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

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

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

40 shed hydrogen sulfide-mediated protection in ventilated animals.

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

42 hs redistributed blood volume away from well-ventilated areas, worsening PaO2/FIO2.

43 ith acute respiratory distress syndrome were ventilated at 15 and 5 cm H(2)O of PEEP.

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

45 Patients who were mechanically ventilated at the time of admission were excluded.

46 ute lung injury, experimentally in five mice ventilated before and after lavage injury, and computati

47 ere activated in synchrony with mechanically ventilated breaths.

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

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

50 The nondependent lung was preferential ventilated by 5 minutes in all groups, with ventilation

51 Patients initially ventilated by conventional mechanical ventilation were v

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

53 27 paired samples from seven anaesthetized, ventilated canines.

54 ed gas exchange shunt in nine anaesthetized, ventilated canines.

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

56 Studies in mechanically ventilated children that compared early with late trache

57 Mechanically ventilated children with acute respiratory distress synd

58 Four hundred nine mechanically ventilated children.

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

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

61 ts on parenchyma and microvasculature as the ventilated compartment shrinks further, especially durin

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

63 ic compound intensities were compared with a ventilated control group with normal renal function.

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

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

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

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

68 Ventilated controls' broncho-alveolar lavage fluid was a

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

70 Six healthy volunteers served as non-ventilated controls.

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

72 Critically ill adult mechanically ventilated coronavirus disease 2019 patients were eligib

73 Of 49 mechanically ventilated coronavirus disease 2019, 40 underwent CT pul

74 Many ventilated COVID-19 patients require prolonged ventilati

75 al, we examined a subset of our mechanically ventilated COVID-19 patients.

76 s frequently in critically ill, mechanically ventilated COVID-19 patients.

77 ized clinical trial, with 3,957 mechanically ventilated critically ill adults allocated to energy-den

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

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

80 Nonhypoxemic mechanically ventilated critically ill patients and healthy volunteer

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

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

83 Studies of mechanically ventilated critically ill patients that combine populati

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

85 ssess pulmonary artery occlusion pressure in ventilated critically ill patients.

86 sure is frequently required for mechanically ventilated critically ill patients.

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

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

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

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

91 Mechanically ventilated emergency department patients experiencing ac

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

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

94 18 years or older, who had been mechanically ventilated for <48 h, and were expected to require mecha

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

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

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

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

99 Animals were intubated and ventilated for 4 hours, at which point they were infecte

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

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

102 Mice were ventilated for 6 hours and then euthanatized immediately

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

104 Anesthesia controls were mechanically ventilated for 7 h without CPB.

105 arge in 2-week- to 17-year-olds mechanically ventilated for acute respiratory failure in the RESTORE

106 of opioids and expected to remain alive and ventilated for an additional 48 hours and who were recei

107 8 years or older, intubated and mechanically ventilated for at least 48 h, and had suspected ventilat

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

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

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

111 to three continuous positive airway pressure-ventilated groups: 1) nebulized surfactant (poractant al

112 correlated with dysglycemia in mechanically ventilated Guillain-Barre syndrome patients.

113 a were collected in a cohort of mechanically ventilated Guillain-Barre syndrome patients.

114 ACM at day 28 differed for ventilated HABP (27.8%), VABP (18.0%), and nonventilated

115 piperacillin/tazobactam patients; 48.6% had ventilated HABP/VABP, 47.5% APACHE II score >=15, 24.7%

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

117 nt pathogen; were intubated and mechanically ventilated; had impaired oxygenation within 48 h before

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

119 oking and heating with solid fuels in poorly ventilated homes are a major source of exposure to indoo

120 a (either ventilator-associated pneumonia or ventilated hospital-acquired pneumonia).

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

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

123 l, we assigned, in a 1:1 ratio, mechanically ventilated ICU patients to a plan of no sedation (nonsed

124 We included mechanically ventilated ICU patients who were given moderate-to-high

125 Among mechanically ventilated ICU patients, mortality at 90 days did not di

126 established prospectively among mechanically ventilated ICU patients.

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

128 oved infant feeding (53 clusters); (3) WASH: ventilated improved pit latrine, 2 hand-washing stations

129 lus complementary feeding counseling), WASH (ventilated improved pit latrine, handwashing stations, c

130 lling; 53 clusters), WASH (construction of a ventilated improved pit latrine, provision of two handwa

131 very, and reinforcement; 53 clusters); WASH (ventilated, improved pit latrine, two hand-washing stati

132 r the decision had been made not to intubate/ventilate in 50% of cases, and after the decision not to

133 ed around the regions of atelectasis, and 2) ventilate in a patient-dependent manner that minimizes t

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

135 Four anesthetized rabbits, ventilated in pressure controlled mode.

136 re anesthetized, paralyzed, and mechanically ventilated in pressure-controlled mode (tidal volume, 6

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

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

139 ion internationally and fewer patients being ventilated invasively.

140 valence was higher in facilities that manage ventilated LTAC patients and NH residents (8% vs <1%, P

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

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

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

144 intervals) in anaesthetized, vagotomized and ventilated male rats.

145 Volunteers ventilated manually a lung simulator for 6 hours.

146 totic signaling were studied in mechanically ventilated mice.

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

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

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

150 ng units) and, in six out of seven patients, ventilated nonperfused units represented a much larger p

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

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

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

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

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

156 s of patients with ARDS, who were invasively ventilated on controlled modes and enrolled in a large,

157 We distinguish between studies using ventilated or nonventilated caging systems and those eva

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

159 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;

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

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

162 ciated with 90-day mortality in mechanically ventilated participants and predicts mortality similarly

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

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

165 Four mechanically ventilated patients (aged 40-75 years) with moderate-to-

166 om 36% to 17%; p < 0.001), light sedation of ventilated patients (from 55% to 61%; p < 0.001), physio

167 .0001), had more beds (p < 0.0001), had more ventilated patients (p < 0.0001), and had more admission

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

169 Two hundred mechanically ventilated patients aged 16 years and older with moderat

170 ure is readily available on all mechanically ventilated patients and all ventilator modes, it is a po

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

172 tors to early rehabilitation in mechanically ventilated patients and their relevance to practice, as

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

174 s and was twice as prevalent in mechanically ventilated patients as in spontaneously breathing patien

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

176 In mechanically ventilated patients at high risk of extubation failure,

177 hed cardiovascular disease, and mechanically ventilated patients face the highest mortality risk.

178 The fact that mechanically ventilated patients fail to achieve high levels of muscl

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

180 Methods: Mechanically ventilated patients from three sites were enrolled if an

181 ird of coronavirus disease 2019 mechanically ventilated patients have a pulmonary embolism visible on

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

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

184 reliable marker of fluid responsiveness for ventilated patients in ICU.

185 n of ventilation for invasively mechanically ventilated patients in the ICU.

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

187 Thirty mechanically ventilated patients in whom fluid administration was pla

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

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

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

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

192 Mechanically ventilated patients monitored with a PiCCO2 device (Puls

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

194 Autopsy lung tissue from ventilated patients showed decreased lung TRPV4 levels c

195 rmed at the bedside and used in mechanically ventilated patients to guide positive end-expiratory pre

196 ercise may improve responses of mechanically ventilated patients to physical therapy.

197 Twenty-three ventilated patients underwent bronchoalveolar lavage.

198 All mechanically ventilated patients were potentially eligible.

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

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

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

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

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

204 n among a diverse population of mechanically ventilated patients with acute respiratory failure; in t

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

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

207 -of-care intravenous therapy in mechanically ventilated patients with Gram-negative pneumonia.

208 Thirty ventilated patients with invasive hemodynamic monitoring

209 respiratory and hemodynamic complications in ventilated patients with lungs prone to collapse.

210 We recruited ventilated patients with moderate to severe ARDS (ratio

211 50% (80 of 160) of non-invasively ventilated patients with PARDS were subsequently intubat

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

213 Between March-May 2020, 27 consecutive ventilated patients with severe COVID-19 pneumonia under

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

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

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

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

218 egative nosocomial pneumonia in mechanically ventilated patients, a high-risk, critically ill populat

219 al therapy is standard care for mechanically ventilated patients, but there is no evidence, using non

220 In critically ill, mechanically ventilated patients, daily interruption of sedation has

221 hether more frequent screening of invasively ventilated patients, identifies patients earlier for a s

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

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

224 in spontaneously breathing and mechanically ventilated patients, respectively (P = 0.009).In nusiner

225 in spontaneously breathing and mechanically ventilated patients, respectively (P = 0.949).Both in sp

226 in spontaneously breathing and mechanically ventilated patients, the best prediction of REE was obta

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

228 l pneumonia in three cohorts of mechanically ventilated patients.

229 induced lung injury observed in mechanically ventilated patients.

230 increase quadriceps strength in mechanically ventilated patients.

231 from SBT eligibility among all mechanically ventilated patients.

232 in spontaneously breathing and mechanically ventilated patients.

233 es to antibiotic treatment were evaluated in ventilated patients.

234 airway secretions obtained from mechanically ventilated patients.

235 lveolar walls and barotrauma in mechanically ventilated patients.

236 ravascular-volume assessment in mechanically ventilated patients.

237 mechanically ventilated and non-mechanically ventilated patients.

238 s leg strength in a majority of mechanically ventilated patients.

239 in spontaneously breathing and mechanically ventilated patients.

240 a separate validation cohort of mechanically ventilated patients.

241 tive pathogens in intubated and mechanically ventilated patients.

242 sleep and wakefulness exist in mechanically ventilated patients.

243 nurses are capable of appropriately manually ventilating patients for 6 hours.

244 bic microbial oil degradation in the tidally ventilated permeable beach sand, emphasizing the role of

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

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

247 for protecting the diaphragm in sedated and ventilated pigs.

248 Twelve mechanically ventilated pigs.

249 ating they would hang the used masks in well-ventilated places.

250 Treatment of ventilated pneumonia is often unsuccessful, even when pa

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

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

253 rteen intensively monitored and mechanically ventilated preterm lambs.

254 ntact lungs of anesthetized and mechanically ventilated rabbits, at baseline and following lung injur

255 In mechanically ventilated rabbits, we found that both xenon gas transpo

256 Ventilated rats underwent unilateral lung ischemia from

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

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

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

260 quantify disinfection rates within a typical ventilated room.

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

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

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

264 This is particularly significant in poorly-ventilated spaces where other means of reduction are not

265 Anesthetized, ventilated Sprague-Dawley rats (280 +/- 30 g) and Vietna

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

267 Areas with predominantly ventilated stoves (> 50% of stoves) had higher outdoor B

268 aP (GMR = 1.49) compared to areas with fewer ventilated stoves.

269 0-100 mm Hg) was established in mechanically ventilated swine by adjusting the tidal volume.

270 The proximal lung was better ventilated than the peripheral lung.

271 stimulation-induced diaphragm contraction to ventilate the lung.

272 mb of the global overturning circulation and ventilates the abyssal ocean.

273 In patients mechanically ventilated, there was a significant difference in overal

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

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

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

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

278 Among mechanically ventilated very preterm infants, administration of hydro

279 3% of the patient-days mostly (n = 432; 56%) ventilated via an endotracheal tube.

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

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

282 n distribution that can be quantified by the ventilated volume percentage (VV%) of the lungs.

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

284 ORT Behavior Score 11-16) while mechanically ventilated was assessed.

285 62.2 years; 30.2% women; 81.2% mechanically ventilated) were enrolled.

286 echanical stretch in both, BEAS-2B cells and ventilated wild-type mice, resulted in TRPV4 activation

287 tions, wild-type (WT) and Asm(-/-) mice were ventilated with a flexiVent setup and bronchial hyperres

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

289 lung proposed for lung transplantation were ventilated with a protective strategy.

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

291 rs old, admitted to an ICU, and mechanically ventilated with an endotracheal tube for longer than 48

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

293 Those ventilated with high strain rates had much lower inspira

294 Anesthetized mice were ventilated with injurious high tidal volume ventilation

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

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

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

298 Patients were ventilated with the acute respiratory distress syndrome

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

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