ライフサイエンスコーパス: mechanical ventilator

1 Airway resistance was determined with a mechanical ventilator.

2 uring transport or ventilation by a portable mechanical ventilator.

3 port with manual technique as opposed to the mechanical ventilator.

4 ICU day 30, the patient was weaned from the mechanical ventilator.

5 ameter); they were paralyzed and placed on a mechanical ventilator.

6 ributed to ventilation in conjunction with a mechanical ventilator.

7 available from life support devices such as mechanical ventilators.

8 ICU and hourly bed occupancy for patients on mechanical ventilators.

9 d change in operation and malfunction of the mechanical ventilators.

10 ve ventilation strategies using conventional mechanical ventilators.

11 vances current control design approaches for mechanical ventilators and provides a generic methodolog

12 ength of stay, total length of stay, days on mechanical ventilator, and Marshall Multiple Organ Dysfu

13 electromagnetic compatibility standards for mechanical ventilators are inadequate to prevent malfunc

14 The liberation from a mechanical ventilator at 3 months was also better in the

15 within 1 year of transplant were patient on mechanical ventilator before transplantation, prior live

16 quency, volume, and timing of application of mechanical ventilator breaths had marked and sustained i

17 First, a standard mechanical ventilator capable of delivering noninvasive

18 nfluenza pandemic, will lead to shortages of mechanical ventilators, critical care beds, and other po

19 ator-associated pneumonia was 22.0 per 1,000 mechanical ventilator days during phase 1, and 17.2 per

20 ator days during phase 1, and 17.2 per 1,000 mechanical ventilator days during phase 2.The adjusted m

21 During phase 1, we recorded 10,292 mechanical ventilator days, and during phase 2, with the

22 ltidimensional approach, we recorded 127,374 mechanical ventilator days.

23 The animals were then placed on a mechanical ventilator, fluid resuscitated, and monitored

24 4 wks and were successfully weaned from the mechanical ventilator for at least 48 hrs.

25 enge to plan and prepare to meet demands for mechanical ventilators for a future severe pandemic.

26 We measured cost-effectiveness as costs per mechanical ventilator-free day within the first 28 days

27 ion and renal replacement therapy-free days, mechanical ventilator-free days, or length of stay in IC

28 d associated with more than three additional mechanical ventilator-free days.

29 al tube with an inflated cuff connected to a mechanical ventilator), helmet ventilation with a positi

30 how to allocate intensive care unit beds and mechanical ventilators if the supply of these resources

31 Eight intubated adult patients connected to mechanical ventilators in the SIMV mode were studied.

32 Detailed data on occupancy and use of mechanical ventilators in U.S. ICU over time and across

33 increase in adult and pediatric and neonatal mechanical ventilators in US hospitals in response to th

34 Days on a mechanical ventilator, length of stay in ICU and at the

35 acteristics and biomarkers, and with time to mechanical ventilator liberation and 6-month survival, c

36 erns were not associated with longer time to mechanical ventilator liberation or worse 6-month surviv

37 Suboptimal mechanical ventilator management during ECMO may lead to

38 iately selected patients, the development of mechanical ventilators more synchronous with patient eff

39 Intensive care unit (ICU) admission and mechanical ventilator (MV) use were different between gr

40 Lack of synchrony between a patient and the mechanical ventilator occurs when the respiratory rhythm

41 5% CI, 1.89-13.2 for the need for controlled mechanical ventilator; OR, 11.0; 95% CI, 2.26-53.8 for t

42 entrainment of the respiratory rhythm to the mechanical ventilator over a wider range of machine freq

43 To provide guidance of lung isolation, mechanical ventilator, pleural catheter, and endobronchi

44 Respiratory device failure (mechanical ventilators, positive pressure breathing assi

45 ss syndrome demonstrates that implementing a mechanical ventilator protocol in the emergency departme

46 Aerosol delivery via a mechanical ventilator remains unregulated with no standa

47 ic leak, pneumonia, prolonged requirement of mechanical ventilator, sepsis, septic shock, readmission

48 lity to rest the lungs by avoiding injurious mechanical ventilator settings and the potential to faci

49 d could improve our understanding of optimal mechanical ventilator settings in acute lung injury.

50 Our data suggest that default mechanical ventilator settings should include PEEP of 5-

51 Mechanical ventilator settings, arterial blood gases, vi

52 scopy and intubation; c) provide appropriate mechanical ventilator settings; d) manage hypotension; a

53 Mechanical ventilator strategies that limit ventilator-i

54 patients who do not respond to conventional mechanical ventilator strategies.

55 pact of comorbidities in patients treated by mechanical ventilator support (invasive or noninvasive)

56 rotocol had increased days alive and free of mechanical ventilator support (ventilator-free days).

57 ts and is associated with a greater need for mechanical ventilator support and higher hospital mortal

58 Gestational diabetes and both mechanical ventilator support and PVD at 7 days were ass

59 Patients were weaned to minimal mechanical ventilator support and underwent a 20-min roo

60 The combination of PVD and mechanical ventilator support at 7 days was among the st

61 total ICU admissions, 1,096 (17.1%) required mechanical ventilator support for a minimum of 24 hours.

62 ts, the majority of children are weaned from mechanical ventilator support in 2 days or less.

63 op severe outcomes including ICU admittance, mechanical ventilator support, and a high rate of mortal

64 th X-linked myotubular myopathy who required mechanical ventilator support.

65 Breaths were provided by a mechanical ventilator that was connected to a lung model

66 ticated transducers and microprocessor-based mechanical ventilators that enabled implementation of ma

67 Among the 131 patients on mechanical ventilator, the duration of mechanical ventil

68 Yet permanent tethering to a mechanical ventilator through the mouth or via tracheost

69 Mechanical ventilator use and older age at listing predi

70 prolonged hospital and ICU stay and days on mechanical ventilator versus patients with plasma induci

71 cal training of the nursing staff, one basic mechanical ventilator was installed at the hospital's IC

72 ess the respiratory status during apnea, the mechanical ventilator was paused for up to 2 min during

73 Severe nationwide shortages of mechanical ventilators were estimated to be a major caus

74 t respiratory distress syndrome connected to mechanical ventilators were studied.