ライフサイエンスコーパス: controlled ventilation

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1 igher in variable ventilation than in volume-controlled ventilation.

2 y 14% with assisted ventilation and 48% with controlled ventilation.

3 d 20% with assisted ventilation and 41% with controlled ventilation.

4 to increase and that of 2A to decrease with controlled ventilation.

5 MAF-box gene was overexpressed with controlled ventilation.

6 sitive end-expiratory pressure, and pressure-controlled ventilation.

7 observed for V(T) delivered during pressure-controlled ventilation.

8 d relative angiopoietin-1 expression (volume-controlled ventilation, 0.3 [0.2-0.5] vs variable ventil

9 damage (median [interquartile range]: volume-controlled ventilation, 12 [11-17] vs variable ventilati

10 tric oxide concentration of 40 ppm, pressure-controlled ventilation: 14.5 to 130.5 ppm; volume-contro

11 angiopoietin-2/angiopoietin-1 ratio (volume-controlled ventilation, 2.0 [1.3-2.1] vs variable ventil

12 p < 0.01), interleukin-6 expression (volume-controlled ventilation, 21.5 [18.3-23.3] vs variable ven

13 olled ventilation: 14.5 to 130.5 ppm; volume-controlled ventilation: 21.6 to 104.7 ppm; nitric oxide

14 tric oxide concentration of 10 ppm, pressure-controlled ventilation: 3.2 to 30.9 ppm; volume-controll

15 trolled ventilation: 3.2 to 30.9 ppm; volume-controlled ventilation: 4.5 to 27.1 ppm).

16 molecule-1 messenger RNA expression (volume-controlled ventilation, 7.7 [5.7-18.6] vs nonventilated,

17 ry pressure (PEEP) and 20 cm H2O of pressure controlled ventilation above PEEP for 2 mins to successf

18 re, admission service, and use of a pressure-controlled ventilation affected duration of mechanical v

19 be used either with pressure (PCV) or volume-controlled ventilation and continuously or only during t

20 E-cadherin expression was similar in volume-controlled ventilation and variable ventilation; in extr

21 however, is limited to patients who receive controlled ventilation and who are not breathing spontan

22 hol withdrawal, and be managed with pressure-controlled ventilation as the primary mode of mechanical

23 as minimally altered by helium during volume-controlled ventilation but substantially decreased durin

24 ression in lung tissue was reduced in volume-controlled ventilation compared with nonventilated regar

25 ation of 21 L/min and higher during pressure-controlled ventilation compared with volume-controlled v

26 ateral common carotid artery occlusion under controlled ventilation for 3, 5, and 10 min.

27 groups (n = 6) and ventilated using pressure-controlled ventilation for two consecutive periods (T1 a

28 The evaluation may include echocardiography, controlled ventilation high-resolution computed tomograp

29 reduced lung elastance compared with volume-controlled ventilation in both acute respiratory distres

30 ivered V(T) during both volume- and pressure-controlled ventilation in four ventilators commonly used

31 cur during permissive hypercapnia because of controlled ventilation in patients warrants investigatio

32 e respiratory distress syndrome, only volume-controlled ventilation increased vascular cell adhesion

33 Recruitment by pressure-controlled ventilation is equivalent or superior to sust

34 mly assigned to receive conventional (volume-controlled ventilation, n = 6) or variable ventilation (

35 -controlled ventilation compared with volume-controlled ventilation (nitric oxide concentration of 40

36 without producing hypotension and facilitate controlled ventilation once the effects of the intubatin

37 ical service (p = .009), and use of pressure-controlled ventilation (p = .02) each affected duration

38 but substantially decreased during pressure-controlled ventilation, particularly with the Bird venti

39 led ventilation (VCV) compared with pressure-controlled ventilation (PCV) and with long inspiratory t

40 The pressure-controlled ventilation RM caused a lasting increase of P

41 rrest using an original pressure- and volume-controlled ventilation strategy in rabbits.

42 This self-powered humidity-controlled ventilation system could be adapted to automa

43 ositive end-expiratory pressure, or pressure-controlled ventilation) that differed from raising posit

44 ympanic temperature 34 degrees C) to 12 hrs, controlled ventilation to 20 hrs, and intensive care to

45 er injury, the animals were placed on volume-controlled ventilation to achieve PaO2 >60 mm Hg and PaC

46 eline cardiac output) compared with pressure-controlled ventilation (to 0.68 of baseline).

47 ression synchronized ventilation, a pressure-controlled ventilation triggered by each chest compressi

48 During volume-controlled ventilation, V(T) delivered was substantially

49 of ventilation would be greatest with volume-controlled ventilation (VCV) compared with pressure-cont

50 Peak alveolar pressure during pressure-controlled ventilation was 20 cm H2O at T1 and was subse

51 days of assisted ventilation, and those with controlled ventilation, we assessed in vitro diaphragmat

52 ) with a limited peak pressure, and pressure-controlled ventilation with increased PEEP and a fixed d

53 Using pressure-controlled ventilation with oxygen, ventilator settings

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