ライフサイエンスコーパス: barotrauma

1 erative lung injury, pulmonary infection, or barotrauma).

2 lation-perfusion mismatching with shunt, and barotrauma.

3 lung stretch associated with volutrauma and barotrauma.

4 ury and pneumonia, and to reduce the risk of barotrauma.

5 tric respiratory failure, without increasing barotrauma.

6 f 718 patients with ALI/ARDS and no baseline barotrauma.

7 NIV) prior to ECMO and a higher frequency of barotrauma.

8 26.8% [n = 15/56]; P = 0.79), or the rate of barotrauma (5.2% [n = 3/57] vs. 10.7% [n = 6/56]; P = 0.

9 CI, 0.0% to 4.0%; P = .03), and the risk of barotrauma (5.6% vs 1.6%; difference, 4.0%; 95% CI, 1.5%

10 It can occur with barotrauma and after chest tube placement.

11 er pulmonary blast injury is associated with barotrauma and the use of lung protective strategies pre

12 ns, acute sinusitis, systemic abnormalities, barotrauma and valsalva maneuver.

13 ive treatment to minimize ventilator-induced barotrauma and volutrauma during severe respiratory fail

14 f stay in the ICU and hospital, incidence of barotrauma, and hospital mortality.

15 Perflubron distribution, barotrauma, and inability to discern catheters were eval

16 ght infants, associated with oxygen therapy, barotrauma, and/or infections.

17 n in reducing airway pressures and, perhaps, barotraumas are cited.

18 tested positive for COVID-19 and experienced barotrauma associated with invasive mechanical ventilati

19 In some cases it seems to be related to barotrauma due to a rapid increase in pressure in the up

20 n cause middle ear and sinus injury and lung barotrauma due to lung overexpansion during ascent from

21 strointestinal hemorrhage; c) bacteremia; d) barotrauma; e) venous thromboembolic disease; and f) cho

22 with invasive mechanical ventilation had one barotrauma event (0.5%; 95% CI: 0%, 3%; P < .001 vs the

23 e intervals: baseline, one day preceding the barotrauma event (one-day lag), and concurrent with the

24 266/1,814 patients (14.7%) had at least one barotrauma event (pooled estimates, 16.1% [95% CI, 11.8-

25 d Scopus were searched for studies reporting barotrauma event rate in adult coronavirus disease 2019

26 event (one-day lag), and concurrent with the barotrauma event.

27 or more barotrauma events for a total of 145 barotrauma events (24% overall events) (95% confidence i

28 here were 89 (15%) patients with one or more barotrauma events for a total of 145 barotrauma events (

29 s +/- 17; 60% men), 28 patients (10%) had 31 barotrauma events, with an overall barotrauma rate of 11

30 atients tolerate HFOV and increased rates of barotrauma have been reported in some studies.

31 etween treatment groups in the prevalence of barotrauma, hemodynamic instability, or mucus plugging.

32 tween airway pressures and the risk of early barotrauma in a cohort of 718 patients with ALI/ARDS and

33 er PEEP may increase the likelihood of early barotrauma in ALI/ARDS.

34 d hence it is a better model for quantifying barotrauma in fish.

35 The determinants of barotrauma in mechanically ventilated patients with acut

36 num due to the rupture of alveolar walls and barotrauma in mechanically ventilated patients.

37 Purpose To determine if the rate of barotrauma in patients with COVID-19 infection was great

38 cidence of EOM following NP colonization and barotrauma in the animal model.

39 ifference, -2.4%, 95% CI, -7.1% to 2.2%) and barotrauma incidence (0% in the intensive group vs 0.6%

40 del, no other airway pressure was related to barotrauma, including plateau pressure.

41 due to rapid decompression, a major cause of barotrauma injury in fish that pass through turbines and

42 Barotrauma is an independent risk factor for death in CO

43 The precise role of arterial barotrauma-mediated apoptosis in causing restenosis is u

44 Secondary outcomes included mortality, barotrauma, new use of hypoxemic adjuvant therapies, and

45 r PEEP nor PLV reduced the high incidence of barotrauma observed in high-PIP animals.

46 Barotrauma occurred in 30 of 159 patients (18.9%) in the

47 cute respiratory distress syndrome patients, barotrauma occurred in 31/493 patients (6.3%; pooled est

48 Barotrauma occurs in one out of six coronavirus disease

49 There were no barotrauma or other serious morbidity or mortality.

50 ) above 35 cm H(2)O may increase the risk of barotrauma or volutrauma.

51 s, oxygenation failure, ventilation failure, barotraumas, or mucus plugging between treatment groups.

52 matic literature review to identify rates of barotrauma, pneumothorax, and pneumomediastinum in coron

53 Pooled estimates for barotrauma, pneumothorax, and pneumomediastinum were cal

54 There are concerns of a high barotrauma rate in coronavirus disease 2019 patients wit

55 Barotrauma rate may be higher than noncoronavirus diseas

56 %) had 31 barotrauma events, with an overall barotrauma rate of 11% (95% CI: 8%, 15%; P < .001 vs the

57 Historical comparison was made to barotrauma rates of patients with acute respiratory dist

58 us disease 2019 (COVID-19) pneumonia who had barotrauma related to invasive mechanical ventilation at

59 s associated with an increased risk of early barotrauma (relative hazard [RH] 1.67 per 5-cm H2O incre

60 spared prolonged ventilation and consequent barotrauma, resulting in improved respiratory function.

61 r PEEP was associated with a greater risk of barotrauma (RH 1.38 per 5-cm H2O increment; 95% CI 1.09-

62 her PEEP was related to an increased risk of barotrauma (RH 1.50; 95% CI 0.98- 2.30).

63 t PEEP was also related to a greater risk of barotrauma (RH 1.93; 95% CI 1.44-2.60), controlling for

64 HFOV increased barotrauma risk compared with conventional ventilation (

65 outcomes, including endotracheal intubation, barotrauma, skin pressure injury, and serious adverse ev

66 mechanical ventilation had a higher rate of barotrauma than patients with acute respiratory distress

67 mits low pressure lung ventilation, avoiding barotrauma to lungs made friable by Panton-Valentine leu

68 aused by minor trauma or are associated with barotrauma to the orbit due to sneezing, coughing, or vo

69 onavirus disease 2019 patients who developed barotrauma was 111/198 patients (pooled estimates, 61.6%

70 four study days, the cumulative incidence of barotrauma was 13% (95% confidence interval [CI] 10.6 to

71 The risk of barotrauma was only reported in three studies and did no

72 nic high-amplitude pressure waves that cause barotrauma when they transfer kinetic energy to the tiss

73 Adverse events included gross barotrauma, which occurred in 6 patients with PES-guided

74 eumothorax requiring drainage within 7 days; barotrauma within 7 days; and ICU, in-hospital, and 6-mo