ライフサイエンスコーパス: pulmonary gas exchange

1 al considerations and measurements of global pulmonary gas exchange.

2 e did not significantly improve deteriorated pulmonary gas exchange.

3 both greater ventilation and more efficient pulmonary gas exchange.

4 ale methodology for quantitative analysis of pulmonary gas exchange.

5 apparent effects on systemic hemodynamics or pulmonary gas exchange.

6 hemodilution, immunomodulation, and improved pulmonary gas exchange.

7 od flow, left ventricular wall thickening or pulmonary gas exchange.

8 0.001 vs control each) and the deteriorated pulmonary gas exchange (12-48 hr: p < 0.05 vs control ea

9 Our objective was to examine pulmonary gas exchange abnormalities and the mechanisms

10 We used pulmonary gas exchange and (31) P magnetic resonance spe

11 s, resulting in an apparent matching between pulmonary gas exchange and alveolar ventilation.

12 Pulmonary gas exchange and hemodynamics were monitored f

13 This pathophysiology included decreased pulmonary gas exchange and lung compliance, increased pu

14 This pathophysiology included decreased pulmonary gas exchange and lung compliance, increased pu

15 Using pulmonary gas-exchange and intramuscular (31) P magnetic

16 This study investigated hemodynamics and pulmonary gas exchange applying CPAP enhanced with press

17 The primary outcome is the change in pulmonary gas exchange as assessed by the partial pressu

18 ipheral gas exchange - which translates into pulmonary gas exchange - can be sensed.

19 We conclude that NO has net effects on pulmonary gas exchange, depending on the underlying lung

20 Why pulmonary gas exchange deteriorates after administration

21 Tetrastarch sustains pulmonary gas exchange during experimental systemic infl

22 of venous admixture (Q VA /QT) that impairs pulmonary gas exchange efficiency (i.e. increases the al

23 dyspnea, respiratory muscle activation, and pulmonary gas exchange efficiency.

24 Women may experience greater pulmonary gas exchange impairment during exercise than m

25 more important in determining whether or not pulmonary gas exchange impairment occurs during exercise

26 how approximately 80 ppm inhaled NO altered pulmonary gas exchange in anesthetized ventilated dogs w

27 the temporal and spatial characteristics of pulmonary gas exchange in intact and diseased lungs.

28 t that the previously reported impairment in pulmonary gas exchange in the HIV+ population involves l

29 These included decreased pulmonary gas exchange, increased pulmonary edema, abnor

30 In a model of severe ARDS, pulmonary gas exchange is improved during total followed

31 e effects of FS-069 on hemodynamic function, pulmonary gas exchange, left ventricular wall thickening

32 exhaustion with simultaneous measurements of pulmonary gas exchange, minute ventilation, blood lactat

33 However, variance in pulmonary gas exchange played essentially no role in det

34 Pulmonary gas exchange relies on a rich capillary networ

35 Effective pulmonary gas exchange relies on the free diffusion of g

36 t (QT), leg blood flow (LBF), and muscle and pulmonary gas exchange, the latter using the multiple in

37 sure can increase myocardial work and impair pulmonary gas exchange to a degree that might be clinica

38 ventilated pigs, the prone position improves pulmonary gas exchange to a greater degree in the presen

39 We use our multiscale model for pulmonary gas exchange to quantify the oxygen uptake abn

40 Pulmonary gas exchange variables were determined breath

41 Pulmonary gas exchange was measured breath-by-breath and

42 Pulmonary gas exchange was measured breath-by-breath.

43 Pulmonary gas exchange was measured on a breath-by-breat

44 a dose-dependent fashion, no amelioration in pulmonary gas exchange was observed, as reflected by PaO

45 njury, may have limited benefit in improving pulmonary gas exchange when diffusion is impaired by sev

46 od flow, left ventricular wall thickening or pulmonary gas exchange when injected intravenously in la

47 d flow, left ventricular wall thickening and pulmonary gas exchange when injected intravenously; and

48 he degree of airway obstruction and improved pulmonary gas exchange, whereas the development of lung