ライフサイエンスコーパス: lung ventilation

1 nd alveolar flooding at end-expiration (open-lung ventilation).

2 twork and contributes to adaptive changes in lung ventilation.

3 cated within the CNS, causing an increase in lung ventilation.

4 eceptors regulate arterial PCO2 by adjusting lung ventilation.

5 neurons is much more effective at increasing lung ventilation.

6 tant than their discharge pattern in driving lung ventilation.

7 can safely undergo thoracic surgery and one-lung ventilation.

8 ic patient and for managing pediatric single lung ventilation.

9 erfusion injury sustained as a result of one-lung ventilation.

10 scussed in relation to the management of one-lung ventilation.

11 equate arterial oxygen tension during single-lung ventilation.

12 included in the absolute indication for one-lung ventilation.

13 use a positive pressure gular pump to assist lung ventilation.

14 nt frequency of 3He) were obtained to depict lung ventilation.

15 d with adulthood that necessitate control of lung ventilation.

16 Full functional residual capacity liquid lung ventilation administered before bypass resulted in

17 Measurements of regional lung ventilation and microstructure in subjects with chi

18 existing pathology, surgical trauma, single-lung ventilation and postoperative ventilation-perfusion

19 en shown to detect regional abnormalities in lung ventilation and structure in adults with asthma, bu

20 In patients who require one-lung ventilation and who present with a difficult airway

21 condition, obtaining and maintaining single lung ventilation, and maintaining adequate ventilation a

22 Liquid lung ventilation animals received perflubron via the end

23 and half functional residual capacity liquid lung ventilation animals.

24 t bronchoconstriction leads to patchiness in lung ventilation, as well as a computational model that

25 CT was comparable to a direct measurement of lung ventilation at hyperpolarized (3)He MR imaging.

26 ane oxygenation support permits low pressure lung ventilation, avoiding barotrauma to lungs made fria

27 cal projections, RTN-Phox2b neurons regulate lung ventilation by controlling breathing frequency, ins

28 RTN neurons increase lung ventilation by stimulating multiple aspects of brea

29 Conclusion Quantification of regional lung ventilation by using dynamic (19)F gas washout MR i

30 In contrast, the burst associated with lung ventilation can be generated in the absence of Cl(-

31 Lung ventilation defects identified by using hyperpolari

32 These data suggest that liquid lung ventilation dosing at full functional residual capa

33 One-lung ventilation during esophagectomy is associated with

34 ent axial constraint that prevents effective lung ventilation during moderate- and high-speed locomot

35 ry pressure (PEEP) for the management of one-lung ventilation during thoracic surgery.

36 ruitment, lateral decubitus and differential lung ventilation enabled the titration of optimum-select

37 management and more interventions during one-lung ventilation for thoracic surgery to prevent periope

38 Liquid lung ventilation has been demonstrated to improve cardio

39 ing basal breathing, negative-pressure (iron-lung) ventilation, heliox breathing, and inspiratory res

40 perative assessment; (ii) techniques for one-lung ventilation; (iii) anesthetic implications of speci

41 ell negates the costal movements that effect lung ventilation in other air-breathing amniotes.

42 Purpose To quantify regional lung ventilation in patients with chronic obstructive pu

43 Common devices used to achieve one-lung ventilation in patients with difficult airways incl

44 One-lung ventilation in the thoracic surgical patient can be

45 Regional quantification of lung ventilation is indeed feasible and may be a useful

46 We hypothesized that liquid lung ventilation (LLV) would decrease the pulmonary infl

47 ruitment, lateral decubitus and differential lung ventilation may enable the titration and applicatio

48 entering the heart of air-breathing fishes, lung ventilation may supply the myocardium with oxygen a

49 Using a recently reported iron lung ventilation model, we sought to determine the stimu

50 in absolute and relative indications for one-lung ventilation (OLV) should be viewed as antiquated.

51 ia and atelectasis as the consequence of one-lung ventilation, perhaps more importantly, also as part

52 It is also recognized that one-lung ventilation presents unique problems for the patien

53 e imaging that provide measurement of distal lung ventilation reflecting small-airway disease.

54 Cardiopulmonary bypass without liquid lung ventilation resulted in a significant decrease in c

55 Full functional residual capacity liquid lung ventilation resulted in lower pulmonary vascular re

56 us non-invasive monitoring, have made single-lung ventilation safe and easy to perform.

57 Data indicate that adoption of an open-lung ventilation strategy, characterized by sufficient p

58 re importantly, also as part of a protective lung-ventilation strategy to ameliorate mechanical stres

59 This leads to recon- structed images of lung ventilation that can easily be superimposed with st

60 res provide evidence that diaphragm-assisted lung ventilation was present in theropods and that these

61 Regional lung ventilation was quantified by using volume defect p

62 ic stability during prolonged periods of one-lung ventilation, while optimizing conditions for intrao

63 The physiology and methods of single lung ventilation will be reviewed, including the use of