ライフサイエンスコーパス: humidify

1 p participants received warm (37 degrees C), humidified (98% relative humidity) CO(2) gas insufflatio

2 tive clouds in the tropics and midlatitudes, humidified aerosols freeze to form ice, which upon expos

3 Hyperventilation challenge with warm humidified air (WAC) increased Rp and ASF volume, but de

4 e cleaner HOPG surface that is exfoliated in humidified air and covered with a nanometer-thick water

5 exposure to both 254 and 185 nm UV light in humidified air and high ozone.

6 y responses to isocapnic hyperventilation of humidified air at hot (49 degrees C; HA) and room temper

7 sure was supplied with controlled amounts of humidified air from a test atmosphere generator to creat

8 loud condensation nucleus when introduced to humidified air in aerosol form.

9 Baseline insufflation of warm humidified air increased ASF volume, but did not alter A

10 Drug delivery in humidified air with pulmonary disease mechanics using th

11 blot hybridization in normoxic (5% CO2, 95% humidified air) and hypoxic (1% O2, 5% CO2, 94% N2) cult

12 contained 1 mM bicarbonate (atmosphere:100% humidified air) rather than 25 mM bicarbonate (atmospher

13 parts per billion of NO2 in the presence of humidified air.

14 d a decelerating flow pattern, using dry and humidified air.

15 ther than 25 mM bicarbonate (atmosphere: 95% humidified air/5% CO2).

16 he nasal morphology and/or function aimed to humidify and warm the air before it reaches the lungs ar

17 was prevented by occlusion or exposure to a humidified atmosphere (179 +/- 13 versus 441 +/- 34 micr

18 PBMC suspensions were incubated upright in a humidified atmosphere at 37 degrees C with 5% CO2 for 24

19 ed after exposure of the ocular surface to a humidified atmosphere.

20 thermal reactions after illumination of 100% humidified bacteriorhodopsin films was followed with FTI

21 Even in humidified cell culture incubators, evaporation through

22 10 and 100 nm) for 18 h at 37 degrees C in a humidified chamber.

23 The acid-humidified CO(2) approach was extended to bismuth, coppe

24 aic efficiency, whereas a conventional water-humidified CO(2) feed only operated stably for ~80 hours

25 Warm, humidified CO(2) insufflation for acute laparoscopic app

26 we demonstrate a flow electrolyzer that uses humidified CO(2) to produce CH(4) in a 700-h process und

27 ell as long-term ultrastability under highly humidified CO2 environments and exceptional chemical sta

28 and injury, which is preventable with warm, humidified CO2 gas.

29 s greater under dry (28.8 to 39%) than under humidified conditions (15.9 to 20.2%) (p < 0.005 in all

30 performance for transient operation and low humidified conditions, as well as improved durability ag

31 Ventilator settings were the following: humidified FIO2 of 1.0; mean airway pressure of 28 cm H2

32 sample can be determined under conditions of humidified flow where there may be a simultaneous ingres

33 tudies aimed at predicting clay expansion in humidified fluids with varying ratios of CO(2) and CH(4)

34 lastic bag or plastic wrap along with heated humidified gas for resuscitation or for initiating respi

35 on PEEP (7.5 cm H2O), and ventilated with a humidified gas mixture; and (4) LPS + PEEP + Sf (n = 6),

36 des of ventilation, with either 37 degrees C humidified gas or 25 degrees C dry gas.

37 ag or wrap with a plastic cap or with heated humidified gas was associated with lower risk of major b

38 requency jet ventilation, using 37 degrees C humidified gas.

39 blies that are only operated with pure water humidified gases.

40 polysulfone (DAPSF) binder at 80 C with 90% humidified H(2) and O(2) gases.

41 ing 5% (v/v) glycerin in the solutions and a humidified headspace to control evaporation of the small

42 The effectiveness of humidified high flow nasal cannula (HFNC) in lung transp

43 positive airway pressure (NCPAP) and heated humidified high-flow nasal cannula (HHHFNC) are the most

44 Importance: Heated, humidified high-flow nasal cannula (HHHFNC) has gained i

45 g.Conclusions: Oxygen delivery modalities of humidified high-flow nasal cannula and noninvasive posit

46 ignificantly increase with the use of either humidified high-flow nasal cannula or noninvasive positi

47 idified nasal cannula, face mask, heated and humidified high-flow nasal cannula, and noninvasive posi

48 1.7 and 1.3 W cm(-2) at 850 degrees C using humidified hydrogen and propane fuels, respectively.

49 degrees C, respectively) when operated with humidified hydrogen as the fuel and air as the cathode g

50 er 2 watts per square centimetre of power in humidified hydrogen gas, and a current of 2.75 amps per

51 A mild jet of humidified nitrogen gas directed tangentially at the dro

52 f substrate-deposited, isolated particles to humidified nitrogen inside a sample cell followed by mic

53 d both ventilation modes, using 37 degrees C humidified or 22 degrees C dry inspired gas.

54 N(2) gas was bubbled through water, and the humidified output containing undetectable concentrations

55 etrograde persufflation whereby filtered and humidified oxygen is bubbled through the vasculature; un

56 ancies were randomized to receive either 60% humidified oxygen or medical compressed air (room air) b

57 m both measurements of CCN activity and from humidified-particle light extinction, and varied from 0.

58 the sample broadly agreed with those of the humidified particles, indicating the potential to infer

59 me of lung transplantation were mounted in a humidified perfusion chamber and the mucosal surface was

60 ast, SOA that is formed dry and subsequently humidified remains solid to high RH.

61 .28-1.38 C), plastic bag or wrap with heated humidified respiratory gas (MD, 0.76 C; 95% CrI, 0.38-1.

62 are alone, a plastic bag or wrap with heated humidified respiratory gas was associated with less risk

63 d carbonation of forsterite (Mg(2)SiO(4)) in humidified scCO(2) (50 degrees C and 90 bar), which serv

64 carbonation kinetics in thin H(2)O films in humidified scCO(2) is not well understood.

65 carbonation of divalent silicates exposed to humidified scCO(2) occurs in angstroms to nanometers thi

66 bulk and surface properties of anhydrous and humidified spray-dried milk protein concentrate (MPC) po

67 , the optimized automatic sprayer method and humidified sublimation method resulted in double the num

68 is not affected by a sequential exposure to humidified synthetic air (60% r.h.) with a flow rate of

69 CLSM measurements showed that humidified systems have slower real time water diffusion

70 factors, densities, and compositions using a humidified tandem differential mobility analyzer that is

71 mass spectrometry, ion chromatography, and a humidified tandem differential mobility analyzer.

72 Water permeation is also used to humidify the sample gas stream.

73 Humidifying the infusion air may reduce postoperative vi

74 Humidifying the mask increases reactive formation of chl

75 Results show inhaled air was both heated and humidified up to 90% of alveolar conditions at the poste

76 the in vitro delivery of 16.2% achieved in a humidified ventilator circuit, the resulting value (16.2

77 y pressure (CPAP), separately with a dry and humidified ventilator circuit.

78 e lower respiratory tract was decreased in a humidified versus a dry circuit (16.2 versus 30.4%, resp