ライフサイエンスコーパス: cabin

1 xide (CO2) can quickly accumulate inside the cabin.

2 round the launch area and inside the shuttle cabin.

3 by the reduction of pressure in the aircraft cabin.

4 . two-rescuer method in a simulated airliner cabin.

5 nd diffused by turbulent airflows inside the cabin.

6 rease the barometric pressure as in aircraft cabins.

7 The interaction between Cabin 1 and calcineurin is dependent on PKC activation.

8 sults suggest a negative regulatory role for Cabin 1 in calcineurin signaling and provide a possible

9 Overexpression of Cabin 1 or its N-terminal truncation mutants inhibits th

10 endogenous calcineurin binding protein named Cabin 1 that inhibits calcineurin-mediated signal transd

11 GFP fused to a C-terminal fragment of CAIN (cabin 1), but not by expressing VIVIT-GFP.

12 itro by the calcium-sensitive MEF2 repressor Cabin 1.

13 g the calcineurin inhibitory domains of Cain/Cabin-1 and A-kinase anchoring protein 79 specifically i

14 method for UFP and CO2 using high-efficiency cabin air (HECA) filtration in OA mode.

15 study developed an on-board high efficiency cabin air (HECA) filtration system for reducing children

16 assenger vehicles are commonly equipped with cabin air filters but their filtration efficiency for ul

17 xposures affect commuter health, and whether cabin air filtration (CAF) can mitigate exposures, we co

18 s concluded that toxic gases or oil mists in cabin air may form adducts on plasma butyrylcholinestera

19 assessing benefits of reduced exposure to in-cabin air pollution among children riding buses would be

20 We found no evidence that aircraft cabin air recirculation increases the risk for URI sympt

21 gned to recirculate approximately 50% of the cabin air to increase fuel efficiency.

22 % traveled aboard aircraft that recirculated cabin air.

23 hts, cosmic-radiation exposure, jet lag, and cabin-air quality are growing health-care issues associa

24 mixtures to ensure the safety of the shuttle cabin and the launch system.

25 ned spaces, such as space shuttles, aircraft cabins, and air-conditioned buildings.

26 three hours, most high-touch surfaces in the cabin are contaminated, and within five to six hours nea

27 ization to levels similar to that inside the cabin at cruising altitude.

28 -2-one (6-MHO) were detected in the aircraft cabin at sub- to low ppb levels.

29 increased particle dispersion throughout the cabin but did not increase the highest exposure of nearb

30 oxia exposure akin to conditions in airplane cabins can reduce quality of chest compressions during C

31 nt temperature due to battery efficiency and cabin climate control.

32 es from specimens from passengers who shared cabins clustered together.

33 Throughout the measurements, the in-cabin CO2 concentration remained in the range of 620-930

34 -vitamin supplementation and/or reduction in cabin CO2.

35 Hypoxia in airplane cabins could impair oxygenation and physical performance

36 pressure and oxygen tension in the airplane cabin create an increased risk compared with seated immo

37 Cabin crew also exhibited cognitive deficits, possibly i

38 Airline pilots and cabin crew are occupationally exposed to higher levels o

39 The cabin crew group, who had a history of repeated jet lag,

40 Pilots and cabin crew have approximately twice the incidence of mel

41 The summary SMR for cabin crew was 0.90 (95% CI, 0.80-1.01; P = .97; 2 recor

42 The summary SIR for cabin crew was 2.09 (95% CI, 1.67-2.62; P = .45; 2 recor

43 epeated jet lag on mental abilities, airline cabin crew were compared with ground crew.

44 was only seen in the same subjects when the cabin crew were on transmeridian flights but not domesti

45 ummary SIR and SMR of melanoma in pilots and cabin crew.

46 encouraged to consider the value of training cabin crews to provide appropriate first-aid measures.

47 Aircraft cabin disinsection is required by some countries to kill

48 Exposure to airplane cabin environments and driving a car were predictors of

49 he surface contamination network in aircraft cabins exhibits a community structure, with small commun

50 An airflow pattern that travels across the cabin, farthest from the occupants, can potentially redu

51 Limited space in an airliner cabin has significant impact on no-flow-time in a two-re

52 , 80% of the particles were removed from the cabin in 1.3-2.6 min, depending on conditions, and 95% o

53 Rustic forest cabins infested with rodents and O. hermsi are the prima

54 lanes-that is, the presence of a first class cabin-is associated with more frequent air rage incident

55 rs, the first Cognition and Behavior in NF1 (CABIN) meeting was convened at the Banbury Center of Col

56 m numerical simulations to assess how the in-cabin microclimate of a car can potentially spread patho

57 performance in applications such as aircraft cabins or wind turbine blades.

58 attack rate for passengers in single-person cabins or without infected cabinmates was 18% (58/329),

59 It remains unclear whether the reduced cabin pressure and oxygen tension in the airplane cabin

60 ypoxia, similar to the conditions of reduced cabin pressure during commercial air travel (equivalent

61 s study investigates the effects of aircraft cabin pressure on intracranial pressure (ICP) elevation

62 es were evaluated across simulated in-flight cabin pressures (550 mmHg; experimental arm) and ground

63 ll three types of particulate pollutants, in-cabin reductions were higher on freeways than on arteria

64 The aircraft cabin represents a unique indoor environment due to its

65 A passenger car cabin represents one such situation with an elevated ris

66 While existing in-cabin sensors may provide alerts, wearables can enable m

67 d flight attendants come in contact with the cabin surfaces.

68 or flight attendants in disinsected aircraft cabins than top-of-descent spray and residual applicatio

69 o complex mixtures of mutagens in the flight cabin that may contribute to genomic instability by indu

70 With the HECA filtration system on, in-cabin UFP and BC levels were reduced by 88+/-6% and 84+/

71 air exchange to prevent CO2 buildup, but in-cabin UFP concentrations would increase.

72 The HECA filters offered an average in-cabin UFP reduction of 93%, much higher than the OEM fil

73 tem to recirculation (RC) mode can reduce in-cabin UFPs by approximately 90%, passenger-exhaled carbo

74 d risks to pesticide in disinsected aircraft cabins under three scenarios of pesticide application.

75 t (requiring walking through the first class cabin) versus the middle of the plane-also significantly

76 The cabin was replicated using a custom-made pressure chambe

77 ompared with 63% (27/43) for those sharing a cabin with an asymptomatic infected cabinmate, and 81% (