ライフサイエンスコーパス: airway management

1 and cardiovascular collapse during emergency airway management.

2 otal intravenous anesthesia [TIVA]) requires airway management.

3 Participants were assigned to LT or ETI airway management.

4 1% with hypocarbia among those with advanced airway management.

5 treated with tPA), requiring urgent advanced airway management.

6 cant benefits in outcome which extend beyond airway management.

7 ich is particularly true for urgent/emergent airway management.

8 to be a reliable alternative for in-hospital airway management.

9 newest devices being promoted for difficult-airway management.

10 he no longer requires caregiver support for airway management.

11 during the last year in improving difficult-airway management.

12 s, is at risk for hypoxemia during emergency airway management.

13 intended and preventable incidents involving airway management.

14 sponse by the cardiac arrest team is initial airway management.

15 and demonstrate their competence in initial airway management.

16 n, and major/minor variances associated with airway management.

17 ine that prioritized chest compressions over airway management.

18 c brain injury, (2) optimizing postoperative airway management, (3) enhancing communication between s

19 imated to weigh less than 40 kg who required airway management; 820 were available for follow-up.

20 he survival benefit of pre-hospital advanced airway management (AAM) for OHCA remains controversial.

21 when indicated, appropriate ventilation and airway management, administration of epinephrine to incr

22 ces are mastered quickly and offer effective airway management aid.

23 uisition and retention of skills involved in airway management among junior critical care doctors.

24 This review focuses on developments in airway management and concious sedation/analgesic techni

25 is review describes the history of emergency airway management and explores the challenges with moder

26 ould address the critical needs of emergency airway management and help democratize intubation.

27 ry compromise need treatment, which includes airway management and intravenous or subcutaneous naloxo

28 udies, laryngospasm is always complete, thus airway management and intravenous therapy are indicated.

29 rienced nontraumatic OHCA requiring advanced airway management and were treated by participating emer

30 hesia Patient Safety Foundation, Society for Airway Management, and Karl Storz Endoscopy.

31 uisition in advanced life support, emergency airway management, and nontechnical skills.

32 ut others will need anaesthesia with careful airway management, and the accompanying skilled personne

33 PURPOSE OF REVIEW: Difficulties in pediatric airway management are common and continue to result in s

34 Controlled studies in prehospital airway management are few.

35 The complexities of airway management are immense and though great strides h

36 l care environment as conducive to difficult airway management as the operating room requires plannin

37 warming and tactile stimulation to advanced airway management, assisted ventilation, oxygen therapy,

38 The review does not consider airway management at the time of cardiopulmonary resusci

39 Advanced airway management attempts, including ETI, SGA, and surg

40 Rote decision making on airway management, based on commonly used indexes, is no

41 ngoscopy is an established tool in difficult airway management, but our results shed light on the spe

42 Identifying longitudinal changes in advanced airway management by emergency medical services (EMS) is

43 ates in key trauma concepts: primary survey, airway management, chest injuries, major haemorrhage, an

44 splant center and supported with appropriate airway management, close neurologic evaluation, glucose

45 Airway management considerations are similar across both

46 Integration of a just-in-time approach into airway management could improve patient safety, and thes

47 Simulation-based airway management curriculum is superior to no intervent

48 of the present trial is to compare different airway management devices in simulated microgravity usin

49 ive staff, and the availability of difficult airway management devices.Unexpected difficult airways w

50 illation, electrical cardioversion, advanced airway management, drug therapies, and intravenous acces

51 Airway management during in-hospital cardiac arrest repr

52 The optimal airway management during pediatric in-hospital cardiac a

53 al practices must provide suitable difficult airway management equipment as well as technical and non

54 ian with airway training and having advanced airway management equipment available.

55 role and effectiveness of recently developed airway management equipment.

56 ency medicine to prevent desaturation during airway management, especially in high-risk populations.

57 certainty regarding the optimal approach for airway management for adult patients with out-of-hospita

58 multivariable logistic regression, advanced airway management had an OR for favorable neurological o

59 way injuries, airway anatomy, techniques for airway management, helpful pharmacologic adjuncts and fi

60 w will focus on two key aspects of difficult airway management in an ambulatory surgical center (ASC)

61 Advanced airway management in children can be challenging, and th

62 Emergency airway management in children can be fraught with proble

63 Understand the Impact and Best Practices of Airway Management in Critically Ill Patients (INTUBE) st

64 Understand the Impact and Best Practices of Airway Management In Critically Ill Patients) was a mult

65 xplores the challenges with modern emergency airway management in critically ill patients.

66 RECENT FINDINGS: Routine airway management in healthy children with normal airway

67 ge regarding techniques and complications of airway management in hospitals, outside the operating ro

68 (SGAs) with tracheal intubation for initial airway management in OHCA.

69 e utilized by personnel trained in pediatric airway management in order to obtain adequate emergent i

70 w and treatment recommendations for advanced airway management in pediatric cardiac arrest, extracorp

71 desirable trend that may contribute to safer airway management in the future.

72 Airway management in the prehospital setting has substan

73 Airway management includes both specialized technical sk

74 Principles of airway management including the maintenance of spontaneo

75 ears; 273 296 [61.5%] men) involved advanced airway management, including 305 584 (68.8%) that used E

76 -mask ventilation and 281,522 (43%) advanced airway management, including 41,972 (6%) with endotrache

77 Airway management is being provided by several specialti

78 Ensuring quality in prehospital airway management is challenging because the out-of-hosp

79 Prehospital airway management is difficult with a high risk of failu

80 Careful anesthetic airway management is needed because of the associated ri

81 ncy medical service leaders that prehospital airway management is prone to error.

82 Airway management is the most essential part of treatmen

83 ever, this review will focus specifically on airway management issues in the emergency department.

84 Five different devices for airway management [laryngeal mask (LM), laryngeal tube (

85 Airway management may be particularly challenging in pat

86 tracheal intubation (ETI) is widely used for airway management of children in the out-of-hospital set

87 tes and body mass index, age, indication for airway management, or experience of the physicians, resp

88 disasters requiring rapid access to advanced airway management, or in transport applications for hand

89 euromuscular blocking agents during emergent airway management outside of the operating room and emer

90 Although airway management outside the operating room remains a h

91 ailable data confirm the high-risk nature of airway management outside the operating room.

92 tigate changes in in-hospital cardiac arrest airway management over time and in response to national

93 The tool was found to support airway management planning accurately and may serve as a

94 ryngeal lesions, might improve preanesthesia airway management planning and decision-making in patien

95 In this study, the Expect-It tool for airway management planning was prospectively developed a

96 During airway management planning, physicians proposed a first-

97 isodes, there were marked shifts in advanced airway management practices, with the increased use of S

98 observations highlight current trends in EMS airway management practices.

99 cheal intubation, the use of SGA for initial airway management probably leads to more ROSC, and faste

100 y place the parturient at increased risk for airway management problems.

101 ining in the areas of resuscitation, trauma, airway management, procedural training, team training, a

102 espiratory droplet patterns generated during airway management procedures follow two distinctive traj

103 regarding large droplet dissemination during airway management procedures in real life settings.

104 12 different airway management procedures were investigated during ro

105 tube probably only have a place in emergency airway management rather than elective anaesthesia.

106 established vulnerability of children during airway management, remarkably little is known about comp

107 issions, the use of supraglottic airways for airway management seems to be more promising as compared

108 ifficult airway can be achieved by improving airway management skills and adhering to universally acc

109 All interns were tested in initial airway management skills and then were randomly assigned

110 months following simulator training, intern airway management skills were scored in actual patient a

111 nd advanced life support personnel emergency airway management skills.

112 chieving and measuring competence in initial airway management skills.

113 l starting medical interns demonstrated poor airway management skills.

114 ness, efficiency, and equity for prehospital airway management, specifically endotracheal intubation,

115 Airway management strictly following a prehospital algor

116 It is unclear whether advanced airway management such as endotracheal intubation or use

117 highlighting the importance of FAE-specific airway management techniques and anesthesia, establishin

118 Finally, recent developments in airway management techniques and new airway devices are

119 itically evaluate the quality of prehospital airway management that they are providing to patients wi

120 For airway management, the writing group concluded that it i

121 ntenance of minimum monitoring standards and airway management training is required for staff involve

122 resent state of using medical simulation for airway-management training.

123 Analysis of prehospital airway management using a prospective registry that was

124 The simulation of airway management using realistic simulator tools (e.g.

125 ncluded all 911 EMS events in which advanced airway management was attempted.

126 Initial airway management was divided into specific scorable ste

127 ult patients with OHCA, any type of advanced airway management was independently associated with decr

128 up showed significant improvement in initial airway management when tested before and 4 wks after tra

129 ding safe concepts for emergencies including airway management will be a highly challenging task.

130 Prehospital advanced airway management with either initial endotracheal intub

131 cal trial, among patients with OHCA, initial airway management with ETI did not result in a favorable

132 In the present study, airway management with supraglottic airways and laryngos