ライフサイエンスコーパス: ambulatory surgery

1 is known about serious infections following ambulatory surgery.

2 ical acute care visits for CS-SSIs following ambulatory surgery.

3 o anesthetic and analgesic drugs used during ambulatory surgery.

4 cal outcomes for elderly patients undergoing ambulatory surgery.

5 ain, and gastrointestinal dysfunction) after ambulatory surgery.

6 ing use of peripheral nerve blocks (PNBs) in ambulatory surgery.

7 e on the benefits of regional anesthesia for ambulatory surgery.

8 nea and comorbidities are not candidates for ambulatory surgery.

9 is overused in patients undergoing low-risk, ambulatory surgery.

10 ovided addition impetus to the popularity of ambulatory surgery.

11 fely meet the steadily increasing demand for ambulatory surgery.

12 multimodal approach to preventing pain after ambulatory surgery.

13 ative muscle strength in patients undergoing ambulatory surgery.

14 perative management, discharge planning, and ambulatory surgery.

15 vices lend themselves well to anaesthesia in ambulatory surgery.

16 ng the fast-track recovery process following ambulatory surgery.

17 t as a perioperative physician in fast-track ambulatory surgery.

18 the ability to fast-track outpatients after ambulatory surgery.

19 y has grown concurrently with the demand for ambulatory surgery.

20 induction and maintenance of anaesthesia for ambulatory surgery.

21 ollow-up care in the first 30 days following ambulatory surgery.

22 he modifications necessary to adapt them for ambulatory surgery.

23 the standard for anesthesia or analgesia in ambulatory surgery.

24 Discharge Survey and the National Survey of Ambulatory Surgery.

25 Nineteen patients were eligible for ambulatory surgery.

26 is a safe, effective wound care ointment for ambulatory surgery.

27 ern with the rapid increase in the number of ambulatory surgeries.

28 of management of acute appendicitis (AA) in ambulatory surgery (AmbSurg) on the basis of preoperativ

29 d in the prevention of skin infections after ambulatory surgeries and as a maintenance therapy of ato

30 ment of the patient with diabetes undergoing ambulatory surgery and address them in a step-wise strat

31 Ambulatory surgery and anesthesia care is uniquely orien

32 e research in this area which is specific to ambulatory surgery and much of the available evidence fr

33 describes the concept of fast-tracking after ambulatory surgery and reviews anesthetic techniques tha

34 ealthcare Cost and Utilization Project State Ambulatory Surgery and State Inpatient Databases for 8 g

35 lable on the market, many being suitable for ambulatory surgery and the specific demands it creates.

36 Data on costs of SSIs following ambulatory surgery are sparse, particularly variation be

37 ctors that lowered costs were location at an ambulatory surgery center (-$813) and fellow second surg

38 geries in the United States are performed in Ambulatory Surgery Center (ASC) and Hospital Outpatient

39 air by each modality in a hospital-based and ambulatory surgery center (ASC) setting.

40 records of a private, retina practice and an ambulatory surgery center (ASC) were searched from Janua

41 Ambulatory surgery center and hospital outpatient depart

42 1 at 36 community acute care hospitals and 1 ambulatory surgery center in the Duke Infection Control

43 vices provided outside the operating room or ambulatory surgery center is in the office-based setting

44 ocedure was rendered in a hospital versus an ambulatory surgery center or rendered in a high-volume v

45 acility setting with surgery performed in an ambulatory surgery center serving as the lowest end of t

46 C), Memorial Sloan Kettering Cancer Center's ambulatory surgery center with overnight stay capacity f

47 nt department versus physician office versus ambulatory surgery center).

48 of an elective hernia repair performed in an ambulatory surgery center.

49 < 0.001; physician office: 22.1%, P < 0.001; ambulatory surgery center: 36.6%, P < 0.001).

50 -outcome association has not been studied in ambulatory surgery centers (ASCs) in the US.

51 wned surgery centers (HOSCs) vs freestanding ambulatory surgery centers (FASCs) is unknown.

52 nned hospital visits were comparable between ambulatory surgery centers and hospital outpatient depar

53 for procedure type, procedures performed in ambulatory surgery centers conferred an additional $2019

54 ed after hospital outpatient departments and ambulatory surgery centers contracted with a PMC and wer

55 gists in hospital outpatient departments and ambulatory surgery centers decreased after the introduct

56 All hospitals and ambulatory surgery centers in New York State were includ

57 and all surgeries performed at freestanding ambulatory surgery centers in North Carolina in 2004.

58 mitted by ophthalmologists, optometrists, or ambulatory surgery centers were used to estimate prevale

59 Among 83 021 procedures performed at ambulatory surgery centers with in-network primary surge

60 submitted by ophthalmologists, optometrists, ambulatory surgery centers, or outpatient hospitals by r

61 oners in hospital outpatient departments and ambulatory surgery centers.

62 gists in hospital outpatient departments and ambulatory surgery centers.

63 Medicare reimbursements using CPT codes for ambulatory surgery centers.

64 atients with diabetes frequently present for ambulatory surgery concomitant with the rise in incidenc

65 PURPOSE OF REVIEW: Ambulatory surgery continues to expand in scope and volu

66 ost and Utilization Project California State Ambulatory Surgery Database in calendar year 2018.

67 hroplasty in the Florida and Wisconsin State Ambulatory Surgery Databases in 2017 and 2018.

68 Using four state-level inpatient and ambulatory surgery databases, we conducted a retrospecti

69 ia residents >/=21 years of age who received ambulatory surgery, emergency, or inpatient medical care

70 Patients discharged from acute care and ambulatory surgery facilities in North Carolina from 200

71 easing evidence supports the expanded use of ambulatory surgery for managing elderly patients undergo

72 complications of general anesthesia preclude ambulatory surgery for most patients undergoing breast s

73 PURPOSE OF REVIEW: Anesthesia for ambulatory surgery has come a long way since 1842 when J

74 Ambulatory surgery has come to the fore in recent years,

75 ation tube (VT) insertion is the most common ambulatory surgery in children.

76 review article describes the demographics of ambulatory surgery in the elderly population.

77 ed risk of complications; the suitability of ambulatory surgery in this patient population remains co

78 ucted a retrospective cohort study using the ambulatory surgery, inpatient, and emergency department

79 itudinal analysis of linked records in state ambulatory surgery, inpatient, and emergency department

80 Ambulatory surgery is considered low risk; however, both

81 Routine preoperative laboratory testing for ambulatory surgery is not recommended.

82 ch suggests that the incidence of PDNV after ambulatory surgery may be as high as 35%.

83 sits, including those for CS-SSIs, following ambulatory surgery occurred in 19.99 (95% CI, 19.48-20.5

84 Ambulatory surgery offers significant costs savings and

85 This study attempts to increase caseloads in ambulatory surgery operating rooms while maintaining pat

86 extensive postoperative pain relief for the ambulatory surgery patient.

87 sia and adjuncts are useful in the pediatric ambulatory surgery patient.

88 Appropriate pain management for ambulatory surgery patients helps to facilitate early di

89 and PDNV that address the unique concerns in ambulatory surgery patients.

90 pplication of this treatment modality to the ambulatory surgery population is poor.

91 port instituting prophylactic therapy in the ambulatory surgery population.

92 lenges related to the continued expansion of ambulatory surgery practice in this growing segment of o

93 As the number of ambulatory surgery procedures continues to grow in an ag

94 growth in both the number and complexity of ambulatory surgery procedures has redefined the role of

95 rtance in developing a successful fast-track ambulatory surgery program.

96 Among patients in 8 states undergoing ambulatory surgery, rates of postsurgical visits for CS-

97 Optimal muscle relaxation for ambulatory surgery results from a judicious combination

98 des data from 2016 to 2020 in the Nationwide Ambulatory Surgery Sample and the National Inpatient Sam

99 successfully in obese patients, even in the ambulatory surgery setting.

100 n adult inpatient, emergency department, and ambulatory surgery settings at an academic medical cente

101 Participants were recruited and treated in ambulatory surgery settings in 5 university-hospital cen

102 observational cohort study at inpatient and ambulatory surgery settings in New York State.

103 from California, Florida, and New York state ambulatory surgery settings were identified using ICD-9-

104 urrently taking beta-blockers and undergoing ambulatory surgery should continue these agents and prot

105 se documenting hospital, emergency room, and ambulatory surgery visits and investigated the incidence

106 colectomy and meeting rigorous criteria for ambulatory surgery were included.

107 n making for the diabetic patient undergoing ambulatory surgery will be presented.

108 chniques for pain management after pediatric ambulatory surgery will help the anesthetist develop a c