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1        SUMMARY OF IPLA reduces pain in adult elective surgery.
2 e 23.3 mo) undergoing general anesthesia for elective surgery.
3  of healthy adults undergoing anesthesia for elective surgery.
4 ced fluids, analgesics, or, less frequently, elective surgery.
5 rity of illness in patients undergoing major elective surgery.
6 loss in children and is generally treated by elective surgery.
7 ompared with those of 21 children undergoing elective surgery.
8 cally ill, but also perioperatively in major elective surgery.
9 biopsies were taken from patients undergoing elective surgery.
10 atients presenting to the medical center for elective surgery.
11 ncreases the risk of complications following elective surgery.
12 female subjects and half were admitted after elective surgery.
13 higher cost and worse outcomes compared with elective surgery.
14 ion shower protocols for patients undergoing elective surgery.
15 ients receiving general anesthesia for major elective surgery.
16  help to maximize the functional benefits of elective surgery.
17 0-40 ml/kg over 2-4 h in children undergoing elective surgery.
18 o directly correlate with its performance in elective surgery.
19  be infused at 20-40 ml/kg over 2-4 h during elective surgery.
20 the trial, which included both emergency and elective surgery.
21 rgeons operating the night before performing elective surgery.
22 d growth at 6 and 12 months and the need for elective surgery.
23  the trajectory of functional recovery after elective surgery.
24 tional status may improve outcomes following elective surgery.
25 d can reduce bleeding in patients undergoing elective surgery.
26 ignant hyperthermia susceptible presents for elective surgery.
27 ing airway interventions in association with elective surgery.
28 rgery, and reason for hospitalization before elective surgery.
29 surgery than in patients admitted following "elective" surgery.
30 apy for reducing perioperative hemorrhage in elective surgeries.
31 g (resuscitative) situations and in everyday elective surgeries.
32  shortly after hospital admission or delayed elective surgery after a conservative treatment with ant
33 consisted of seven physiologic measurements, elective surgery, age, and prior length of stay.
34 ics may improve the safety and efficiency of elective surgery among chronic opioid users.
35  There were 16 pediatric controls undergoing elective surgery and 177 pediatric ICU patients without
36 e obtained from eight patients intubated for elective surgery and free of lung disease.
37          The mortality rates associated with elective surgery and medical therapy were 34 and 54 deat
38 ole of asymptomatic bacteriuria (ASB) before elective surgery and the subsequent risk of infection is
39  case-mix and included both those undergoing elective surgery and those undergoing urgent surgery.
40        To describe functional recovery after elective surgery and to determine whether improvements d
41  significantly decreased SSI incidence after elective surgery and was shown to be cost-effective in o
42   This may reflect changes in thresholds for elective surgery and/or an increase in the frequency or
43   Patients hospitalized within 90 days of an elective surgery are at increased risk of adverse events
44 ment Program preoperative risk factors, with elective surgery as the reference value, the 3 groups ha
45 ce in trauma surgery, emergency surgery, and elective surgery at a single academic medical center.
46 rative frailty in all patients scheduled for elective surgery began in July 2011.
47 base who underwent major general or vascular elective surgery between 2006 and 2009 and who had a CT
48 reening was associated with more overall and elective surgeries but fewer emergency operations and lo
49 obtained from patients briefly intubated for elective surgery but were detected by PCR in samples fro
50  specific, as they reduce infection rates in elective surgery, but possibly increase morbidity in cri
51  dollars) than their counterparts who had an elective surgery component.
52 iovascular (CV) risk evaluation before major elective surgery, current risk assessment tools are rela
53 iovascular (CV) risk evaluation before major elective surgery, current risk assessment tools are rela
54                     Healthy women undergoing elective surgery donated fasting blood samples (for calc
55 aseline characteristics (ICU admission after elective surgery, emergency surgery, or medical admissio
56 cluded data from 6970 patients who underwent elective surgeries for diverticular disease from 2005 to
57 e observational study in patients undergoing elective surgery for colon cancer without mechanical bow
58 tabase contained 625 patients that underwent elective surgery for descending thoracic aortic aneurysm
59 ard practice has been to stop aspirin before elective surgery for fear of excessive bleeding.
60 eview of outcomes for 13,614 patients having elective surgery for mitral regurgitation between 2000 a
61                       In patients undergoing elective surgery for nonlocally advanced, nonmetastasize
62 e procedure of choice for patients requiring elective surgery for ulcerative colitis, but some patien
63                  Five patients who underwent elective surgery formed a control group.
64 r were assessed in a preoperative clinic for elective surgery from July 9, 2008, to January 5, 2011.
65  for a hazard ratio for death of 0.64 in the elective-surgery group (95% CI, 0.45 to 0.92; P=0.01 by
66                At that time, patients in the elective-surgery group also had a higher rate of disease
67 ere were 81 recurrences and 50 deaths in the elective-surgery group and 146 recurrences and 79 deaths
68 sults for the first 500 patients (245 in the elective-surgery group and 255 in the therapeutic-surger
69  of adverse events were 6.6% and 3.6% in the elective-surgery group and the therapeutic-surgery group
70  levels in patients after trauma, burns, and elective surgery have been associated with complications
71 n aging implies that patients presenting for elective surgery in future decades will be older and sic
72 VD risk factor status either before or after elective surgery in midlife.
73 o preserve cardiorespiratory function before elective surgery in older people.
74 of antiplatelet therapy as well as timing of elective surgery in patients with both drug-eluting sten
75 all esophageal cancer patients who underwent elective surgery in Sweden in 1987 to 2010, with follow-
76        Patients over 45 years old undergoing elective surgery, involving the gastrointestinal tract,
77                The earliest optimal time for elective surgery is 46 to 180 days after bare-metal sten
78                                        Early elective surgery is associated with low mortality and re
79  influences postoperative outcomes following elective surgery is not well understood.
80 hypocaloric nutrition in patients undergoing elective surgery is unknown.
81                                           In elective surgery, it is well documented that a midline l
82 es have been reported in patients undergoing elective surgery later compared with earlier in the week
83 n = 50), chronic liver disease (n = 33), and elective surgery (n = 9).
84 ith GDM, and 11 nonpregnant women undergoing elective surgery (nonpregnant control).
85    As greater numbers of older patients seek elective surgery, one approach to preventing postoperati
86 nesthesiologists) score, surgical procedure, elective surgery or not, and disease of pancreatic origi
87 as more likely to occur at TH than NTH after elective surgery (OR = 1.56; 95% CI 1.32-1.85, P < 0.005
88                             Patients who had elective surgery, overdoses, and who were expected to st
89                                 Eight female elective surgery patients (pts) were sampled pre-tx and
90                                              Elective surgery patients had significantly lower adjust
91                                              Elective surgery patients received a bolus of [1-(14)C]p
92           We evaluated the data of high-risk elective surgery patients using both PAC and multicompon
93 n survivors and nonsurvivors among high-risk elective surgery patients using both the thermodilution
94 ery for managing elderly patients undergoing elective surgery procedures.
95 occupancy across the days of the week due to elective surgery scheduling practices.
96 kin surface bacteria for patients undergoing elective surgery, selective health care facilities have
97                          Patients undergoing elective surgery should be managed within a multimodal p
98                                              Elective surgery should be postponed for at least 4 week
99                   The Successful Aging after Elective Surgery study enrolled dementia-free adults >/=
100  from the prospective Successful Aging after Elective Surgery study were analysed blind to the clinic
101                                       Before elective surgery, they had a mean (SD) of 1.0 (0.9) inpa
102 tients need to be assessed well before major elective surgery to determine if they fall into a high-r
103 clusion criteria were acutely ill, high-risk elective surgery, trauma, and septic patients.
104  70 years and had been scheduled for various elective surgeries under general anesthesia at 5 French
105                    Among patients undergoing elective surgery under general anesthesia, sedative prem
106                     Acute inflammation after elective surgery was associated with a significant decli
107 rtality estimates stratified by emergent and elective surgeries were pooled separately for CD and UC
108                       Patients scheduled for elective surgeries were randomized to RB (a module added
109 olled trial, adult patients undergoing major elective surgery were allocated by computer-generated ra
110                    Patients undergoing major elective surgery were assessed daily while in hospital f
111 r auxological evaluation or obesity or minor elective surgery were prospectively enrolled.
112 al disturbance, and those admitted following elective surgery, were more likely to survive and be dis
113 therefore allowing patients to undergo safer elective surgery when appropriate.
114 egarding outcome in children who present for elective surgery with an upper respiratory tract infecti
115 l thromboplastin time (aPTT) obtained before elective surgery with initial PT and PTT results of 14.9
116 re in the period immediately following minor elective surgery, with death 1 month later in an akineti

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