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1 sed morbidity with liberal fluid regimens in abdominal surgery.
2 s of age) undergoing elective orthopaedic or abdominal surgery.
3 th standard care in patients undergoing open abdominal surgery.
4 ducing SSI rates in patients undergoing open abdominal surgery.
5 s anti-inflammatory but is effective only in abdominal surgery.
6 ive care for older patients undergoing major abdominal surgery.
7 by physical disturbances to the bowel during abdominal surgery.
8 esolution of postoperative ileus after major abdominal surgery.
9 ngth of stay (LOS) among patients undergoing abdominal surgery.
10 arly after major open and minimally invasive abdominal surgery.
11 removed when discovered incidentally during abdominal surgery.
12 Fibrous adhesions remain a major sequela of abdominal surgery.
13 e ileus in patients with cancer who have had abdominal surgery.
14 ications of preoperative opioid use in major abdominal surgery.
15 to nonobese patients scheduled for elective abdominal surgery.
16 2 patients, most of whom had undergone major abdominal surgery.
17 pecimen obtained during previously scheduled abdominal surgery.
18 patients who had undergone major vascular or abdominal surgery.
19 l cells from 16 patients undergoing elective abdominal surgery.
20 Fifty-five patients had previous abdominal surgery.
21 tion when compared with other types of major abdominal surgery.
22 All study subjects were undergoing abdominal surgery.
23 elirium and LOS in older patients undergoing abdominal surgery.
24 event, particularly those who undergo major abdominal surgery.
25 op hypoxemic acute respiratory failure after abdominal surgery.
26 ffects observed in patients undergoing major abdominal surgery.
27 randomized controlled trials in general and abdominal surgery.
28 re assessed in 137 patients undergoing major abdominal surgery.
29 compounded postoperative complications after abdominal surgery.
30 ould include PEEP of 5-10 cmH2O during major abdominal surgery.
31 ere discharged to PAC facilities after major abdominal surgery.
32 rates of SBO after laparoscopic versus open abdominal surgery.
33 esidential status 6 months after nonelective abdominal surgery.
34 e most common causes for complications after abdominal surgery.
35 two cohorts of patients that underwent major abdominal surgery.
36 t frequent postoperative complications after abdominal surgery.
37 entation of glutamine dipeptide during major abdominal surgery.
38 is an important complication following major abdominal surgery.
39 HSHs and LSHs for any advanced laparoscopic abdominal surgery.
40 s largely determines clinical recovery after abdominal surgery.
41 is higher after thoracic surgery than after abdominal surgery.
42 eratively for thromboprophylaxis after major abdominal surgery.
43 lective and clean or clean-contaminated open abdominal surgery.
44 is a frequent and common problem after major abdominal surgery.
45 e negative effect on the convalescence after abdominal surgery.
46 ce under conditions of stress, such as after abdominal surgery.
47 thered by direct observation during elective abdominal surgery.
48 postoperative mortality and morbidity after abdominal surgery.
49 to identify the risk factors for PPCs after abdominal surgery.
50 s on laparoscopic surgery compared with open abdominal surgery.
51 osis that causes small-bowel adhesions after abdominal surgery.
52 ction (SSI) rate in patients undergoing open abdominal surgery.
53 ecystitis included advanced age and previous abdominal surgeries.
54 the 13,292 patients with HAP following intra-abdominal surgery, 1421 died prior to discharge (mortali
55 than routine, use of nasogastric tubes after abdominal surgery (2 meta-analyses) and short-acting rat
57 ocedures: 1) extubation; 2) tracheostomy; 3) abdominal surgery; 4) nonabdominal surgery; 5) magnetic
58 so assessed whether the visceral stressor of abdominal surgery activated brain CRF neurons using doub
60 athways and biochemical coding through which abdominal surgery activates PVN neurons 1 h post surgery
62 readmissions for long-term complications of abdominal surgery, adhesions are widely recognized as on
63 modulate IRI, as well as demonstrating that abdominal surgery alone leads to lymphocyte changes in k
64 onary comorbidities including multiple prior abdominal surgeries and a single functional left kidney.
65 Within the entire study population (major abdominal surgeries and craniotomies), we found an assoc
66 ons in a cohort of patients undergoing major abdominal surgeries and craniotomies, and (2) the effect
67 nal interstitial edema often develops during abdominal surgery and after fluid resuscitation in traum
68 e units among 293 patients who had undergone abdominal surgery and developed hypoxemic respiratory fa
69 e obtained from 26 women undergoing elective abdominal surgery and gene expression examined in whole
71 ch as elderly people, individuals undergoing abdominal surgery and prostatic biopsy procedures, and p
72 aring placebo capsule two hours before major abdominal surgery and then twice daily until the first b
73 e treated with antibiotics alone, 18.8% with abdominal surgery, and 32% with surgery and antimicrobia
76 s had higher body mass index, rates of prior abdominal surgery, and softer pancreatic remnants, where
77 adhesions represent a common complication of abdominal surgery, and tissue hypoxia is a main determin
78 carpal tunnel surgery, gynecologic surgery, abdominal surgery, and tonsillectomy, and were more like
80 rgery, bowel resection, and aggressive upper abdominal surgery are commonly required to achieve optim
82 entify adult patients who underwent elective abdominal surgery between June 2009 and December 2012 (n
83 ar undergoing major thoracic (noncardiac) or abdominal surgery between March 2008 and July 2010, with
84 ndergoing liver resections, a model of major abdominal surgery, between September 2013 and September
85 embrane reduces adhesions in gynecologic and abdominal surgery but this is the first trial in hepatec
90 es and resource use in advanced laparoscopic abdominal surgery compared with low-star hospitals (LSHs
91 of adult patients undergoing elective major abdominal surgery comparing intraoperative GDFT versus c
92 doscopy such as hospitalization and previous abdominal surgery, erythromycin still resulted in an inc
93 r experience and is usually related to prior abdominal surgery, especially with creation of a Roux-en
94 Thromboembolic complications following major abdominal surgery for cancer may be reduced with the use
98 tive use of narcotics in patients undergoing abdominal surgery for CD is associated with worse postop
99 scent surgical patients underwent additional abdominal surgery for complications of surgery or rapid
100 formula (O-HN) in patients undergoing major abdominal surgery for upper gastrointestinal malignancie
101 he inclusion criteria are minimally invasive abdominal surgery formally analyzing the learning curve
104 ts suffering from an incisional hernia after abdominal surgery have an impaired quality of life (QoL)
105 ed trials in patients undergoing major intra-abdominal surgery have challenged the historical use of
106 bin, biliary tree malignancy, previous upper abdominal surgery, hepatic encephalopathy, ascites, and
107 aged rats, we used laparotomy to mimic human abdominal surgery in adult (3 months) and aged (24 month
108 41, on Fos expression in the brain 1 h after abdominal surgery in conscious rats using immunocytochem
110 proportion of patients reported a history of abdominal surgery, including appendectomy (23%), cholecy
112 Patients who underwent advanced laparoscopic abdominal surgery, including bariatric surgery (sleeve g
113 ntensified therapy, abdominal radiation, and abdominal surgery increased the risk of certain GI compl
114 o 14% longer risk-adjusted pLOS for visceral abdominal surgery, independent of patient complexity and
115 tressin at reversing intracisternal CRF- and abdominal surgery-induced delay of gastric emptying in c
119 In control groups (vehicle s.c. or i.c.v.), abdominal surgery (laparotomy with cecal manipulation) p
120 eus to resolve within a few days after major abdominal surgery-leads to significant medical consequen
123 urysm repair, nonresective thoracic surgery, abdominal surgery, neurosurgery, emergency surgery, gene
124 y complications in patients undergoing major abdominal surgery (odds ratio 0.53, 95% confidence inter
125 matched pairs showed that a history of intra-abdominal surgery (odds ratio [OR] = 2.865; 95% confiden
126 Of note, 53 patients had undergone previous abdominal surgery; of these, 26 patients required extens
127 examines the short- and long-term impact of abdominal surgery on the human brain immune system by po
128 score, diabetes, smoking, number of previous abdominal surgeries or hernia repairs, hernia defect siz
129 hundred thirty-four consecutive adults with abdominal surgery or acute pancreatitis and ICU stay 72
131 70 years and older who underwent nonelective abdominal surgery over a 15-month period were prospectiv
132 44) revealed male sex (P < 0.0001), previous abdominal surgery (P = 0.0200), a BMI greater than 30 (P
133 tra-abdominal hypertension (multiple trauma, abdominal surgery, pancreatitis, post-cardiopulmonary re
135 it to all elective patients undergoing major abdominal surgery, particularly those managed in an ERAS
136 ass index (BMI), gender, history of previous abdominal surgery (PAS), operative approach [laparoscopi
137 observational study, we included 5915 major abdominal surgery patients and 5063 craniotomy patients.
138 as significantly greater compared with intra-abdominal surgery patients who did not develop HAP (17.1
139 edictive of death related to candidemia were abdominal surgery performed up to 1 week before candidem
140 epair, thoracic surgery, neurosurgery, upper abdominal surgery, peripheral vascular surgery, neck sur
141 all), major fungal infection, posttransplant abdominal surgery, posttransplant intensive care unit st
144 atory bowel disease, ascites, previous upper abdominal surgery, serum creatinine, and biliary tree ma
146 ative ileus (POI) is a common consequence of abdominal surgery that increases the risk of postoperati
148 risk of pulmonary complications after major abdominal surgery to either nonprotective mechanical ven
149 e, pretransplantation waiting time, previous abdominal surgery, United Network of Organ Sharing (UNOS
150 with hypoxemic respiratory failure following abdominal surgery, use of NIV compared with standard oxy
152 risk and high-risk patients undergoing major abdominal surgery was associated with improved clinical
154 l ACS-NSQIP and administrative databases for abdominal surgeries were matched then screened for iAEs
155 nded trial patients undergoing open elective abdominal surgery were assigned to either intraoperative
158 study, 9 human patients undergoing elective abdominal surgery were treated postoperatively with a st
159 valuate adult patients undergoing major open abdominal surgery who received either 0.9% saline (30,99
161 Among patients predominantly undergoing abdominal surgery who were at increased postoperative ri
162 cutive older patients scheduled for elective abdominal surgery with expected LOS longer than 6 days w
163 e optimal analgesic technique following open abdominal surgery within an enhanced recovery protocol r
164 ternative analgesic technique following open abdominal surgery within an enhanced recovery protocol w
165 as the control (sham) group was subjected to abdominal surgery without cecal ligation and perforation
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