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1 kocytes and a suppression in motility (i.e., postoperative ileus).
2 N), as a bridge to a normal diet, can reduce postoperative ileus.
3 on, urinary retention, anastomotic leak, and postoperative ileus.
4 significant correlation with development of postoperative ileus.
5 ical dysmotility and reduces the severity of postoperative ileus.
6 ll intestinal muscularis that contributes to postoperative ileus.
7 g smooth muscle dysfunction and subsequently postoperative ileus.
8 d intestinal manipulation was used to induce postoperative ileus.
9 CO was protective against the development of postoperative ileus.
10 spital length of stay (LOS), total costs, or postoperative ileus.
11 he CRF receptor subtypes involved in gastric postoperative ileus.
12 oth muscle dysfunction, which contributes to postoperative ileus.
13 ability of LPS to induce cross-tolerance to postoperative ileus.
14 ion has been hypothesized as a mechanism for postoperative ileus.
15 al muscularis, leading to an exacerbation of postoperative ileus.
16 duction as mechanisms for surgically induced postoperative ileus.
22 ectroacupuncture in reducing the duration of postoperative ileus and hospital stay after laparoscopic
23 e were associated with a shorter duration of postoperative ileus and hospital stay after the surgery.
24 ons not only for digestive diseases, such as postoperative ileus and inflammatory bowel diseases, but
26 ay, perioperative complications, duration of postoperative ileus, and survival were assessed by retro
27 gue, radiation-induced xerostomia, prolonged postoperative ileus, anxiety/mood disorders, and sleep d
30 e disturbances of gastrointestinal function (postoperative ileus) are among the most significant side
31 These findings suggest that CO attenuates postoperative ileus by inhibiting selective elements wit
32 when used systemically for neuroprotection, postoperative ileus, decompression sickness, and glaucom
33 ficant differences were observed in rates of postoperative ileus, deep vein thrombosis, small bowel o
34 on was associated with increased presence of postoperative ileus for both rectal and colon surgery pa
36 imopan has been shown to reduce incidence of postoperative ileus in enhanced recovery colorectal surg
37 s have the potential to significantly reduce postoperative ileus in patients with cancer who have had
38 oncentration of CO before surgery attenuates postoperative ileus in rodents and, more importantly, in
39 n of COX-2, are major participants in rodent postoperative ileus induced by intestinal manipulation.
42 ontractions and therefore suggests that late postoperative ileus is mediated through a leukocytic inf
44 ia (n = 8), unplanned reexploration (n = 6), postoperative ileus (n = 3), gastrointestinal hemorrhage
45 outcome measure in future clinical trials on postoperative ileus.(Netherlands National Trial Register
54 Inflammation contributes to development of postoperative ileus (POI), which is caused by physical d
56 organ space SSI, any SSI, anastomotic leak, postoperative ileus, sepsis, readmission, and reoperatio
57 return of bowel function, lower incidence of postoperative ileus, shorter hospitalization, and a sign
58 ound necrosis, wound infection, or prolonged postoperative ileus) that did not affect the long-term o
59 , electroacupuncture reduced the duration of postoperative ileus, time to ambulation, and postoperati
62 = 1.56; 95% CI 1.32-1.85, P < 0.005) whereas postoperative ileus was less likely to occur at TH than
63 , duration of hospital stay, and duration of postoperative ileus were not adversely affected by the a
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