ライフサイエンスコーパス: postoperative complication

1 pathways of failure to rescue or death after postoperative complication.

2 gistic regression for the development of any postoperative complication.

3 Delirium is a common and serious postoperative complication.

4 Delirium is a common, morbid, and costly postoperative complication.

5 nths postoperatively; and intraoperative and postoperative complications.

6 terms of the incidence of vision-threatening postoperative complications.

7 hospital volume against the adjusted odds of postoperative complications.

8 differentially based on types and extent of postoperative complications.

9 tcomes were change in visual acuity (VA) and postoperative complications.

10 utcomes were hernia recurrence at 1 year and postoperative complications.

11 It also carries a high risk of postoperative complications.

12 number of glaucoma medications; frequency of postoperative complications.

13 rgery was not an independent risk factor for postoperative complications.

14 al acuity, need for further intervention and postoperative complications.

15 high IL-6 level on day 1 is associated with postoperative complications.

16 atified in relation to mortality after other postoperative complications.

17 tricted regimen may be associated with fewer postoperative complications.

18 inistrative claims data on the occurrence of postoperative complications.

19 tal death after the development of 1 or more postoperative complications.

20 divided by the total number of patients with postoperative complications.

21 in improving a hospital's ability to manage postoperative complications.

22 , but the resulting IR injury (IRI) augments postoperative complications.

23 e use of MBP/OABP and the reduction of other postoperative complications.

24 gs, surgical aspects, and intraoperative and postoperative complications.

25 products may contribute to a higher risk of postoperative complications.

26 significant interaction effects with age and postoperative complications.

27 al thickness (CCT), graft survival rate, and postoperative complications.

28 statistically significant, in patients with postoperative complications.

29 kinghamshire risk score also correlates with postoperative complications.

30 hey are functionally independent and without postoperative complications.

31 er pancreaticoduodenectomy (PD), in terms of postoperative complications.

32 e result without increasing the incidence of postoperative complications.

33 osite endpoint of 30-day mortality and major postoperative complications.

34 included 102 patients aged 54-88, who had no postoperative complications.

35 tes, best-corrected visual acuity (BCVA) and postoperative complications.

36 eye, surgical indication, implant size, and postoperative complications.

37 ve higher postoperative pain scores and more postoperative complications.

38 associated with marked reduction of risk of postoperative complications.

39 visual outcomes, and incidence of short-term postoperative complications.

40 ty (ECD), pachymetry, and intraoperative and postoperative complications.

41 interval scores 6 months after training, and postoperative complications.

42 2.47-6.89) were all risk factors for serious postoperative complications.

43 The LOS was significantly related to postoperative complications.

44 were 207,236 patients who developed serious postoperative complications.

45 may be increased risk for intraoperative and postoperative complications.

46 Secondary outcomes included postoperative complications.

47 with KPro was not associated with increased postoperative complications.

48 sed for the development of specific types of postoperative complications.

49 n margin status, lymph node involvement, and postoperative complications.

50 no statistically significant differences in postoperative complications.

51 preoperative clinic and can estimate risk of postoperative complications.

52 rgery was not an independent risk factor for postoperative complications.

53 regression was performed to estimate risk of postoperative complications.

54 iew of the appendix after the development of postoperative complications.

55 TA) and risk of complicated appendicitis and postoperative complications.

56 ion-matched cohort of patients without major postoperative complications.

57 can help identify patients at higher risk of postoperative complications.

58 products may contribute to a higher risk of postoperative complications.

59 calculating the severity of a combination of postoperative complications.

60 low frequencies of serious perioperative and postoperative complications.

61 The association between number of postoperative complications (0, 1, 2, or >/=3) and 30-da

62 operative GERD was associated with increased postoperative complications (15.1% vs 10.6%), gastrointe

63 reduction, but significantly lowered risk of postoperative complication (16.9% vs. 11.2%), and was la

64 The proportions of patients with postoperative complications (224 [56%] of 398 people for

65 The incidence of postoperative complications (42.7% vs 28.3%) was higher

66 The incidence of postoperative complications (42.7% vs 28.3%) was higher

67 s were higher among patients who developed a postoperative complication ($42537 [IQR, $28918-$72316]

68 [95% CI, 5.26-6.58]; P < .001) and of major postoperative complications (5.88% for hip fracture surg

69 ]; P < .001) and were more likely to develop postoperative complications (52.8% vs 40.8%; P < .001).

70 Primary outcome was the rate of postoperative complications according to Clavien-Dindo c

71 lerated with low rates of intraoperative and postoperative complications across varied surgical indic

72 uge PPV was well tolerated with low rates of postoperative complications across varied surgical indic

73 er tidal volumes and PEEP reduces compounded postoperative complications after abdominal surgery.

74 ncisional hernia is one of the most frequent postoperative complications after abdominal surgery.

75 The presence of postoperative complications after CRC resection is assoc

76 n but significantly greater numbers of major postoperative complications after EVAR (23.5% vs 3.6%; P

77 er EVAR (23.5% vs 3.6%; P = .02) and overall postoperative complications after EVAR (27.5% vs 7.1%; P

78 Postoperative complications after implant and autologous

79 raoperative transfusion, length of stay, and postoperative complications (all higher in the open surg

80 Adverse events, including intraoperative and postoperative complications, also were evaluated.

81 As far as postoperative complications, an increased risk of shallo

82 Secondary outcome measures included 30-day postoperative complications and 1-year self-reported com

83 Postoperative complications and 30-day unplanned readmis

84 Overall, 410 patients (47%) had postoperative complications and 31 (4%) died in-hospital

85 previous bile duct repair or not, including postoperative complications and anastomotic failure as o

86 known to significantly increase the risk of postoperative complications and cancer recurrence after

87 Rates of postoperative complications and death following nonemerg

88 Major postoperative complications and delirium are separately

89 Major postoperative complications and delirium contribute inde

90 aluated the relative contribution of overall postoperative complications and failure to rescue rates

91 Patients with AKI were more likely to have postoperative complications and had longer lengths of st

92 antation is associated with the same risk of postoperative complications and has similar intermediate

93 y management of cardiac surgical patients on postoperative complications and health resource utilizat

94 Postoperative AKI is one of the most common postoperative complications and is associated with an in

95 e vs primary resection did not reduce severe postoperative complications and led to worse outcomes in

96 luate whether EWS can reduce the severity of postoperative complications and mortality for surgical p

97 ration of operation, perioperative bleeding, postoperative complications and overall mortality rate w

98 Cost was strongly associated with postoperative complications and primarily driven by diff

99 postoperative glucose levels for predicting postoperative complications and readmission.

100 A logistic regression modeled postoperative complications and readmissions with the cl

101 quantifies the burden of types and grades of postoperative complications and should prove useful in i

102 the operation were analyzed against serious postoperative complications and specific complications.

103 Primary outcomes were immediate postoperative complications and subsequent (within 5 yea

104 of this score was investigated by comparing postoperative complications and the level of trainer inp

105 bilitation centers to help them recover from postoperative complications and the physical demands of

106 ain outcome measures were intraoperative and postoperative complications and visual outcome at the la

107 Risk of graft rejection, postoperative complication, and late ECD decay is reduce

108 s the risk of reoperation, perioperative and postoperative complications, and blood transfusion when

109 Reoperation, perioperative and postoperative complications, and blood transfusion withi

110 ifications exclude 82% of cases, miss 84% of postoperative complications, and correlate poorly with w

111 Visual acuity outcomes, postoperative complications, and device retention.

112 Operative mortality, postoperative complications, and FTR (case fatality afte

113 urvival (OS), local tumor progression (LTP), postoperative complications, and hospital stay and fee b

114 surgery time, intraoperative complications, postoperative complications, and incidence of unplanned

115 eased risk of delayed graft function, higher postoperative complications, and inferior graft outcomes

116 s associated with an increased risk of major postoperative complications, and is prevalent in survivo

117 at postoperative chest film, operative time, postoperative complications, and length of stay were rec

118 cs, treatment parameters, intraoperative and postoperative complications, and pre- and postoperative

119 achieving TO were a prolonged hospital stay, postoperative complications, and readmissions.

120 rious complications (primary outcome), other postoperative complications, and resident perceptions an

121 control for comorbidity, functional status, postoperative complications, and stage.

122 ying, infectious complications, the grade of postoperative complications, and the length of postopera

123 ive characteristics (laparoscopic vs. open), postoperative complications, annual weight loss, and cur

124 y and experienced no significant increase in postoperative complications, anti-TNF agent use within 9

125 Postoperative complications are associated with increase

126 Although the mortality rate is low, postoperative complications are common in complex diseas

127 The long-term consequences of postoperative complications are important but have poorl

128 he relative clinical and financial impact of postoperative complications are necessary for directing

129 nts implicitly trust their surgeons to treat postoperative complications as they arise.

130 g anesthesia, transfusions, hypothermia, and postoperative complications, as probable deleterious fac

131 In-hospital death; development of 1 or more postoperative complications before discharge; prolonged

132 Postoperative complications, BSCVA, and the percent of e

133 y decreased the odds of an intraoperative or postoperative complication by 80% (odds ratio [OR] = 0.2

134 The potential to reduce postoperative complications by such a routine is yet to

135 Critical postoperative complications can be preceded by rising EW

136 ndary end points included intraoperative and postoperative complications, circumferential resection m

137 The primary outcome was severe postoperative complications (Clavien-Dindo score >IIIa)

138 r 30-day mortality, overall morbidity, and 6 postoperative complication clusters, using 40 preoperati

139 Among patients with postoperative complications, comorbidities associated wi

140 Outcomes evaluated were intraoperative and postoperative complications, conversions, operative and

141 ions that decrease the number or severity of postoperative complications could result in substantial

142 Factor analysis of ACS NSQIP postoperative complication data provides 6 clinically me

143 tal signs, prior healthcare utilization, and postoperative complications data.

144 ry, vital sign, health care utilization, and postoperative complications data.

145 Major postoperative complications, defined as life-altering or

146 Procedural times, postoperative complications, delayed hospital discharges

147 Intraoperative and postoperative complications, device retention, and best-

148 Rates of hernia recurrence and postoperative complications did not differ significantly

149 etter or worse performance than expected for postoperative complications differed substantially betwe

150 SQIP collects and reports on eighteen 30-day postoperative complications (excluding mortality), which

151 Serious postoperative complications, excluding primary-outcome e

152 To investigate prognostic impact of postoperative complications for colorectal liver metasta

153 the most favorable data source for measuring postoperative complications for pay-for-performance and

154 ical anatomy and normal imaging findings and postoperative complications for these bariatric procedur

155 uent (within 5 years) readmissions for later postoperative complications, further incontinence surger

156 ated with an increased risk of the following postoperative complications: general morbidity, wound co

157 Postoperative complications have adverse effects on long

158 Postoperative complications have been associated with ca

159 Recipient age per year, life-threatening postoperative complications, hepatitis C, and metabolic

160 We describe the association between postoperative complications, hospital length of stay, an

161 Invasive fungal infection remains a serious postoperative complication in lung transplant recipients

162 and are much higher for patients with other postoperative complications in addition to AKI.

163 2007-2013) about possible intraoperative and postoperative complications in patients receiving antico

164 EA-GA vs GA alone and long-term survival and postoperative complications in patients undergoing elect

165 shaving of the vitreous base on the rates of postoperative complications in patients with aphakic, sn

166 Fourteen patients sustained postoperative complications in the exercise group (22.6%

167 of stay (9.9 days vs. 8.7 days; P = 0.9) or postoperative complications in the first 3 months (47.4%

168 The most common postoperative complications in the RRD and trauma groups

169 s hypothesized that certain dysfunctions and postoperative complications in transplant patients may b

170 y outcomes included length of stay (LOS) and postoperative complications (incisional and organ space

171 Late postoperative complications included hypersensitivity to

172 Postoperative complications included prolonged urine lea

173 Postoperative complications included retinal detachment

174 Postoperative complications included retroprosthetic mem

175 Postoperative complications included silicone oil in a d

176 Postoperative complications included transient ocular hy

177 Postoperative complications included transient ocular hy

178 Postoperative complications included: 6 (13%) peripancre

179 ng socially vulnerable patients and reducing postoperative complications, including infections, are t

180 elective surgery, one approach to preventing postoperative complications is enhanced assessment of ri

181 Failure to rescue (death after postoperative complication) is a challenging target for

182 Reductions in postoperative complications lead to shorter convalescenc

183 Postoperative complications, length of stay, and total h

184 y (LOS) mode were evaluated among a risk and postoperative complication-matched cohort of patients wi

185 Total surgical episode payments for risk and postoperative complication-matched patients were signifi

186 of stay, all-cause 30-day readmission rate, postoperative complications, mortality rate, subjective

187 Postoperative complications occurred in 11 patients (20%

188 Postoperative complications occurred in 3 patients in la

189 Postoperative complications occurred in 44 patients (30.

190 Postoperative complications occurred in 7.3% of donors,

191 Postoperative complications occurred in 77.5% [95% confi

192 Serious postoperative complications occurred in nearly 1 in 4 pa

193 No serious postoperative complications occurred, including bacteria

194 f the association between smoking status and postoperative complications occurring within 30 days of

195 repair was associated with a higher risk of postoperative complications [odd ratio = 3.7, 95% confid

196 s ratio, 1.38; 95% CI, 1.24-1.53; P < .001), postoperative complication (odds ratio, 1.19; 95% CI, 1.

197 ssion (odds ratio, 1.7; 95% CI, 1.4-2.2) and postoperative complication (odds ratio, 6.7; 95% CI, 4.9

198 e likely than non-PHS patients to experience postoperative complications (odds ratio 2.2, 95% confide

199 C than the youngest group when there were no postoperative complications (odds ratio = 26.6; 95% CI,

200 ificantly associated with increased odds for postoperative complications (odds ratio, 1.74; 95% CI, 1

201 No significant difference in postoperative complications [odds ratio (OR) 0.91; 95% c

202 zure outcome, neuropsychological outcome and postoperative complications of patients, who had undergo

203 Best-corrected postoperative visual acuity, postoperative complications of the reported technique, i

204 emented in an effort to minimize the onus of postoperative complications on clinical and economic out

205 We sought to characterize the effect of postoperative complications on long-term survival after

206 As regard major postoperative complications, one case of postoperative a

207 EK grafts, without adversely affecting early postoperative complications or 6-month endothelial cell

208 um-endorsed risk-adjusted measures of 30-day postoperative complications or death assessed hospital q

209 re weak predictors of readmission, while any postoperative complications (OR 2.22, 95% CI 1.55-3.18)

210 han 7 g/dL were at a high risk of developing postoperative complications (OR, 6.60; 95% CI, 4.34-10.0

211 TSS, P=0.0004] and a small increased risk of postoperative complications (OR=1.20, P<0.001).

212 Postoperative complications other than cataract included

213 5.3-14.5) were independently associated with postoperative complications (overall model area under th

214 VA (P = .033) and were less likely to have a postoperative complication (P = .018) when compared to G

215 rage patient age was higher in patients with postoperative complications (P = NS).

216 nts, including intraoperative complications, postoperative complications, plane of surgery, 30-day mo

217 tics, prebiotics, and synbiotics in reducing postoperative complications (POCs) has been questioned.

218 ondary outcomes were among others intra- and postoperative complications, procedural time, amount of

219 here was no significant difference in 30-day postoperative complication rate (laparoscopy, 51% vs tra

220 With technique standardization, the postoperative complication rate decreased from 23.2% to

221 EEN was associated with an increased overall postoperative complications rate.

222 eatitis rates were 3.4, 7.0 and 6.8% and the postoperative complication rates 11.1, 15.7 and 12.8%, r

223 etermine the reliability of surgeon-specific postoperative complication rates after colectomy.

224 To compare acute adverse events (AE) and postoperative complication rates in a randomized trial o

225 Postoperative complication rates increased with higher B

226 Severe postoperative complication rates were 50% and 25% in the

227 Hospital length of stay and postoperative complication rates were also significantly

228 nastomosis was associated with higher 90-day postoperative complication rates.

229 ive decreases in hospital length of stay and postoperative complication rates.

230 unctionally independent patients who avoided postoperative complications, rates of discharge to PAC i

231 her 23 patients were excluded due to lack of postoperative complication registrations, leaving 1931 E

232 Secondary outcomes included other postoperative complications, reoperations, length of ope

233 Serious postoperative complications resulted in increased cost o

234 There was no change in postoperative complication risks (OR 0.812, P = .434) or

235 Elderly patients with increased risk for postoperative complications should be excluded from LDLT

236 Minor early postoperative complications, such as graft infection and

237 The development of postoperative complications, such as sepsis (coefficient

238 hakic, snap-on, type I Boston KPros had less postoperative complications than eyes with partial PPVs

239 patient observations are at greater risk for postoperative complications than patients whose surgeons

240 ertrophic scar (HTS) formation is a frequent postoperative complication that impairs soft tissue form

241 Delirium is a postoperative complication that occurs frequently in pat

242 erence between groups with respect to common postoperative complications, there was a higher rate of

243 For quality measures focused on postoperative complications to be meaningful, such polic

244 ic inflammatory disease are at high risk for postoperative complications, type II endoleak, sac expan

245 Prior to 2014, the only postoperative complication was a chronic radiation bed s

246 A postoperative complication was a risk factor for chronic

247 The most pressing postoperative complication was glaucoma onset or progres

248 Postoperative complication was not significantly associa

249 The most common postoperative complication was retroprosthetic membrane

250 The overall risk of serious postoperative complications was 3.4%.

251 The frequency of postoperative complications was assessed.

252 The influence of LR on postoperative complications was evaluated using both uni

253 The rate of total postoperative complications was lower in the total PPV g

254 The rate ratios for postoperative complications were 0.68 (95% CI, 0.46-0.99

255 Postoperative complications were also noted.

256 Postoperative complications were also recorded.

257 Group differences in intraoperative and postoperative complications were analyzed and risk facto

258 score, frailty, surgery for malignancy, and postoperative complications were associated with dischar

259 Reduced postoperative complications were associated with restric

260 Overall postoperative complications were comparable (RR 0.95; 95

261 The cumulative incidences of postoperative complications were compared between patien

262 tality, overall morbidity, and 21 individual postoperative complications were compared.

263 y, surgical outcomes, and intraoperative and postoperative complications were documented.

264 ty (ECD), pachymetry, and intraoperative and postoperative complications were evaluated before and 1,

265 tors, and weight-related quality of life and postoperative complications were evaluated through 3 yea

266 Relationships among postoperative complications were explored by learning a

267 No related postoperative complications were identified.

268 Postoperative complications were intraocular pressure (I

269 r during the early postoperative period, and postoperative complications were less common after EX-PR

270 ate of resections with negative margins, and postoperative complications were not influenced by BMI o

271 Postoperative complications were noted in 21.6% of patie

272 Although higher postoperative complications were observed after CPM and

273 Postoperative complications were observed among 27.5% of

274 In univariate analyses, increased postoperative complications were observed among patients

275 Similar rates of surgical success and postoperative complications were observed in patients un

276 No postoperative complications were observed.

277 escemet membrane; no other intraoperative or postoperative complications were observed.

278 Patients with noninfectious postoperative complications were older, had lower preope

279 with a temporary ileostomy without signs of postoperative complications were randomized to closure a

280 AL and all postoperative complications were recorded.

281 croscopy, refraction, and intraoperative and postoperative complications were recorded.

282 visual outcomes, and both intraoperative and postoperative complications were recorded.

283 Perioperative and postoperative complications were reported in 934 women (

284 ed the surgery well and no intraoperative or postoperative complications were reported, except for 1

285 erapy-related hematologic toxicity and early postoperative complications were reported.

286 Postoperative complications were scored with the compreh

287 The most common postoperative complications were secondary membrane form

288 ult, unadjusted analysis found that 22 of 23 postoperative complications were significantly more like

289 Operative time and postoperative complications were similar (91 vs 88 min;

290 ve hospital stay, and the rate of intra- and postoperative complications were similar in the 2 groups

291 Other postoperative complications were tarsorrhaphy revision i

292 ble, that is, any serious vision-threatening postoperative complication, which included sterile vitre

293 mely recognition and effective management of postoperative complications will be essential in reducin

294 ty (VA) and occurrence of intraoperative and postoperative complications with a minimum follow-up of

295 dult patients (n = 298) at increased risk of postoperative complications with a preoperative acute ki

296 ection, thromboembolic events, bleeding, and postoperative complications with bevacizumab.

297 To describe the association of postoperative complications with hospital costs followin

298 To quantify the associations of specific postoperative complications with outcomes after elective

299 ted with a slightly increased probability of postoperative complications, without affecting disease-f

300 ance: Older patients are at greater risk for postoperative complications, yet they are less likely th