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

1 Delirium is a common and serious postoperative complication.

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

3 lculated by modeling the predicted risk of a postoperative complication.

4 Of these, 37 (40%) had at least 1 predefined postoperative complication.

5 ine pain) and the frequency of operative and postoperative complications.

6 eraction (SOUA), correction of head tilt and postoperative complications.

7 perative acute kidney injury (AKI) and other postoperative complications.

8 Liver transplant recipients suffer many postoperative complications.

9 investigated factors influencing failure and postoperative complications.

10 onship between postoperative pain and 30-day postoperative complications.

11 low, vasopressor and fluid requirements, and postoperative complications.

12 res, days to open bowels, length of HDU, and postoperative complications.

13 g and diabetes are generally associated with postoperative complications.

14 unscrolling efficiency, and (3) frequency of postoperative complications.

15 postoperative day, are associated with more postoperative complications.

16 en-Dindo classification was used to classify postoperative complications.

17 sses and subsequently reduction of peri- and postoperative complications.

18 rrent disease and a relatively high risk for postoperative complications.

19 sualization, and reducing intraoperative and postoperative complications.

20 L item and scale in patients with or without postoperative complications.

21 ssion was conducted for infectious and other postoperative complications.

22 f Anesthesiologists (ASA) classification and postoperative complications.

23 operative depression, and the development of postoperative complications.

24 perative acute kidney injury (AKI) and other postoperative complications.

25 e cholangiopancreatography (ERCP) rates, and postoperative complications.

26 , higher ASA classification, higher BMI, and postoperative complications.

27 nths postoperatively; and intraoperative and postoperative complications.

28 ifying patients with high risk of developing postoperative complications.

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

30 may be increased risk for intraoperative and postoperative complications.

31 Secondary outcomes included postoperative complications.

32 with KPro was not associated with increased postoperative complications.

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

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

35 no statistically significant differences in postoperative complications.

36 preoperative clinic and can estimate risk of postoperative complications.

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

38 regression was performed to estimate risk of postoperative complications.

39 opose an analysis of the financial impact of postoperative complications.

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

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

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

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

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

45 calculating the severity of a combination of postoperative complications.

46 low frequencies of serious perioperative and postoperative complications.

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

48 tions described in the literature, are early postoperative complications.

49 effect of DOF was potentially influenced by postoperative complications.

50 rates of secondary graft failure (SGF), and postoperative complications.

51 nd did not increase incidence or severity of postoperative complications.

52 undergoing esophagectomy have a high risk of postoperative complications.

53 r pressure (IOP), endothelial cell count and postoperative complications.

54 (35%) had medical and 163 (26%) had surgical postoperative complications.

55 ique has its own profile of inherent risk of postoperative complications.

56 into quintiles of quality based on rates of postoperative complications.

57 years, and maybe mediated by a reduction in postoperative complications.

58 overwhelming inflammation is associated with postoperative complications.

59 sing their adhesion and metastasis following postoperative complications.

60 atory reporting of intraoperative and 30 day-postoperative complications.

61 nts of the present analyses were the rate of postoperative complications.

62 Patients were stratified based on number of postoperative complications (0, 1, 2, or >=3) and furthe

63 However, patients encountered various postoperative complications, 1 of which was attributable

64 ms were significantly worse in patients with postoperative complications 10 years after surgery, for

65 vs. 10.93%), cholangitis (6.54% vs. 14.06%), postoperative complications (10.45% vs. 21.87%), T-tube

66 on OS and DFS for: 1) Method used to define postoperative complications, 2) Exclusion of early posto

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

68 he Lichtenstein operation with regard to the postoperative complications (3.4% vs 1.7%; P < 0.001), c

69 he Lichtenstein operation with regard to the postoperative complications (3.8% vs 3.3%; P = 0.029), c

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

71 After transhiatal MIE, more postoperative complications (64.9% vs. 56.4%, p 0.034) w

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

73 -level probabilistic risk scores for 8 major postoperative complications (acute kidney injury, sepsis

74 Abdominal pain is a frequent postoperative complication after RYGB surgery.

75 Postoperative complications after implant and autologous

76 -response relationship between the number of postoperative complications after inpatient surgery and

77 The main outcome measure was postoperative complications after liver resection, withi

78 raphy is an independent predictor of LOS and postoperative complications after lobectomy for lung can

79 ve dose of methylprednisolone for preventing postoperative complications after major liver resections

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

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

82 3685 were included in the postoperative complications analysis (107 missing data)

83 ied, 36,105 (8.35%) operations resulted in 1 postoperative complication and 7247 (1.68%) operations r

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

85 Postoperative complications and 30-day unplanned readmis

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

87 larger defects have an unfavorable impact on postoperative complications and a more favorable impact

88 esection, including decreased blood loss and postoperative complications and a shorter hospital stay.

89 alization was associated with lower rates of postoperative complications and death for lung resection

90 The association between the number of postoperative complications and FTR was evaluated with m

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

92 Ineffective pain control results in many postoperative complications and hinders successful recov

93 calculated 30- and 90-day incidence rates of postoperative complications and mortality.

94 tion margins (R0); secondary end-points were postoperative complications and mortality.

95 Patients who experienced postoperative complications and pain were less likely to

96 Higher age had a negative association with postoperative complications and positive association wit

97 postoperative glucose levels for predicting postoperative complications and readmission.

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

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

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

101 Postoperative complications and time to adjuvant chemoth

102 n, having more comorbidities, having a major postoperative complication, and certain mental health di

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

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

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

106 uity (BCVA), endothelial cell density (ECD), postoperative complications, and graft survival.

107 had greater resource utilization, increased postoperative complications, and higher short- and long-

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

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

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

111 nces in terms of blood loss, surgical times, postoperative complications, and initial oncological out

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

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

114 hospital length of stay (LOS), number of any postoperative complications, and number of respiratory p

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

116 ual acuity (BCVA), endothelial cell density, postoperative complications, and retransplantations.

117 tive use of strong analgesics, unemployment, postoperative complications, and smoking.

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

119 Exposure was the occurrence of predefined postoperative complications, and the outcome was HRQOL e

120 endothelial cell counts; intraoperative and postoperative complications; and change in pachymetry.

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

122 [adjusted OR (AOR) 2.77; 95% CI 2.01-3.81), postoperative complications (AOR 2.16; 95% CI 1.55, 3.02

123 Postoperative complications are associated with consider

124 Postoperative complications are associated with increase

125 Children with multiple postoperative complications are at higher risk of death,

126 Incidence and severity of postoperative complications are key elements in determin

127 racteristics, intraoperative parameters, and postoperative complications are reported.

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

129 Postoperative complications as well as prognostic factor

130 rocedure group had a major intraoperative or postoperative complication, as compared with 67 (64%) in

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

132 sed intraocular pressure was the most common postoperative complication at 30%, with a rate of de nov

133 ry outcome was a composite of death or major postoperative complications at 14 days after surgery.

134 -centered outcomes, early wound healing, and postoperative complications at palatal donor area of sub

135 sus LS suggests equivalence in mortality and postoperative complications, but a decrease in pain and

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

137 Postoperative complications cause a 2-fold increase in t

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

139 (31%) patients in the laparoscopy group had postoperative complications (Clavien-Dindo any grade) wi

140 ion rate (both groups 100%), and severity of postoperative complications (Clavien-Dindo grade>=3: 43%

141 ectomy (HMIE) has been shown to reduce major postoperative complications compared with open esophagec

142 ble analysis, a significantly higher risk of postoperative complications, complication-related reoper

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

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

145 effect of centralization on the incidence of postoperative complications, death, and readmissions aft

146 imary endpoint of this sub-study was overall postoperative complications defined as Clavien-Dindo gra

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

148 Anastomotic leakage, pneumonia, and other postoperative complications did not differ between group

149 ER's performance for 30-day mortality and 18 postoperative complications (eg, respiratory or renal fa

150 Postoperative complications, especially pulmonary compli

151 aims to investigate the association between postoperative complications following MIE and long-term

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

153 Perioperative and postoperative complications from all initial procedures,

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

155 The CCI summarizes all the postoperative complications graded by the Clavien-Dindo

156 vance since it correlates significantly with postoperative complications (>=Grade III, Clavien-Dindo

157 In the final model, postoperative complications had the greatest effect on r

158 Postoperative complications have been associated with ca

159 Children with multiple postoperative complications have increased suffering and

160 ls are required to assess the true impact on postoperative complications, health care associated cost

161 outcome measurements: 1) occurrence of major postoperative complications (i.e., endophthalmitis, chor

162 432,090 operations; 388,738 (89.97%) had no postoperative complications identified, 36,105 (8.35%) o

163 ween postoperative pain and a broad range of postoperative complications in a large heterogeneous sur

164 Herein, we analyze the relationships between postoperative complications in children.

165 tion with MBP or alone, in the prevention of postoperative complications in elective colorectal surge

166 Postoperative complications in multivariate analysis wer

167 lampsia, eclampsia, and HELLP syndrome), and postoperative complications in patients undergoing cesar

168 ference neither in R0 resection rates nor in postoperative complications in patients undergoing ST-PD

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

170 atabase demonstrates significantly increased postoperative complications in PME patients with clean-c

171 ficant reduction in the overall incidence of postoperative complications in the methylprednisolone gr

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

173 Postoperative complications included cystoid macular ede

174 Late postoperative complications included hypersensitivity to

175 Postoperative complications included posterior capsule o

176 Major postoperative complications included prolonged mechanica

177 Postoperative complications included retroprosthetic mem

178 Postoperative complications included transient ocular hy

179 gastrectomy, 397 of 928 patients (42%) had a postoperative complication including 180 patients (19%)

180 hagectomy, 1046 of 1617 patients (65%) had a postoperative complication including 468 patients (29%)

181 immune responses that can influence risk for postoperative complications including cognitive dysfunct

182 The incidence of major postoperative complications including endophthalmitis, r

183 Postoperative complications including liver dysfunction

184 Additionally, intraoperative and postoperative complications including retreatments were

185 The proportion of patients experiencing postoperative complications increased from 0.25 [95% con

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

187 his area presents minimal risk for intra- or postoperative complications, leading to reduced patient

188 estigated outcomes in the present study were postoperative complications, major complications (Clavie

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

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

191 as the occurrence of overall surgery-related postoperative complications (modified Clavien-Dindo clas

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

193 were utilized to estimate the probability of postoperative complications, mortality, readmission, and

194 Early postoperative complications occurred in 10 patients incl

195 Postoperative complications occurred in 5.2%, primarily

196 Major postoperative complications occurred in 70 patients (25%

197 Overall surgery-related postoperative complications occurred less frequently aft

198 No intraoperative and postoperative complications occurred.

199 (adjusted coefficient 0.972; P = 0.002), any postoperative complications (odds ratio 0.897; P = 0.007

200 demonstrated that DCI independently predicts postoperative complications (odds ratio 1.1, P = 0.01) e

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

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

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

204 The primary end point was intraoperative or postoperative complication of grade II or higher accordi

205 rare, but increasingly recognized long-term postoperative complication of lung transplantation.

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

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

208 The impact of postoperative complications on HRQOL past 5 years is unk

209 To correct for short-term effects of postoperative complications on mortality, patients who d

210 There were no postoperative complications or failure to observe the st

211 at centralization will not decrease rates of postoperative complications or recurrence of gastro-esop

212 re not at a higher risk of intraoperative or postoperative complications or worse visual outcomes aft

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

214 t or retirement (OR 1.80, 95% CI 1.09-2.93), postoperative complications (OR 2.75, 95% CI 1.44-5.22),

215 ath cause cardiovascular/stroke (vs cancer), postoperative complications other than graft detachment,

216 No significant operative or postoperative complications (other than failure) were en

217 5.3-14.5) were independently associated with postoperative complications (overall model area under th

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

219 sublay repair revealed significantly a fewer postoperative complications (P < 0.001), reoperations (P

220 The number of postoperative complications (P = .17) and interventions

221 terior capsular rupture (P = 0.918), overall postoperative complications (P = 0.088) or final BCVA (P

222 Unlike other postoperative complications, persistent opioid use is as

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

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

225 It is unclear whether early postoperative complications predict a poor outcome.

226 time to functional recovery and lower 30-day postoperative complication rate compared to patients tha

227 The grade 3-5 postoperative complication rate was 16%.

228 Thirty-day postoperative complication rate was significantly reduce

229 med in a center with a stable and acceptable postoperative complication rate.

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

231 ellent and stable clinical outcomes with low postoperative complication rates and promising graft lon

232 with differences in in-hospital mortality or postoperative complication rates but was significantly a

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

234 Overall and major postoperative complication rates were 63% and 40%, respe

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

236 Intraoperative and postoperative complication rates were similar between gr

237 There were no significant differences in postoperative complication rates, overall 73.3% versus 6

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

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

240 luation, receipt of curative-intent surgery, postoperative complications, receipt of adjuvant therapy

241 tein technique has disadvantages in terms of postoperative complications, recurrences, and pain on ex

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

243 I3L1 and IL-6 were associated with increased postoperative complications [relative risk (RR) 1.50, 95

244 procedures, 14.0% and 12.5% had at least one postoperative complication, respectively.

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

246 tatus, operative details, intraoperative and postoperative complications, secondary interventions, an

247 tatus, operative details, intraoperative and postoperative complications, secondary interventions, an

248 Postoperative complications, severity of complication, l

249 Minor early postoperative complications, such as graft infection and

250 ate predisposes patients to a higher risk of postoperative complications, such as persistent bacteria

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

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

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

254 ctive study was to assess and categorize the postoperative complications that occur following, and ar

255 opriate utilization of skills, management of postoperative complications, the practice of perioperati

256 SSIs are a common postoperative complication; the long-term impact of SSI

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

258 ternatively, centralization of patients with postoperative complications to high volume centers could

259 Postoperative complications up to 2 years postoperativel

260 ive complications, and number of respiratory postoperative complications using multivariate regressio

261 Two-year postoperative complications varied widely between hospit

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

263 The most pressing postoperative complication was glaucoma onset or progres

264 The most common postoperative complication was retroprosthetic membrane

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

266 Although the rate of noninfectious postoperative complications was not significantly differ

267 s (age, type of surgery, support status, and postoperative complications) was used to determine trend

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

269 Postoperative complications were also noted.

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

271 Overall postoperative complications were comparable (RR 0.95; 95

272 The cumulative incidences of postoperative complications were compared between patien

273 valuated up to 10 years postoperatively, and postoperative complications were documented.

274 traoperative posterior capsular rupture, and postoperative complications were evaluated.

275 No related postoperative complications were identified.

276 Postoperative complications were intraocular pressure (I

277 Although higher postoperative complications were observed after CPM and

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

279 tal variations in the rates of any and major postoperative complications were observed.

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

281 Postoperative complications were recorded and graded bas

282 stoperative outcomes, and 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 nt CT examination for the detection of early postoperative complications were retrospectively evaluat

286 Postoperative complications were scored with the compreh

287 The rates of postoperative complications were similar among all group

288 Other postoperative complications were tarsorrhaphy revision i

289 Postoperative complications were uncommon.

290 ant differences regarding intraoperative and postoperative complications when compared to unilateral

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

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

293 k calculates probabilistic risk scores for 8 postoperative complications with AUC values ranging betw

294 essed the impact of an optimization visit on postoperative complications with use of propensity score

295 Eleven experienced >=1 postoperative complication, with only 1 Clavien-Dindo II

296 Secondary outcomes included predefined postoperative complications within 14 days after surgery

297 nce in a composite outcome of death or major postoperative complications within 14 days after surgery

298 to represent an independent risk factor for postoperative complications within 30 days (HR = 2.41, 9

299 ndependently associated with higher risk for postoperative complications within 30 days (HR = 2.93, 9

300 n outcomes measure was presence of 1 or more postoperative complications within 30 days of surgery.