ライフサイエンスコーパス: surgical complication

1 ath of a patient following reoperation for a surgical complication.

2 e completing prodrug because of an unrelated surgical complication.

3 and gender, blacks had 65% higher odds for a surgical complication.

4 plenectomy developed chimerism but died of a surgical complication.

5 740 patients (25.3%) had either geriatric or surgical complications.

6 ey represented 47% of mortalities and 28% of surgical complications.

7 eating obesity as well as managing bariatric surgical complications.

8 and Medicare claims data sets for measuring surgical complications.

9 makes claims data suboptimal for evaluating surgical complications.

10 ypertension) but with a similar incidence of surgical complications.

11 to a significant increase in smoking-related surgical complications.

12 the tumor response, CRT-related toxicity and surgical complications.

13 incontinence remains paramount in preventing surgical complications.

14 7, SG2) were assessed for tumor response and surgical complications.

15 ren listed for transplant are posttransplant surgical complications.

16 ity grading system is essential to reporting surgical complications.

17 o clinically important adverse events and no surgical complications.

18 oser to a common severity grading method for surgical complications.

19 associated with a two-fold increased risk of surgical complications.

20 have CRC liver metastases does not increase surgical complications.

21 membrane use, sinus-elevation technique, and surgical complications.

22 nal transplantation in the majority with few surgical complications.

23 ems and the pathophysiology of their cardiac surgical complications.

24 dered to be at increased risk of cardiac and surgical complications.

25 king hours did not increase the incidence of surgical complications.

26 l allografts was observed, and there were no surgical complications.

27 n cold ischemic time (CIT) and likelihood of surgical complications.

28 ade of the surgeon affected the incidence of surgical complications.

29 l therapy, visual acuity, visual fields, and surgical complications.

30 pretest probability who are at high risk for surgical complications.

31 implantation in infants found a high rate of surgical complications.

32 ues to improve patient outcomes and minimize surgical complications.

33 a focus on those that predispose patients to surgical complications.

34 ve historically had the highest incidence of surgical complications.

35 d a significant decrease in the incidence of surgical complications.

36 icult to obtain in vivo confocal data due to surgical complications.

37 utcomes obtained before or in the absence of surgical complications.

38 d in 63 (61%) of patients; 14 (22%) reported surgical complications.

39 tolaryngologists and help reduce the risk of surgical complications.

40 d were not considered to be at high risk for surgical complications.

41 rs, and the influence on membrane damage and surgical complications.

42 the procedure is not without risk of serious surgical complications.

43 tomy in patients at average or high risk for surgical complications.

44 -term recurrence rate of persisting pHPT and surgical complications.

45 ear, thereby reducing postoperative glaucoma surgical complications.

46 n terms of postoperative visual outcomes and surgical complications.

47 nd costs and remain one of the most frequent surgical complications.

48 cal tumor control and DFS without increasing surgical complications.

49 ation cataract surgery can lead to potential surgical complications.

50 eration time, mean volume of fluid used, and surgical complications.

51 but they are associated with a lower risk of surgical complications.

52 There were no major late surgical complications.

53 We noted no long-term postoperative surgical complications.

54 aluminum-garnet (YAG) laser capsulotomy, and surgical complications.

55 the entire ocular surface and prevention of surgical complications.

56 Fewer surgical complications (16.4% [169 of 1029] vs 23.7% [27

57 c complications, and 114 of 740 patients had surgical complications; 187 of 740 patients (25.3%) had

58 -index hospital if the readmission was for a surgical complication (189,384 [23%] of 834,070 patients

59 ions (4.3% vs 6.6%; P = .004), miscellaneous surgical complications (4.3% vs 5.6%; P = .03), and anas

60 Grade 3 or higher surgical complications (6.6% vs 9.4%), median length of

61 Surgical complications (7%) included a delayed extractio

62 ermanent neurological deficits (9%), overall surgical complications (9%) and visual field deficits (6

63 were compared for patients with and without surgical complications according to payer type.

64 Surgical complications; adverse events; pre- and postope

65 The most common surgical complication after a kidney transplant is likel

66 Incisional hernia is the most frequent surgical complication after laparotomy.

67 Surgical complications after chemotherapy and radiation

68 Surgical complications after combined kidney and pancrea

69 e the severity and frequency of certain post-surgical complications after gingival augmentation proce

70 in process measures and reductions in 30-day surgical complications almost 2 years after a structured

71 Higher rates of surgical complications among blacks than whites in NYS a

72 the surgery group, one (4%) patient died of surgical complications and 12 (44%) patients had grade 3

73 econdary outcome measures were assessment of surgical complications and association of various factor

74 Most of these arise out of surgical complications and contribute significantly to t

75 Most of these arise out of surgical complications and contribute significantly to t

76 urvival, whereas secondary outcomes included surgical complications and costs.

77 s identify patients who are at high risk for surgical complications and develop strategies to limit s

78 The risks of surgical complications and drug-induced nephrotoxicity h

79 patient lost the pancreatic function due to surgical complications and one has had partial preservat

80 The incidence of surgical complications and post-operative interventions

81 ded visual acuity, Humphrey visual field MD, surgical complications and post-operative interventions.

82 Post-partum surgical complications and prolonged hospital stay were

83 Harms were evaluated as surgical complications and residual astigmatism.

84 of stay, fewer respiratory and miscellaneous surgical complications and strictures, and similar posto

85 Surgeons should be familiar with the surgical complications and the functional and oncologic

86 curate identification and monitoring of such surgical complications and their costs, measured in term

87 Pain experienced by patients may reflect surgical complications and/or inadequate or difficult sy

88 acement in posterior mandible is a potential surgical complication, and presence of a lingual concavi

89 The largest outcome domain was surgical complications, and 432 outcomes (42%) correspon

90 drugs, postoperative pulmonary hypertension, surgical complications, and additional cardiac procedure

91 or preoperative visual acuity was related to surgical complications, and cataract surgery on eyes wit

92 rding to the Clavien-Dindo Classification of Surgical Complications, and Comprehensive Complication I

93 ation, donor length of stay in the hospital, surgical complications, and cost of hospitalization for

94 use of glaucoma medications, visual acuity, surgical complications, and failure (IOP >21 mm Hg or no

95 me measures included number of reoperations, surgical complications, and follow-up visits; preoperati

96 mprovement Project measures, higher rates of surgical complications, and inferior markers of emergenc

97 y dosing), affects chemotherapy toxicity and surgical complications, and might be a treatment effect

98 d at patient and graft survival, the risk of surgical complications, and native kidney function durin

99 Palatal tissue thickness, post-surgical complications, and pain level were evaluated.

100 sk factors, intraoperative factors including surgical complications, and postoperative cataract surge

101 Proctectomy, surgical complications, and symptoms from the retained r

102 Toxicities, surgical complications, and tumor responses were monitor

103 to evaluate the postoperative morbidity and surgical complications; and 3) to preliminarily test the

104 ined by the Clavien- Dindo classification of surgical complications (Ann Surg 240(2):205-13, 2004) as

105 Surgical complications are a major disincentive to pancr

106 Programs that analyze and report rates of surgical complications are an increasing focus of qualit

107 Surgical complications are common and often preventable.

108 utcomes obtained before or in the absence of surgical complications are presented.

109 For patients with colorectal cancer, surgical complications arise from an interaction between

110 rformance measure that can be used to reduce surgical complications associated with avoidable hypothe

111 This article addresses some surgical complications associated with dental implant pl

112 The primary objective was to assess the surgical complications associated with preoperative radi

113 sed on the documented costs and incidence of surgical complications at our center, we estimate that a

114 gallstones, portal hypertension and possible surgical complications because of anatomical disturbance

115 in terms of anatomic and visual outcomes and surgical complication between highly myopic and non-high

116 The incidence of surgical complications (bleeding, leaks, thrombosis, inf

117 stablished in 2006 with the goal of reducing surgical complications by 25% in 2010.

118 One major surgical complication (C-D IIIb) occurred.

119 However, despite careful planning, surgical complications can arise: infection, intraoral h

120 od trabeculectomy outcomes with low rates of surgical complications can be achieved, but intensive pr

121 Mortality or any surgical complication captured by the National Surgical

122 We assessed for surgical complications (cerebrospinal fluid leakage and

123 ean difference of 0.5 or more): skin cancer, surgical complications, cognition, blood pressure, depre

124 Information was recorded on surgical complications, dates of radiologic and surgical

125 ate of technical failures (i.e., the risk of surgical complications) decreased from 30% in the pre-Cs

126 Accurate surgical complication documentation by the primary clini

127 idence of early (<3 months after transplant) surgical complications (e.g., relaparotomy, thrombosis,

128 e not associated with a higher proportion of surgical complications, except in some studies showing t

129 Importantly, the impact of surgical complications extends well after the initial pe

130 e sought to determine the survival impact of surgical complications for elderly patients undergoing r

131 nt health-related quality of life (HRQL) and surgical complications for patients with colorectal canc

132 ed no treatment after nephrectomy because of surgical complications (four patients), operative mortal

133 The effect of the black race on risk of any surgical complication (from the Agency for Healthcare Re

134 rding to the Dindo-Clavien classification of surgical complications: grade I (12 events), grade II (1

135 t 3 months (D.90) based on the Clavien-Dindo surgical complications grading.

136 In contrast, smoking and surgical complications had a statistically significant e

137 Patients experiencing surgical complications had significantly lower HRQL scor

138 Increased costs of surgical complications have been borne mostly by third-p

139 c variants that predispose patients to major surgical complications; however, these critical variants

140 ical and family histories of and medical and surgical complications in 220 index patients with bioche

141 dicting occurrence or nonoccurrence of major surgical complications in 80% of all analyzed patients w

142 culture is associated with rates of serious surgical complications in bariatric surgery.

143 of posterior capsular rupture or significant surgical complications in either the case or control gro

144 n-related revisits follow a similar trend as surgical complications in large-scale population data, a

145 erative computed tomography (CT) imaging and surgical complications in patients undergoing general el

146 statistically significant increased odds of surgical complications in patients with IFIS vs those wi

147 ts (P>0.6), despite a higher incidence of GI surgical complications in the PKD group versus the non-P

148 Surgical complications, including events such as lymphoc

149 Reporting of surgical complications is inconsistent and often incompl

150 The small overall increase in mild surgical complications is mostly caused by superficial w

151 ess, the influence of cesarean deliveries on surgical complications later in life has been understudi

152 ta, we compared operative mortality, rate of surgical complications, length of hospital stay, and rat

153 es were in-hospital death, major medical and surgical complications, length of stay, total charges, a

154 Surgical complications like urinary tract infection, wou

155 isk for implant failure, whereas smoking and surgical complications markedly increase the risk for im

156 and 26 that examined factors associated with surgical complications (n = 136,083 patients).

157 Surgical complications occurred in 10%, more commonly re

158 Surgical complications occurred in 36.7% of the children

159 Other surgical complications occurred in 6% of patients.

160 No infectious or surgical complications occurred.

161 ant did, however, reduce the likelihood of a surgical complication occurring.

162 e surgeons had a significantly lower rate of surgical complications (odd ratio = 0.71, 95% confidence

163 e surgeons had a significantly lower rate of surgical complications (odd ratio = 0.71, 95% confidence

164 1.0063; 95% CI, 1.0004-1.0123; P = .03), any surgical complication (odds ratio, 1.0104; 95% CI, 1.002

165 ocal anesthesia and potentially avoiding the surgical complications of cranial nerve palsy and hemato

166 ich is limited to the management of only the surgical complications of device implantation.

167 The effect of surgical complications on hospital finances is unclear.

168 However, the impact of surgical complications on morbidity, hospital costs, and

169 Surgical complications, operative duration, and hospital

170 There were no surgical complications or delayed graft function.

171 hibition of miR-494 may decrease the risk of surgical complications or even avert endarterectomy surg

172 to determine any significant differences in surgical complications or outcomes between the two group

173 splant deaths occur early and are related to surgical complications or recipient status at the time o

174 al complications (OR 0.49; P = 0.002), minor surgical complications (OR 0.62; P = 0.001), estimated b

175 cations (OR = 11.0, RR = 3.2), postoperative surgical complications (OR = 7.7, RR = 2.0), medical com

176 ath, acute rejection, thrombosis, infection, surgical complications, or recurrent disease.

177 e effect of adhesiolysis and bowel injury on surgical complications, other morbidity, and costs.

178 rential tumor localization was predictive of surgical complications (P = 0.0015).

179 sttransplant dialysis (P=0.015), and non-IAI surgical complications (P<0.001).

180 No difference was noted in age, sex, surgical complications, pad use, or urinary dysfunction

181 a positive association between the number of surgical complications, payments, length of stay, total

182 Main outcome measures: mortality, surgical complications, percentage of complications judg

183 l concern because obesity is associated with surgical complications, possibly death, and chronic medi

184 Importance: Treating surgical complications presents a major challenge for ho

185 Secondary end points included surgical complications, progression-free survival (PFS),

186 grafts are still associated with the highest surgical complication rate of all routinely transplanted

187 Overall surgical complication rate was 14.3%.

188 Overall surgical complication rate was 17% with 30-day mortality

189 The surgical complication rate was 56%; however, there were

190 The surgical complication rate was similar between the Natio

191 nship between process measure compliance and surgical complication rates is controversial.

192 No statistically significant differences in surgical complication rates were seen (SC 53.2 vs 50.4%

193 nal excisional surgery in the short term and surgical complication rates were similar between groups.

194 ng visual thresholds for surgery, decreasing surgical complication rates, and increasing visual outco

195 tive method, laterality, and risk factors on surgical complication rates, patient satisfaction, and a

196 inal best-corrected visual acuity (BCVA) and surgical complication rates.

197 intraoperative complications, postoperative surgical complications, reinterventions, prolonged hospi

198 ations, graft size, corneal vascularization, surgical complication, rejection episodes, and postopera

199 were able to proceed with nephrectomy and no surgical complications related to sorafenib administrati

200 The management of surgical complications related to the implantation of pa

201 Postoperative surgical complications remain a potentially preventable

202 Reported surgical complications remain frequent, and particularly

203 Surgical complication remains a key risk factor for endo

204 We retrospectively studied surgical complications requiring relap in 441 consecutiv

205 Posttransplant surgical complications requiring relap were frequent, re

206 nsideration, particularly in recipients with surgical complication risk factors.

207 Surgical complications, risk factors (RF) for developmen

208 Surgical complication(s) were less likely to occur if on

209 iation between cold storage and incidence of surgical complication(s).

210 We describe a surgical complication secondary to a rare and unexpected

211 The incidence of surgical complications showed an odds ratio of 1.02 per

212 rotid stenosis who were not at high risk for surgical complications, stenting was noninferior to enda

213 No major surgical complications such as graft thrombosis, intra-a

214 identify the true frequency and etiology of surgical complications such as incisional SSI, to ration

215 and postoperative marginal reflex distance, surgical complications, surgeon (trainee or staff surgeo

216 been reported to experience higher rates of surgical complications than whites, but the reasons are

217 nts a common but previously underappreciated surgical complication that warrants increased awareness.

218 ive chemotherapy (one of the five also had a surgical complication), the incidence of complications a

219 The strong likelihood of surgical complications, the poor survival, and the limit

220 ce of strategy also depended on the risk for surgical complications, the probability of nondiagnostic

221 Outcomes evaluated included surgical complications, tumor recurrence, patient surviv

222 For all cases (n = 511), the presence of a surgical complication was directly related to Max BMI (P

223 all three groups); the incidence of vascular surgical complications was 0.4 percent (2 patients), 2.0

224 The frequency of surgical complications was 26% in the primary resection

225 The adjusted risk of surgical complications was 3.86% (95% CI, 3.76 to 3.96)

226 Overall incidence of post-operative surgical complications was 52.3 %, with no difference be

227 The incidence of surgical complications was not different for NeoCT patie

228 The incidence of surgical complications was not significant between the 2

229 The incidence of surgical complications was the same regardless of whethe

230 VA) in the eye undergoing the procedure, and surgical complications.We calculated the costs of servic

231 Surgical complications were also recorded.

232 best-corrected visual acuity (BCVA), and the surgical complications were analyzed.

233 the central macular thickness (CMT), and the surgical complications were analyzed.

234 ients undergoing pancreatic surgery (n=703), surgical complications were classified according to the

235 Information on surgical complications were collected from patients' rec

236 Surgical complications were correlated with the specific

237 Infectious and surgical complications were excluded.

238 Medical and surgical complications were much the same between the st

239 Surgical complications were observed in 14 (22%) of the

240 A large number of surgical complications were observed in the TVT Study, b

241 Surgical complications were rarely life threatening.

242 Tumor response, CRT-related toxicity and surgical complications were recorded.

243 Surgical complications were recorded.

244 No major late surgical complications were reported except for one reop

245 Surgical complications were reported in 35 (8%) patients

246 Surgical complications were significantly more common af

247 In this population-based study, surgical complications were significantly more likely ea

248 Overall, surgical complications were significantly reduced in era

249 ed dissection surgery (54 vs. 221); rates of surgical complications were similar in the two groups (4

250 omplications and develop strategies to limit surgical complications when operating on these patients.

251 iencies in reporting the number and types of surgical complications, which potentially has an effect

252 with severe, symptomatic AS at high risk of surgical complications who were randomized to either TAV

253 edict who will respond, and the frequency of surgical complications with splenectomy all remain uncer

254 ion is primarily medical, there are specific surgical complications with which the surgeon should be

255 party payers experience increased costs with surgical complications, with hospitals experiencing a re