ライフサイエンスコーパス: postoperative

1 troke can be classified as intraoperative or postoperative.

2 re surgery: median, 23 d; range, 6-44 d) and postoperative (18)F-FET PET (time after surgery: median,

3 al redetachments occurred within the initial postoperative 3-month period.

4 lated impingement-free hip movement based on postoperative 3D-CTs compared to ROM values necessary fo

5 erative intravenous doses of Abx, suggesting postoperative Abx are of benefit in SA.

6 inflammatory drug (NSAID) administration and postoperative acute kidney injury (AKI) and anastomotic

7 polymer solution to the traumatized surface, postoperative adhesion was completely and reliably preve

8 Postoperative adhesions are most common issues for almos

9 rative capecitabine-based chemoradiation and postoperative adjuvant chemotherapy impairs tolerability

10 Intraoperative and postoperative adverse events were noted.

11 laucoma medications, visual acuity (VA), and postoperative adverse events.

12 among those with precipitants occurred with postoperative AF (5-year incidence 32% in cardiac surger

13 h was observed for patients with and without postoperative AF (incidence rate, 42.5 vs 25.0 per 1000

14 Patients with postoperative AF had statistically significantly higher

15 Postoperative AF vs no AF after noncardiac surgery.

16 The primary outcome was the 7-day postoperative AKI rate.

17 Postoperative Anti-elevation was significantly recorded

18 , the role of the conduit placement site and postoperative antiaggregation is insufficiently answered

19 mab over a period of 2 years without pre and postoperative antibiotics.

20 Postoperative AS-OCT was performed to detect the positio

21 Postoperative assessments included visual acuity (VA) at

22 Postoperative assessments were masked to the allocated i

23 84%, and 69% of eyes, respectively, achieved postoperative astigmatism of 0.50 D or less.

24 the only significant feature correlated with postoperative BCVA at 6 months (r = 0.562; P-Value = 0.0

25 Improvement in the postoperative BCVA remained stable 10 years after surger

26 Postoperative BCVA was improved at all time points compa

27 achieve good anatomical results and improve postoperative BCVA.

28 Secondary outcomes included postoperative best-corrected VA.

29 h-free operated sides, 4.7% (n = 6) suffered postoperative bleeding.

30 Preoperative pyuria was associated with postoperative C. difficile infections (aOR, 1.7; 95% CI,

31 ctomy, Laryngology, Familial Thyroid Cancer, Postoperative Care and Complications, Cancer Management,

32 e the best preoperative, intraoperative, and postoperative care for these youngest patients are param

33 Engaging all providers involved in postoperative care is necessary to understand prescribin

34 patient monitoring platforms to support the postoperative care of solid organ transplant recipients

35 r CDVA equal or better than 0.3 logMAR, mean postoperative CDVA was 0.06 +/- 0.17 logMAR, and mean UD

36 ic surgery was associated with high rates of postoperative cessation of insulin therapy, which is, in

37 ggests more complex mechanisms, particularly postoperative changes in gut microbiota, in facilitating

38 Predictors of success and postoperative changes in outcome measures, including IOP

39 ment and pancreatectomy, 155 (63%) initiated postoperative chemotherapy and 90 (37%) did not.

40 Intended treatment included pre- and postoperative chemotherapy and surgery.

41 Data to support administering postoperative chemotherapy to patients who received preo

42 based on factors associated with the use of postoperative chemotherapy.

43 Postoperative chest radiographs on postoperative days 1,

44 Although postoperative cholangioscopy (POC) guided electrohydraul

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

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

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

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

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

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

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

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

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

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

55 Postoperative complications are associated with consider

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

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

58 Perioperative and postoperative complications from all initial procedures,

59 Children with multiple postoperative complications have increased suffering and

60 432,090 operations; 388,738 (89.97%) had no postoperative complications identified, 36,105 (8.35%) o

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

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

63 Additionally, intraoperative and postoperative complications including retreatments were

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

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

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

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

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

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

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

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

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

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

74 operative depression, and the development of postoperative complications.

75 ifying patients with high risk of developing postoperative complications.

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

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

78 effect of DOF was potentially influenced by postoperative complications.

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

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

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

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

83 The risk of postoperative constipation was higher with PN vs. Contro

84 ive nil-by-mouth and tube feeding for 5 days postoperative (control group).

85 th noncircumferential trabeculotomy or using postoperative corticosteroids.

86 Both patients had an uncomplicated postoperative course and were discharged home.

87 Although the patient had a complicated postoperative course with numerous immunological, infect

88 perative NT-Pro-BNP can predict the risk for postoperative CPC.

89 peak serum creatinine: 3.66 +/- 1.33 mg/dL [postoperative d 1 [(POD1)], 8.82 +/- 3.17 mg/dL [POD2],

90 mplications) was used to determine trends in postoperative daily physical activity among patients wit

91 ent of intraocular pressure was conducted on postoperative day (POD) 1, week 1, and month 1.

92 Mean postoperative day (POD) 7, aspartate aminotransferase (6

93 tractional retinal detachment with completed postoperative day 1 (POD1) and postoperative week 1 (POW

94 was from surgery until hospital discharge or postoperative day 10.

95 toperative delirium, 2) physical function on postoperative day 30, 3) fall risk on discharge, 4) disc

96 The CCI at postoperative day 7 strongly predicted high 90-day morbi

97 ients before the procedure (baseline) and on postoperative day 90: MRD1, Ocular-Surface-Disease-Index

98 730 (2250-8510); P < 0.001] and on the first postoperative day.

99 Postoperative chest radiographs on postoperative days 1, 3, and 8 (Fig 1a-1c) are provided.

100 the S-group compared with the R-group on all postoperative days [area under the curve: median (interq

101 e pulmonary complications within the first 7 postoperative days, including pneumonia, bronchospasm, a

102 mplication Index (CCI), covering the first 7 postoperative days, was calculated as a measure for earl

103 come was second postoperative fill within 30 postoperative days.

104 FTR, or a postoperative death after a complication, is currently a

105 Excluding 2 postoperative deaths, 1- and 5-year overall survival (OS

106 orkshop evaluations and audio transcripts of postoperative debriefs between coach/coachee pairs, co-c

107 rocedures, and it proved to be predictive of postoperative DED symptoms onset.

108 ing five geriatric outcomes were defined: 1) postoperative delirium, 2) physical function on postoper

109 mmation is considered an important driver of postoperative delirium, next we tested whether neurofila

110 presurgical cognition, presurgical function, postoperative depression, and the development of postope

111 of the fecal microbiota composition for the postoperative disease course of patients with Crohn's di

112 ed as a non-invasive diagnostic tool for the postoperative disease course.

113 udied, of which 23 (29%) were diagnosed with postoperative DVT.

114 A total of 487 patients received postoperative electrical stimulation and 454 patients re

115 The overall 90-day cumulative incidence of postoperative endophthalmitis and choroidal hemorrhage f

116 ted with a nearly 4-fold lower rate of early postoperative endophthalmitis in patients undergoing tra

117 routine intracameral moxifloxacin, and acute postoperative endophthalmitis rates were compared.

118 r of monocular occlusion at preoperative and postoperative examinations within 1 week, and closest to

119 Postoperative EZ integrity was restored in 52 eyes (60%)

120 Prolonged postoperative fasting has been the traditional model of

121 Our primary outcome was second postoperative fill within 30 postoperative days.

122 r recurrent soft-tissue sarcomas or positive postoperative findings (nonsarcoma).

123 lusion criteria included adult patients with postoperative follow-up >180 days and no other glaucoma-

124 2016 and September 30, 2017, with a minimum postoperative follow-up of 1 year.

125 correlate the results with graft injury and postoperative graft function in patients undergoing orth

126 Outcomes included 6-month postoperative health care spending; proportion of spendi

127 Epoprostenol, epidural anesthesia, and postoperative hemodialysis may have contributed to syste

128 hough arterial bleeding is the main cause of postoperative hemorrhage, most often no actively bleedin

129 diatric end -stage liver disease score >=40, postoperative hospital stays, rejection, and nonanastomo

130 However, postoperative hypotony was a predictor for unfavorable v

131 did not significantly reduce the duration of postoperative hypoxemia over 48 hours.

132 strated a strong probability of reduction in postoperative IAA with a high probability of decreased L

133 Overall, 18.3% of patients underwent postoperative imaging (hospital range: 4.8%-33.3%), and

134 ource utilization measures included rates of postoperative imaging [ultrasound (US) and computed tomo

135 ablish diagnostic performance benchmarks for postoperative imaging in children with complicated appen

136 swabs from this patient demonstrated a sharp postoperative increase in the abundance of Enterococcus,

137 Postoperative infection after hand-assisted laparoscopic

138 The rate of early postoperative infection after intracameral moxifloxacin

139 eta-blocker users, as were the incidences in postoperative infection and anastomotic failure.

140 atched patients' complications, particularly postoperative infection and ileus, were compared.

141 The prevention of postoperative infection is often the basis for antibioti

142 8.1%), absolute risk reduction in developing postoperative infection, with 6 donors requiring treatme

143 Synbiotics showed greater effect on postoperative infections compared with probiotics alone

144 erative ophthalmic evaluation and meticulous postoperative inflammation control should be applied to

145 Postoperative intraocular pressure (IOP) less than or eq

146 Main outcome measures were postoperative intraocular pressure (IOP) level and secon

147 ents who underwent abdominal surgery, use of postoperative intravenous acetaminophen, compared with p

148 significant decrease in WI rates by giving 2 postoperative intravenous doses of Abx, suggesting posto

149 , pneumothorax, or unplanned requirement for postoperative invasive or noninvasive ventilation.

150 The primary outcomes were postoperative IOP and requirement of pressure-lowering m

151 ival incision had longer time to failure for postoperative IOP control vs fornix-based incision.

152 ts with IOP of 21.0 mmHg or more showed mean postoperative IOP reduction ranging from -6.2 to -6.9 mm

153 MS was associated with a lower likelihood of postoperative IOP spike.

154 l of 775 adult patients at increased risk of postoperative kidney injury undergoing major abdominal s

155 perative mortality, major complications, and postoperative length of stay were evaluated using Bayesi

156 ; and the recommendation regarding long-term postoperative LMWH has been expanded.

157 differences were found between the predicted postoperative lung function results derived from these m

158 urvival, whereas higher preoperative IOP and postoperative maneuvers are predictors of increased fail

159 Postoperative measures to mitigate the loss of the hormo

160 xposure was the occurrence of the predefined postoperative medical or surgical technical complication

161 Tailoring postoperative medications to the type of periodontal/ora

162 e great potential in the early diagnosis and postoperative monitoring of breast cancers.

163 e or IOP >21 mmHg at 2 consecutive visits at postoperative month 1 and beyond, the need for subsequen

164 At postoperative month 24, the mean IOP was 12.6 +/- 4.4 mm

165 tion (mean, 20/62 vs. 20/149; P < 0.001) and postoperative month 6 (mean, 20/41 vs. 20/49; P = 0.03),

166 uction was 22.7%, 20.2%, 20.7%, and 23.7% at postoperative months (POMs) 1, 3, 6, and 12 (P < 0.0001

167 hrombin time-international normalized ratio; postoperative morbidity (Dindo-Clavien >3b), hospital st

168 -wide population-based study aimed to report postoperative morbidity and mortality after esophagectom

169 Postoperative morbidity and mortality were 38% and 2%, r

170 s study was to investigate the difference in postoperative morbidity between the laparoscopic and rob

171 e results with regard to long-term survival, postoperative morbidity, mortality and pathology results

172 y established and main concerns include high postoperative morbidity, requirement of advanced surgery

173 calculated as a measure for early cumulative postoperative morbidity.

174 gnificant contributor to short and long-term postoperative morbidity.

175 age x recipients' MELD) was associated with postoperative mortality (HR: 8.027; 95% CI: 2.387-18.223

176 ications to high volume centers could reduce postoperative mortality (POM) and failure to rescue (FTR

177 Evaluate at a national level the postoperative mortality (POM), major morbidity (MM) and

178 ic regression to model 30-, 90-, and 180-day postoperative mortality (VOCAL-Penn models).

179 Primary outcomes included postoperative mortality and major complications.

180 Postoperative mortality and overall survival (OS) were s

181 A risk-score model predicted postoperative mortality for MaSBO with an optimism-adjus

182 (SBO) and to develop a prediction model for postoperative mortality for MaSBO.

183 As postoperative mortality in case of COVID pneumonia is no

184 The 90-day postoperative mortality was 0.2%, and 2.9% of the patien

185 the RAI, and the association between RAI and postoperative mortality was evaluated using logistic reg

186 While postoperative myocardial injury remains a major driver o

187 itro in mouse motor cortex (M1) and in human postoperative neocortex, in vivo in mouse somatosensory

188 to determine the relationship between early postoperative nonsteroidal anti-inflammatory drug (NSAID

189 ted with better preoperative BCVA and better postoperative OCT parameters.

190 l, spherical and coma root mean square (RMS) postoperative ocular higher-order aberrations were 1.07

191 visual field disturbance (4.3%; n = 42), and postoperative ocular pain (3.4%; n = 34).

192 Secondary outcomes were postoperative opioid consumption, pain (0- 10-point scal

193 Perioperative music significantly reduced postoperative opioid requirement (pooled SMD -0.31 [95%

194 s' opioid prescribing history and persistent postoperative opioid use in cancer patients undergoing c

195 ere most strongly correlated with persistent postoperative opioid use.

196 before surgery are vulnerable to persistent postoperative opioid use.

197 The primary outcome was "new persistent postoperative opioid user," was defined as a patient who

198 croperfusion of the allograft is crucial for postoperative organ function.

199 Among patients undergoing knee arthroplasty, postoperative osocimab 0.6 mg/kg, 1.2 mg/kg, and 1.8 mg/

200 is the single most important denominator of postoperative outcome after colorectal surgery.

201 ssing the degree of small-vessel disease and postoperative outcome after PEA in chronic thromboemboli

202 onary hypertension undergoing PEA to predict postoperative outcome before surgery.

203 to investigate the effect of race and sex on postoperative outcomes after CABG.

204 jor decreases in LOS were demonstrated worse postoperative outcomes after urgent hip fracture repair

205 Demographic data, postoperative outcomes and complications, graft and pati

206 were utilized to estimate the probability of postoperative outcomes and post-discharge resource utili

207 complications and afforded better short-term postoperative outcomes compared to ODRH.

208 nt of renal function and prediction of early postoperative outcomes in patients with an LVAD.

209 We aimed to compare postoperative outcomes of donors who underwent LDLT with

210 hics, clinicopathologic characteristics, and postoperative outcomes remain largely undefined.

211 Perioperative complications and postoperative outcomes were compared between the two gro

212 is, which was strongly associated with worse postoperative outcomes, as well as suicide risk.

213 To assess the postoperative outcomes, we used multivariate logistic re

214 f major importance with regard to short-term postoperative outcomes.

215 organ disease and improve perioperative and postoperative outcomes.

216 its relationship with idiopathic MH size and postoperative outcomes.

217 odels were used to provide adjusted rates of postoperative outcomes.

218 ties by nonsurgical clinicians on short-term postoperative outcomes.

219 of a preexisting mental illness diagnosis on postoperative outcomes.

220 t and unique challenges in perioperative and postoperative outcomes.

221 used to compare baseline characteristics and postoperative outcomes.

222 racterized by a high SVI generally had worse postoperative outcomes.

223 edures per 10 000 persons, and patient-level postoperative outcomes.

224 no association was found between very early postoperative over IS or high IPV and long-term outcome

225 id-sparing analgesia; however, the effect on postoperative pain and opioid use in patients undergoing

226 Postoperative pain is an outcome of importance to potent

227 at extended opioids are needed for effective postoperative pain management.

228 onfidence interval, 1.36-6.79; p < 0.05) and postoperative pancreatic fistula (odds ratio, 2.78; 95%

229 Secondary outcomes were postoperative pancreatic fistula (POPF), delayed gastric

230 The presence of postoperative pancreatic fistula was a significant risk

231 Any efforts to reduce postoperative pancreatic fistula would decrease the inci

232 rgoing resection, completeness of resection, postoperative pathology, and postoperative STMs were ass

233 tear film stability is altered in the early postoperative period after simultaneous cataract and LRI

234 ovide better IOP control in the intermediate postoperative period and blunt the hypertensive phase co

235 e risk of markedly elevated IOP in the early postoperative period in patients with glaucoma.

236 Administration of NSAIDs in the early postoperative period is safe in selected patients follow

237 op prescriptions that were filled during the postoperative period of cataract surgery.

238 In the direct postoperative period, acute kidney injury was identified

239 In the early postoperative period, there were significantly lower lev

240 oid epidemic through persistent use past the postoperative period.

241 are used during surgery and in the immediate postoperative period.

242 o be associated with recurrence in the early postoperative period.

243 h appropriate management during the pre- and postoperative periods, phacoemulsification and IOL impla

244 Adjusted postoperative physical activity was lower among patients

245 To date, differences in postoperative prescribing among providers are poorly und

246 Despite the emergence of postoperative prescribing guidelines, recommendations ar

247 Their postoperative prevalence remains unclear.

248 Rates of postoperative PTH < 10 (33.3% vs 24.1%, P = 0.57) and tr

249 cantly associated with a higher frequency of postoperative ptosis.

250 PLDRH reduced the incidence of postoperative pulmonary complications and afforded bette

251 The primary outcome was a composite of postoperative pulmonary complications within the first 7

252 Prediction of postoperative pulmonary function in lung cancer patients

253 ry valve (TPV) was designed for treatment of postoperative pulmonary valve regurgitation in patients

254 evaluate ML algorithms for the prediction of postoperative PVR using clinical data from the electroni

255 The clinical features associated with postoperative PVR were determined by univariate feature

256 ical hysterectomy than for open surgery, and postoperative quality of life is similar between the tre

257 for postoperative renal replacement therapy, postoperative red blood cell transfusions, time to first

258 r 48-hour AKI, 7-day AKI, or on the need for postoperative renal replacement therapy after adjustment

259 ere the grade of AKI at 7 days, the need for postoperative renal replacement therapy, postoperative r

260 ch enabled dynamic tumor burden tracking and postoperative residual disease detection, associated wit

261 lusion was associated with a greater risk of postoperative respiratory failure (8.2% versus 6.2%, P<0

262 ts derived from these methods and the actual postoperative results.

263 No significant postoperative retinal displacement was noted in either g

264 The top 6 most costly complications were postoperative septic shock (4.0-fold, 95% CI 3.58-4.43)

265 Postoperative serum bilirubin and prothrombin time-inter

266 icantly reduces the length of hospital stay, postoperative serum bilirubin and PT-INR, as well as inf

267 nt, counsel patients in the preoperative and postoperative settings, and elicit sensitive information

268 s of resection, postoperative pathology, and postoperative STMs were associated with PFS.

269 estions on preoperative, intraoperative, and postoperative strategies aimed at reducing the risk of p

270 er rates of death, infection, pneumonia, and postoperative stroke compared to White patients.

271 Secondary outcomes were postoperative surgical site occurrences (including hemat

272 py, local delivery of MaR1 reduced immediate postoperative surrogate pain score panels.

273 Sustained postoperative surveillance for all patients is indicated

274 term complications while also ensuring their postoperative surveillance through endoscopic and physio

275 D) on the intestinal microbiota and improves postoperative survival BACKGROUND:: We have previously d

276 ol for selection bias, patients who received postoperative therapy and patients who did not were matc

277 Patients who received postoperative therapy had a higher median cancer antigen

278 predictive value in assessing the threat of postoperative thrombosis in patients with benign and mal

279 Postoperative treatment with steroids among patients und

280 hed against its significant association with postoperative underaction of IO muscle and anti-elevatio

281 during L-TME on pelvic autonomic nerves and postoperative urogenital function remains controversial.

282 during L-TME revealed protective effects on postoperative urogenital function, and could be a better

283 dicaid Services for eye drops prescribed for postoperative use after cataract surgery in 2016 was app

284 However, their postoperative use is limited by concerns around increase

285 Finally, 12-month postoperative VA was worse in patients who were fovea-of

286 e the rate of failure to provide defect-free postoperative venous thromboembolism (VTE) chemoprophyla

287 ontraction (retraction) and the incidence of postoperative venous thrombosis, 78 patients with brain

288 ficantly associated with increased number of postoperative visits (P-value < 0.05).

289 emographic characteristics, preoperative and postoperative visual acuity (VA), and MH status.

290 ation anatomic success (SOAS) of repair, and postoperative visual acuity (VA).

291 This study sought to compare the postoperative visual outcomes of toric implantable colla

292 No correlation was found between postoperative VTE chemoprophylaxis application and hospi

293 lication and hospital specific risk adjusted postoperative VTE rates.

294 st 32,856 operations, there were 480 (1.46%) postoperative VTE, and an overall mortality of 609 (1.85

295 The reduction in IOP was significant only at postoperative week 1 (P = 0.031).

296 ith completed postoperative day 1 (POD1) and postoperative week 1 (POW1) visits were included.

297 resulted in a transient reduction in IOP at postoperative week 1.

298 Recovery took place over the first eight postoperative weeks, with subtle improvement afterwards.

299 toward myopic regression from 3 to 12 months postoperative with a change in MRSE of -0.15 D compared

300 in 67 eyes (45%), typically within the first postoperative year.