ライフサイエンスコーパス: intraoperative

1 diate preoperative readiness (2 indicators), intraoperative (1 indicator), postoperative (8 indicator

2 patients (0.4%): 2 pericardial effusions (1 intraoperative, 1 after 30 days, both drained), 3 groin

3 rgery, previous glaucoma incisional surgery, intraoperative 5-fluorouracil, or follow-up <1 month.

4 s devices used to measure the eye (including intraoperative aberrometry [IA]).

5 Intraoperative aberrometry generally improved outcomes f

6 Intraoperative adverse events and near misses can be rel

7 Intraoperative adverse events were identified and catego

8 Three intraoperative AEs associated with difficult lenticule r

9 tures involved, with obligatory reporting of intraoperative and 30 day-postoperative complications.

10 trol processes, using the Stroop test in the intraoperative and extraoperative neurosurgical setting.

11 Intraoperative and histopathologic findings were the ref

12 The PIONEER Intraoperative and Perioperative OCT Study is a prospect

13 Detailed intraoperative and perioperative physiological parameter

14 Intraoperative and postoperative adverse events were not

15 (16.2-18.6), which were predominantly severe intraoperative and postoperative bleeding (136 [3.8%] of

16 Additionally, intraoperative and postoperative complications including

17 No intraoperative and postoperative complications occurred.

18 inical findings, postoperative outcomes, and intraoperative and postoperative complications were reco

19 tistically significant differences regarding intraoperative and postoperative complications when comp

20 a on preoperative status, operative details, intraoperative and postoperative complications, secondar

21 a on preoperative status, operative details, intraoperative and postoperative complications, secondar

22 g surgical field visualization, and reducing intraoperative and postoperative complications.

23 aract surgery with an expected uncomplicated intraoperative and postoperative course are included in

24 ophagectomy resulted in a lower incidence of intraoperative and postoperative major complications, sp

25 ations when using a standardized protocol of intraoperative and postoperative subconjunctival MMC inj

26 ery was feasible in 64% of patients with few intraoperative and postoperative surgical complications

27 Intraoperative and postoperative utilization profiles ca

28 strategies to provide the best preoperative, intraoperative, and postoperative care for these younges

29 This database includes preoperative, intraoperative, and postoperative patient data and donor

30 herein provide suggestions on preoperative, intraoperative, and postoperative strategies aimed at re

31 We aimed to determine whether the intraoperative assay of arterial lactate concentration a

32 Gross intraoperative assessment can be used to ensure negative

33 going need for more accurate methods for the intraoperative assessment of margins.

34 Intraoperative assessment of the allograft microperfusio

35 nding surgeons' determinations of residents' intraoperative autonomy in the operating room.

36 ong recommendations were made for (1) use of intraoperative biliary imaging for uncertainty of anatom

37 of donation, and further support the use of intraoperative biopsies to identify kidney grafts that a

38 ificant macrovesicular steatosis, on pre- or intraoperative biopsy.

39 thin 180 days were bleb revision (32.1%) and intraoperative bleb needling (28.6%) and at any time pos

40 When intraoperative bleb needling cases were excluded, the re

41 Grade 2 intraoperative bleeding was noted in 32 (31.3%) eyes in

42 Preoperative IVB seems to reduce intraoperative bleeding, improving surgical field visual

43 d low-fat diet was associated with decreased intraoperative blood loss in patients undergoing liver s

44 of this study was to elucidate the impact of intraoperative blood loss on outcomes following pancreat

45 The negative impact of intraoperative blood loss on outcomes in PD has long bee

46 ultrasonic surgery was associated with less intraoperative blood loss when compared to the conventio

47 tics (emergent vs elective, type of surgery, intraoperative blood transfusion), comorbidities (chroni

48 thesiologists (ASA) >2, portal hypertension, intraoperative blood transfusions, and center's volume.

49 hildren's Hospital were recruited to undergo intraoperative brain tonometry at the time of open crani

50 These results demonstrate how intraoperative cancer diagnosis can be streamlined, crea

51 Age, intraoperative central DM perforation, type 2 bubble for

52 toconus with scarring (OR = 5.09, P = .002), intraoperative central perforation (OR = 6.09, P = .03),

53 Liver macrohemodynamics and their intraoperative changes (ie, Delta) were analyzed as pred

54 The aim of this study was to assess intraoperative changes of hepatic macrohemodynamics and

55 Intraoperative cholangiography (IOC) was performed in 12

56 formed followed by radical prostatectomy and intraoperative CLI of the excised prostate.

57 Intraoperative complication rates were 2.9% and 1.9% in

58 Overall rate (N = 500) of any intraoperative complication was 5.0%.

59 The only major intraoperative complication-a posterior capsular tear-oc

60 ystem was associated with a 40% reduction in intraoperative complications (8.4% to 5%).

61 There were no intraoperative complications and all patients were disch

62 There were no clinically significant intraoperative complications in either group.

63 Intraoperative complications occurred in 16.7% in the or

64 vs 130 (IQR 110-180) min; P = 0.770} and no intraoperative complications occurred.

65 Early endothelial cell loss after DSAEK and intraoperative complications should be minimized to impr

66 etes, increased donor corneal thickness, and intraoperative complications were associated with an inc

67 e secondary outcomes, including overall POM, intraoperative complications, and resection margins, was

68 Cases with intraoperative complications, as well as clinical findin

69 he 9 prespecified secondary outcomes, 3 were intraoperative complications, including hypoxemia (oxyge

70 ection was pursued when there was no risk of intraoperative complications.

71 septum was incised successfully without any intraoperative complications.

72 Intraoperative conversion to PK was carried out in 2 of

73 The efficacy of intraoperative corticosteroids to improve outcomes follo

74 divided into 2 groups and compared regarding intraoperative course and postoperative outcome.

75 Although comprehensive intraoperative data analysis and transparent disclosure

76 ring device is to provide reliable objective intraoperative data to improve the understanding of chan

77 t real-time fluorescence imaging can enhance intraoperative decision making by aiding the surgeon in

78 e, not only has the potential to improve the intraoperative decision making during TORS but also othe

79 study groups were comparable with respect to intraoperative Descemet membrane perforation, the rate o

80 Conservative management of intraoperative Descemet membrane perforation, where poss

81 DALK for keratoconus may reduce the rate of intraoperative Descemet perforation and the conversion t

82 However, intraoperative detection can be challenging.

83 Intraoperative detection of tumors has had a profound im

84 Complications such as intraoperative device breakage (7%) and postoperative ex

85 The existing workflow for intraoperative diagnosis based on hematoxylin and eosin

86 of dissected tumors to declare more precise intraoperative diagnosis by scanning all around the diss

87 Intraoperative diagnosis is essential for providing safe

88 patients with BCVA <=0.1, and patients with intraoperative difficulties decreased.

89 Demographics and data on ocular comorbidity, intraoperative difficulties, and capsule complications w

90 preoperative subconjunctival injection or by intraoperative direct scleral application using surgical

91 rgeons operating together by analyzing their intraoperative discussion.

92 course analysis was conducted on transcribed intraoperative discussions.

93 17 were reviewed for 3 utilization measures: intraoperative disposable supply costs, procedure time,

94 Expert analysts characterized intraoperative distractions, errors, and events, and mea

95 s identified, 4708 (84.4%) patients received intraoperative drains and early removal (<= POD3) was pe

96 Intraoperative EGJ measurements including distensibility

97 ng buttressing (83.3% vs 0%, P = 0.0041) and intraoperative endoscopy (83.3% vs 0%, P = 0.0041).

98 ysiological studies have been limited to the intraoperative environment.

99 nes, and sensors, capturing and synthesizing intraoperative, environmental, and instrumentation infor

100 g elective laparoscopic operations, frequent intraoperative errors and events, variation in surgeons'

101 e system called the OR Black Box to identify intraoperative errors, events, and distractions.

102 Each intraoperative event is given a weighted score out of 10

103 For all cases (n = 1051), intraoperative-event association with CVS achievement an

104 focused video review on procedures with >=1 intraoperative events (n = 335).

105 le in understanding the relationship between intraoperative events and postoperative outcomes.

106 We hypothesized that AI accuracy and intraoperative events are associated with disease severi

107 uating the critical view of safety (CVS) and intraoperative events during laparoscopic cholecystectom

108 ever, a standard tool to measure severity of intraoperative events is not yet available.

109 Intraoperative events occurred more frequently in high-s

110 AI-annotated intraoperative events were associated with both disease

111 sus surgeon annotation of CVS components and intraoperative events were compared.

112 Surgeons agreed with 99% of AI-annotated intraoperative events.

113 ), CVS achievement (Strasberg Criteria), and intraoperative events.

114 Here, we report the unusual case of intraoperative evidence of spontaneously healed posterio

115 agnoses were compared and the performance of intraoperative examination was assessed in terms of fals

116 Intraoperative exploration disclosed a big mass of hard

117 Intraoperative exploratory measures are reported, includ

118 Holistically characterizing intraoperative factors that thus support system resilien

119 OpTrust training and instruction to promote intraoperative faculty entrustment and resident entrusta

120 SHO mice, respectively, and complemented by intraoperative far-red fluorescence imaging using a clin

121 etermining the dose, safety, and efficacy of intraoperative FC supplementation.

122 tonometry offers the potential of real-time intraoperative feedback to identify abnormal brain tissu

123 ssion was used to examine the influence of 4 intraoperative findings [visible hole (VH), diffuse fibr

124 Intraoperative findings and clinical data from the Natio

125 deration of early conversion when unexpected intraoperative findings are encountered.

126 We recruited 23 patients with intraoperative findings consistent with intestinal perfo

127 rformed for high-severity patients (multiple intraoperative findings of complicated disease or length

128 SI group included patients with clinical and intraoperative findings of SSI; the remaining patients c

129 At least 1 of the 4 intraoperative findings was reported in 26.6% (1333/5002

130 ive demographics, exodeviation and motility, intraoperative findings, and postoperative results were

131 Tamsulosin is associated with intraoperative floppy iris syndrome (IFIS), an important

132 Our exposure was intraoperative fluid balance and our primary outcome was

133 rt study to evaluate the association between intraoperative fluid balance and postoperative acute kid

134 We observed no association between intraoperative fluid balance and postoperative AKI.

135 Our exposure was intraoperative fluid balance, and our primary outcome wa

136 This challenge could be overcome with intraoperative fluorescence imaging, which provides real

137 aging contrast in (68)Ga-PSMA-I&F PET and in intraoperative fluorescence imaging.

138 Intraoperative fluorescence-guided imaging provides a co

139 In the intraoperative fracture group, new MX60s were sutured in

140 rative fracture and 5 IOLs that sustained an intraoperative fracture.

141 the postoperative fractures and all 5 of the intraoperative fractures, and Prolene was used for 1 pos

142 k of the grossly apparent tumor was removed, intraoperative frozen sections were sent.

143 particularly through revision of a positive intraoperative FS at the pancreatic neck, remains contro

144 a rapid and completely automated system for intraoperative gigapixel ex vivo microscopy of the circu

145 sed on surgeon reporting during surgery, (2) intraoperative graft unscrolling efficiency, and (3) fre

146 Since tools for objective intraoperative graft viability and performance assessmen

147 logy, new toric IOLs, updated lens formulas, intraoperative guidance, and advanced imaging technology

148 y medical imaging for preoperative planning, intraoperative guidance, and postoperative monitoring.

149 Main outcome measures included intraoperative handling, graft position at 1 week post i

150 tumor volume staging, adjuvant chemotherapy, intraoperative heated chemo, female sex, and length of s

151 8 vs. 128.6 +/- 72.87 minutes), incidence of intraoperative hemobilia (4.58% vs. 10.93%), cholangitis

152 had milder reperfusion injury, but had lower intraoperative hepatic artery flow with higher incidence

153 Moreover, interpretation of intraoperative histologic images is dependent on a contr

154 Traditional intraoperative histopathologic analysis of frozen tissue

155 surgeon were recorded and compared with the intraoperative histopathology.

156 Intraoperative HSI is feasible and meaningful to predict

157 ervation and a qualitative systems approach, intraoperative human factors with the potential to eithe

158 Using a qualitative systems-based approach, intraoperative human factors with the potential to impac

159 Intraoperative hypotension is associated with increased

160 compared with standard care resulted in less intraoperative hypotension.

161 oxic-ischemic encephalopathy of newborns) or intraoperative hypothermia.

162 ibility showed that (68)Ga-PSMA CLI is a new intraoperative imaging technique capable of imaging the

163 noninvasive nuclear imaging capabilities to intraoperative imaging.

164 Intraoperative, individualized dosing of FC appears feas

165 Initiatives directed at intraoperative instruction might be best targeted toward

166 0-minute cortical perfusion measurement with intraoperative laser speckle imaging and mean arterial b

167 Intraoperative laser treatments (endolaser) were exclude

168 surgical procedures is essential to improve intraoperative learning without compromising patient out

169 Intraoperative lesion delineation using exendin-4-IRDye

170 Intraoperative liver biopsies were classified using NAFL

171 impact on preoperative SLN visualization and intraoperative localization.

172 stered with gadoteridol to the putamen using intraoperative magnetic resonance imaging (MRI) guidance

173 Diffusion-weighted and intraoperative magnetic resonance imaging scans were per

174 MainOutcomeMeasures: Preoperative features, intraoperative management, postoperative outcomes, assoc

175 Simultaneous intraoperative mapping of endo- and epicardial lateral r

176 Implementation of an accurate, intraoperative margin assessment tool may reduce this re

177 ight, bypass circuit volume, hematocrit, and intraoperative measured and desired FibTEM-MCF.

178 Intraoperative measures included anesthetic concentratio

179 defined as: 1) no surgical resection due to intraoperative metastasis or locally irresectable tumor,

180 Intraoperative methylprednisolone failed to show an over

181 ure of laser-based techniques for bedside or intraoperative microcirculatory perfusion assessment, th

182 Intraoperative microscope-integrated OCT allowed proper

183 Intraoperative mitomycin C (MMC) was associated with red

184 The study aimed to assess the role of intraoperative mitomycin-C (MMC) application during hype

185 Intraoperative MMC application during hyperopic LASIK ac

186 Intraoperative MMC enhances survival, whereas higher pre

187 1.06-1.30], P=0.003 in the preoperative plus intraoperative model).

188 uded with preoperative and preoperative plus intraoperative models, up to 3.6% of procedures were shi

189 Dynamic intraoperative monitoring demonstrates that diaphragmati

190 Novel intraoperative monitoring of administration facilitated

191 sing bleeding, that may be incorporated into intraoperative monitoring protocols during CI surgery.

192 Background Intraoperative MRI has been shown to improve gross-total

193 ge of the authors, the cost-effectiveness of intraoperative MRI has not been established.

194 inical decision analysis model for assessing intraoperative MRI in the treatment of high-grade glioma

195 n incremental cost of $13 447 ($176 460 with intraoperative MRI vs $163 013 without) in microsimulati

196 ental benefit of 0.18 QALYs (1.34 QALYs with intraoperative MRI vs 1.16 QALYs without) at an incremen

197 Results Intraoperative MRI yielded an incremental benefit of 0.1

198 for vector delivery that include the use of intraoperative MRI.

199 al distraction and constriction devices, and intraoperative navigation techniques were used.

200 nd infection (superficial and deep), rate of intraoperative need for vasopressor, incidence of unplan

201 Among 124 patients, 103 (83%) received intraoperative nerve blocks and 106 (85.5%) used PCAs.

202 We found that, compared with NIR-I imaging, intraoperative NIR-II imaging provided a higher tumour-d

203 The purpose of this study is to evaluate intraoperative OCT (iOCT) utility and outcomes during re

204 ps, and operating microscope with or without intraoperative OCT (iOCT) were used.

205 Intraoperative OCT is not necessary but potentially usef

206 Intraoperative OCT provided valuable information in 36%

207 ce Retinal and Ophthalmic Surgery (DISCOVER) intraoperative OCT study is a prospective Institutional

208 Intraoperative OCT was potentially useful in identifying

209 Intraoperative OCT was used to guide subretinal placemen

210 In the subgroup with HO stems for intraoperative offset restoration, the increase in ROM w

211 e evaluate the role of microscope-integrated intraoperative optical coherence tomography (i-OCT) in p

212 Intraoperative optical coherence tomography (iOCT) may f

213 Intraoperative optical imaging could address this unmet

214 enVista MX60 IOLs that experienced either an intraoperative or post-operative eyelet fracture associa

215 %) in the hybrid-procedure group had a major intraoperative or postoperative complication, as compare

216 tured MX60 intraocular lenses can experience intraoperative or postoperative eyelet fractures, result

217 n, perioperative stroke can be classified as intraoperative or postoperative.

218 Near-infrared spectroscopy assessed intraoperative oxygen desaturation in brain and muscle.

219 mposite risk score based on preoperative and intraoperative parameters registered in the National Cat

220 atient demographics, tissue characteristics, intraoperative parameters, and postoperative complicatio

221 , intraoperative preservation strategies and intraoperative patency control have important roles in t

222 MainOutcomeMeasures: Rate of intraoperative perforation and conversion to penetrating

223 uble AC formation following DALK, along with intraoperative perforation and the occurrence of a type

224 Intraoperative perforation of Descemet membrane occurred

225 Intraoperative perforation of Descemet membrane occurred

226 aching principles were cross-referenced with intraoperative performance topics: technical, nontechnic

227 developing strategy for improving surgeons' intraoperative performance.

228 These results suggest that intraoperative PF plays an important role in determining

229 t a critical appraisal of this technique for intraoperative PG detection.

230 ting cognitive processes involved during the intraoperative phase of cardiac surgery from the perspec

231 nding the cognitive processes underlying the intraoperative phase of surgery is essential to improve

232 ective, including electronic health records, intraoperative physiological signals, kidney ultrasound

233 ratio, 1.03 [95% CI, 1.01-1.05]; p = 0.007), intraoperative plasma transfusion (odds ratio, 1.13 [95%

234 d at (1) demonstrating the feasibility of an intraoperative point-of-care test, rotational thromboela

235 cedures, including partial hepatectomy (PH), intraoperative portal vein ligation (PVL), and associate

236 ost obese patients because of the associated intraoperative/post-operative risks.

237 ean absolute spherical error (MAE), rates of intraoperative posterior capsular rupture, and postopera

238 Optimal harvesting techniques, intraoperative preservation strategies and intraoperativ

239 During penetrating keratoplasty, concomitant intraoperative procedures were higher in group 1 than in

240 rioperative music also significantly reduced intraoperative propofol (pooled SMD -0.72 [95% CI -1.01

241 ng due to a number of factors including poor intraoperative pupil dilation and a higher risk of visio

242 escence angiography with ICG can serve as an intraoperative quality control of microperfusion.

243 Fluorescence angiography with ICG allows intraoperative quantitative assessment of microperfusion

244 h regard to extending resections or applying intraoperative radiation therapy in the case of positive

245 the evidence remains insufficient for use of intraoperative radiotherapy (IORT) in women with early s

246 improving hemoglobin level, thereby reducing intraoperative RBC transfusion rate particular if iron i

247 Hyperspectral Imaging (HSI) technique as an intraoperative real time assessment tool for deceased do

248 Intraoperative recognition of hardly removable old hemor

249 However, fluorescence-guidance only allowed intraoperative removal of all SNs in 40% of patients in

250 However, fluorescence guidance allowed intraoperative removal of all SNs in only 40% of patient

251 Intraoperative resident autonomy has been compromised se

252 cluded calm clinician behavior and redundant intraoperative resourcing.

253 Intraoperative rotational thromboelastometry screening e

254 ts and in 11 of 34 participants (32.4%) with intraoperative rupture (P = .44).

255 Background Thromboembolic events and intraoperative rupture are the most frequent neurologic

256 Factors associated with intraoperative rupture were anterior communicating arter

257 Thromboembolic events and intraoperative rupture were reported in 113 of 1088 part

258 Risk factors for intraoperative rupture were small aneurysm size and ante

259 oembolic events were more frequent than were intraoperative rupture.

260 termine the characteristics and frequency of intraoperative safety threats and resilience supports us

261 n 339 of 352 breast lesions (96.3%), and the intraoperative SLN detection rate reached 97.2%.

262 nmasking, fluorescence guidance was used for intraoperative SN identification.

263 blinding, fluorescence-guidance was used for intraoperative SN identification.

264 The Determination of Feasibility of Intraoperative Spectral Domain Microscope Combined/Integ

265 The Determination of Feasibility of Intraoperative Spectral-Domain Microscope Combined/Integ

266 In addition, the use of i-OCT refines intraoperative steps, thereby optimizing the postoperati

267 nificantly associated with the finding of an intraoperative stretched scar (P < .001).

268 set of eight patients who underwent both the intraoperative Stroop test and high angular resolution d

269 Intraoperative subcutaneous wound irrigation with antise

270 s associated with visual acuity outcome, and intraoperative subretinal fluid volume under PFO tampona

271 3 eyes, the procedure was aborted because of intraoperative suction loss.

272 The use of i-OCT affected intraoperative surgeon decision making in 45% and 33% of

273 Intraoperative surgical complications occurred rarely (P

274 rative surgical rehearsal, and potential for intraoperative surgical guidance makes holographic VSP a

275 Cerebrovascular surgery can benefit from an intraoperative system that conducts continuous monitorin

276 The curriculum was based on the "briefing-intraoperative teaching-debriefing" framework.

277 constructivist grounded theory approach, 52 intraoperative team observations as well as 34 critical

278 Intraoperative technical performance predicts major shor

279 Patients who underwent the intraoperative test maintained cognitive control ability

280 Intraoperative time for the MGI was 15.7 minutes shorter

281 le person in the operating room suite within intraoperative time limits, while simultaneously deliver

282 Secondary outcomes were intraoperative time, postoperative IOP, number of IOP-lo

283 d substantial absolute discrepancies between intraoperative times as estimated by the RUC and the tim

284 present the first experience with this novel intraoperative tool for the conduct of epilepsy surgery.

285 eriod (A 42.5% vs A, ID, T 31.5%), a reduced intraoperative transfusion rate was observed for ID and

286 ings, SM-OCT represents a novel approach for intraoperative tumor margin detection and in vivo neuroi

287 icroscope can improve tissue sampling during intraoperative tumor-margin assessment, while offering a

288 staff should be implemented when considering intraoperative use of energy devices.

289 assess if surgical safety can be improved by intraoperative use of intraocular lens (IOL) for catarac

290 Intraoperative use of IOL can improve surgical safety fo

291 Preoperative and intraoperative variables significantly associated with c

292 for propensity for PAL from 31 pretreatment/intraoperative variables were generated.

293 ded preoperative variables, the second added intraoperative variables, and the third added postoperat

294 and a model with combined preoperative plus intraoperative variables.

295 ong adult patients undergoing major surgery, intraoperative ventilation with low tidal volume compare

296 tion and water concentration, hence allowing intraoperative viability assessment of the kidney parenc

297 Intraoperative video from LSG from an academic instituti

298 ogies provides a practical method to achieve intraoperative visualization with high resolution and de

299 ntifying pathology not evident with standard intraoperative visualization.

300 Precataract surgery and intraoperative (vitrectomy) parameters, postvitrectomy c