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1 ispherectomy in childhood (median 21.5 years postoperative).
2  care unit, postoperative day 2, and 1 month postoperative.
3                                      Overall postoperative 30-day morbidity did not show any differen
4                          Primary outcome was postoperative 30-day morbidity, according to Clavien-Din
5 rd preoperative cephalosporin prophylaxis, a postoperative 48-hour course of oral cephalexin and metr
6 aft bed reversed diabetes when combined with postoperative 50% oxygen inhalation for 3 days, a number
7 ly considered among infants at high risk for postoperative acute kidney injury and fluid overload.
8 a, Intergroup Trial 0116 (Phase III trial of postoperative adjuvant radiochemotherapy for high risk g
9 Despite documented oncologic benefit, use of postoperative adjuvant radiotherapy (aRT) in patients wi
10 en used either as definitive therapy or as a postoperative adjuvant therapy.
11 o intraoperative complications or unexpected postoperative AEs were reported.
12 e is often administered intraoperatively for postoperative analgesia, and some evidence suggests that
13  10,147 patients without diabetes had 15,887 postoperative angiograms; stenosis was quantified for 7,
14                No significant differences in postoperative anterior chamber reaction (P = 0.7) or LPI
15 th of hospital stay, and overall duration of postoperative antibiotic treatment.
16                                          The postoperative appearance and SEM features warrant furthe
17 s a common cause of allergic rhinosinusitis, postoperative aspergillosis and fungal keratitis.
18 erative imaging, amygdalohippocampectomy and postoperative assessment using the International League
19 hange in mean total TRS score at the 6-month postoperative assessment with both leads activated, comp
20 -0.32 logMAR, P < 0.001), and slightly worse postoperative BCVA (0.06 vs. 0.03 logMAR, P = 0.039).
21 um angle of resolution (logMAR), whereas the postoperative BCVA improved to 0.17+/-0.07 logMAR (P = 0
22                    After adjustment, average postoperative BCVA was better in ISBCS patients, althoug
23               The main outcome measures were postoperative best-corrected visual acuity (BCVA), endot
24 ct surgery group, including preoperative and postoperative best-corrected visual acuity, incidence of
25 ough the difference between preoperative and postoperative BVCA was significantly different at 1 mont
26                                              Postoperative cardiac events within 90 days of LT predic
27  findings support using the mHELP to advance postoperative care for older patients undergoing major a
28                       Therefore, accelerated postoperative care protocols appear well aligned with th
29 ve evaluation, operative reconstruction, and postoperative care, are each unique and vitally importan
30 isk for such events may help guide peri- and postoperative care.
31 cation risks (OR 0.812, P = .434) or in mean postoperative CDVA (20/30, P = .484) comparing current w
32 asis and mixed location lashes and immediate postoperative central undercorrection independently pred
33 iety gut hormone response, which may mediate postoperative changes in satiety, body weight, and gastr
34  superior survival for patients who received postoperative chemoradiotherapy with bolus fluorouracil
35  lung cancer resection and the initiation of postoperative chemotherapy to determine the association
36  XRD could be used for the intraoperative or postoperative classification of bulk tissue samples.
37 ificantly different at 1 month and the final postoperative clinic visits (P < 0.001), there was not a
38 OUND DATA: The relationship between iAEs and postoperative clinical outcomes remains largely unknown.
39  correlation between dexmedetomidine use and postoperative cognitive change.
40 lirium (primary outcome) and secondarily for postoperative cognitive decline.
41   Resective neurosurgery carries the risk of postoperative cognitive deterioration.
42 development of therapies to prevent or treat postoperative cognitive dysfunction and other forms of c
43                  SUMMARY OF BACKGROUND DATA: Postoperative cognitive impairment is a prevalent indivi
44 y decreased the odds of an intraoperative or postoperative complication by 80% (odds ratio [OR] = 0.2
45 eatitis rates were 3.4, 7.0 and 6.8% and the postoperative complication rates 11.1, 15.7 and 12.8%, r
46                  Hospital length of stay and postoperative complication rates were also significantly
47 nastomosis was associated with higher 90-day postoperative complication rates.
48 her 23 patients were excluded due to lack of postoperative complication registrations, leaving 1931 E
49                       There was no change in postoperative complication risks (OR 0.812, P = .434) or
50                      Prior to 2014, the only postoperative complication was a chronic radiation bed s
51                              The most common postoperative complication was retroprosthetic membrane
52 Total surgical episode payments for risk and postoperative complication-matched patients were signifi
53             Delirium is a common and serious postoperative complication.
54 e likely than non-PHS patients to experience postoperative complications (odds ratio 2.2, 95% confide
55 re weak predictors of readmission, while any postoperative complications (OR 2.22, 95% CI 1.55-3.18)
56 tics, prebiotics, and synbiotics in reducing postoperative complications (POCs) has been questioned.
57                 No significant difference in postoperative complications [odds ratio (OR) 0.91; 95% c
58   Secondary outcome measures included 30-day postoperative complications and 1-year self-reported com
59                                              Postoperative complications and 30-day unplanned readmis
60              Primary outcomes were immediate postoperative complications and subsequent (within 5 yea
61 bilitation centers to help them recover from postoperative complications and the physical demands of
62                                              Postoperative complications are associated with increase
63                                              Postoperative complications have been associated with ca
64  Best-corrected postoperative visual acuity, postoperative complications of the reported technique, i
65 emented in an effort to minimize the onus of postoperative complications on clinical and economic out
66 hakic, snap-on, type I Boston KPros had less postoperative complications than eyes with partial PPVs
67 patient observations are at greater risk for postoperative complications than patients whose surgeons
68                            The rate of total postoperative complications was lower in the total PPV g
69                          The rate ratios for postoperative complications were 0.68 (95% CI, 0.46-0.99
70                                   No related postoperative complications were identified.
71                                              Postoperative complications were intraocular pressure (I
72                            Perioperative and postoperative complications were reported in 934 women (
73 ed the surgery well and no intraoperative or postoperative complications were reported, except for 1
74                                              Postoperative complications were scored with the compreh
75 ty (VA) and occurrence of intraoperative and postoperative complications with a minimum follow-up of
76 dult patients (n = 298) at increased risk of postoperative complications with a preoperative acute ki
77                                    As far as postoperative complications, an increased risk of shallo
78                      Visual acuity outcomes, postoperative complications, and device retention.
79 achieving TO were a prolonged hospital stay, postoperative complications, and readmissions.
80  control for comorbidity, functional status, postoperative complications, and stage.
81 y and experienced no significant increase in postoperative complications, anti-TNF agent use within 9
82 g anesthesia, transfusions, hypothermia, and postoperative complications, as probable deleterious fac
83 ndary end points included intraoperative and postoperative complications, circumferential resection m
84                           Intraoperative and postoperative complications, device retention, and best-
85 uent (within 5 years) readmissions for later postoperative complications, further incontinence surger
86                                  Minor early postoperative complications, such as graft infection and
87 erence between groups with respect to common postoperative complications, there was a higher rate of
88 nths postoperatively; and intraoperative and postoperative complications.
89 interval scores 6 months after training, and postoperative complications.
90 may be increased risk for intraoperative and postoperative complications.
91                  Secondary outcomes included postoperative complications.
92  with KPro was not associated with increased postoperative complications.
93 sed for the development of specific types of postoperative complications.
94 n margin status, lymph node involvement, and postoperative complications.
95 ents with glioblastoma who were treated with postoperative concurrent radiation and temozolomide ther
96 ional communication and management of common postoperative conditions they will encounter as new surg
97                                     The mean postoperative corneal cylinder was 1.2+/-1.0 and 1.2+/-0
98                        Ninety-day normalized postoperative costs.
99 racteristics, intraoperative procedures, and postoperative course.
100  superior to other published risk models for postoperative CVD morbidity and mortality, and it had ap
101 d docetaxel (FLOT) followed by surgery and 4 postoperative cycles.
102                                   Additional postoperative data were collected for the cataract surge
103 nd drain fluid amylase (DFA) was measured on postoperative day 1 (POD 1) for moderate/high risk patie
104 istic findings of HORV included unremarkable postoperative day 1 undilated examination, delayed-onset
105 igher incidence of negative fluid balance on postoperative day 1, as well as avoidance of 10% fluid o
106 hanced US and fluoroscopic nephrostograms on postoperative day 1.
107 .22 mg/L [p < .05], 2.53 mg/L [p < .01]) and postoperative day 2 (MPD 71.97 mg/L [p < .01], 35.18 mg/
108 nts: preoperative, postanesthesia care unit, postoperative day 2, and 1 month postoperative.
109 actin-positive blood vessels were assayed at postoperative day 7 by colony formation and immunofluore
110 ed return to the operating room on the first postoperative day to alleviate pupillary block caused by
111 d a reduction (41 +/- 39%) on the 3rd to 4th postoperative day, corresponding to changes in [(11) C]P
112 dence of negative fluid balance on the first postoperative day.
113 le contrast agent was performed on the 5(th) postoperative day.
114 iring hemodialysis which was discontinued on postoperative days 18 and 39 for cases 1 and 2, respecti
115                                           At postoperative days 3 and 30, there was no difference in
116 n Stroop Color-Word Test performance between postoperative days 3 to 4 and 3 months correlated to cha
117 Predefined PPCs occurring within the first 7 postoperative days were prospectively identified.
118 nt was postoperative pelvic sepsis within 30 postoperative days, including anastomotic leakage, pelvi
119                                          One postoperative death occurred in a 59-year-old woman with
120 iated decreases in the hospital-level 30-day postoperative death rate after inpatient surgery ranging
121 th significantly lower hospital-level 30-day postoperative death rates (aRR 0.83, 95% CI 0.70-0.97, P
122 ce was associated with hospital-level 30-day postoperative death rates.
123 nel is associated with hospital-level 30-day postoperative death.
124                                              Postoperative decline in kidney function occurred mainly
125 neuropsychological assessment, a significant postoperative decline in verbal memory and confrontation
126            Up to 40% of patients who develop postoperative delirium (POD) never return to their preop
127             Patients were assessed daily for postoperative delirium (primary outcome) and secondarily
128 operative cognitive functions or who develop postoperative delirium are at risk of developing dementi
129                   There was no difference in postoperative delirium between the dexmedetomidine and p
130  effectiveness of ketamine for prevention of postoperative delirium in older adults.
131                                              Postoperative delirium occurred in 13 of 196 (6.6%) mHEL
132  dexmedetomidine administration would reduce postoperative delirium.
133 perative infusion of dexmedetomidine reduces postoperative delirium.
134 or providing PSMA-specific pre-, intra-, and postoperative detection of prostate cancer lesions and h
135            This finding may be caused by the postoperative differences in nutrient intake and/or weig
136 n the SGS group and the GSR group in overall postoperative early and late complication rates, the use
137         The primary outcome measured was the postoperative early and late complication rates.
138 was significantly associated with decreasing postoperative EFS ( P < .01).
139  for all patients by ray tracing, aiming for postoperative emmetropia.
140                       We confirmed 1 case of postoperative endophthalmitis in 10 494 ISBCS eyes (1.0
141                               To compare the postoperative endophthalmitis rate before and after init
142                                          The postoperative endophthalmitis rates before and after ini
143       Patients with previous ocular surgery, postoperative endophthalmitis, postoperative retinal det
144 at surgery, and high Rutgeerts score (>2) in postoperative endoscopy.
145 72 eyes (90%); mean CCT was 492+/-62.10 mum; postoperative endothelial cell density averaged 2026+/-3
146 8 diopters, respectively (P = 0.84), and the postoperative endothelial cell density changes were -3+/
147 urgeries can result in high rates of adverse postoperative events.
148  hernia repair at increased risk for adverse postoperative events.
149 thout deep stromal scarring, with at least 1 postoperative examination 1 month after complete suture
150  Intervention or Observational Procedure(s): Postoperative examination at 3 months including manifest
151                                     Pre- and postoperative examinations during the follow-up of inclu
152                                              Postoperative findings were compared with linear and gen
153                                   The median postoperative follow-up was 29.5 months, with a minimum
154  data, pathologic characteristics of tumors, postoperative follow-up, and recurrences were collected
155                                           No postoperative fractures, implant failures or loosening p
156 ure is time-consuming and usually results in postoperative fractures.
157                           In surgical cases, postoperative functional and anatomic results at 1 and 6
158 mmon, but carry an unacceptably high risk of postoperative fungal infection.
159        Tooth-root lengths lacked significant postoperative gain among all subjects (p = 0.3472) or in
160 tion for depression before surgery and major postoperative gastrointestinal complications after baria
161 est reported cohort (n = 900) with long-term postoperative glycemic follow-up, which, for the first t
162                              There were more postoperative hallucinations (p=0.01) and nightmares (p=
163 ine the effect of preoperative opioid use on postoperative healthcare utilization (length of stay, 30
164                                              Postoperative HORV is a devastating condition that can o
165 ing surgery in a hospital with short vs long postoperative hospitalization practices, characterized a
166 92% without supplementation at 6, 12, and 24 postoperative hours.
167  No statistically significant differences in postoperative HRQOL were found between treatment groups.
168                                        Early postoperative hyperglycemia was associated with increase
169  There was no difference in the frequency of postoperative imaging, percutaneous drain placement, reo
170 irements, but was positively associated with postoperative infection (3.81 +/- 0.97 vs 2.79 +/- 0.73;
171                   There were no cases of any postoperative infection.
172       A critically ill patient with multiple postoperative infections repeatedly required profound vo
173 g mesh (Progrip) on the incidence of chronic postoperative inguinal pain (CPIP) and recurrence rate a
174                                 Six distinct postoperative inpatient patient-reported pain trajectori
175 hough patients may buy-in to some additional postoperative interventions, they hold a broad range of
176 ry, we performed open-ended preoperative and postoperative interviews.
177                   To determine the effect of postoperative IS on hypoxemia, arterial oxygen saturatio
178  higher (indicating moderate to high risk of postoperative kidney injury) undergoing major surgery la
179 oom, percentage of complicated appendicitis, postoperative length of hospital stay, and overall durat
180 rtality, 30-day postoperative morbidity, and postoperative length of stay (LOS) among patients underg
181 ciplines and associations with risk-adjusted postoperative length of stay (pLOS).
182 ical; it uses 4 predictors for estimation of postoperative lens position, including axial length, cor
183 as a lid height less than 50% of the initial postoperative lid height.
184 ally evaluating the content about the use of postoperative life support.
185 existed to effectively assess the quality of postoperative linear scars.
186  95% CI 1.89-3.81, P < 0.001), and prolonged postoperative LOS (OR = 1.85, 95% CI 1.27-2.70, P = 0.00
187  30-day morbidity, and prolonged (>/=7 days) postoperative LOS, controlling for preoperative/intraope
188 lity of preoperative levosimendan to prevent postoperative low cardiac output syndrome.
189 are model was associated with a reduction in postoperative major complications, duration of mechanica
190 ac 0.3% over vehicle in reducing the risk of postoperative ME, with the integrated analysis showing i
191    Future longitudinal studies with multiple postoperative measures are needed to validate the effect
192                                    Six-month postoperative median CCI was significantly higher for DC
193 e in the preoperative visual acuity score at postoperative month 1 and at the last noted clinic appoi
194 older" blood was an independent predictor of postoperative morbidity among patients undergoing hepato
195                                  In-hospital postoperative morbidity and mortality rates were compara
196 ypotension is associated with an increase in postoperative morbidity and mortality, but the appropria
197                  The CCI adds information on postoperative morbidity in almost half of the patients d
198                                       Severe postoperative morbidity was also not different between g
199 s) on 30-day postoperative mortality, 30-day postoperative morbidity, and postoperative length of sta
200 -0.896, P = 0.001); hospital length-of-stay, postoperative morbidity, and postoperative mortality wer
201 duced about 3 years ago as a novel metric of postoperative morbidity, integrating in a single formula
202 e previously been associated with increasing postoperative mortality (POM).
203                             Frailty predicts postoperative mortality and morbidity more than age alon
204                                              Postoperative mortality and morbidity were 0.5% and 32.6
205 and C statistics for each measure predicting postoperative mortality and morbidity.
206                                   The 90-day postoperative mortality rate was 0% in both groups.
207                                  We compared postoperative mortality rates after inpatient surgery in
208 length-of-stay, postoperative morbidity, and postoperative mortality were unchanged (all P > 0.05).
209 traoperative adverse events (iAEs) on 30-day postoperative mortality, 30-day postoperative morbidity,
210 ite similar pre-existing rates and trends of postoperative mortality, hospitals in South Carolina com
211 mg/L [p < .01]) time points, but not 1 month postoperative (MPD 2.72 mg/L, -0.66 mg/L, 1.10 mg/L).
212                                   However, a postoperative multimodality evaluation, including a cons
213 rgery, second eye surgery resulted in higher postoperative NEI-VFQ scores for nearly all traditional
214      These preliminary findings suggest that postoperative neurocognition is predictive of subsequent
215 value following extensive surgery and longer postoperative observation up to 3 months.
216                       BCVA, pre-, intra- and postoperative OCT were performed along with standard ocu
217  dexamethasone eye drops in the treatment of postoperative ocular inflammation.
218 oid overdose (OD) and identify predictors of postoperative OD.
219 Among 11,317,958 patients, 9458 (0.1%) had a postoperative OD; this frequency doubled over the study
220  Patients received complete preoperative and postoperative ophthalmic examinations for first eye and
221  national trends and outcomes of in-hospital postoperative opioid overdose (OD) and identify predicto
222 ith standard management, reduced the risk of postoperative organ dysfunction.
223                     The relationship between postoperative outcome and preoperative pathology of whit
224 y very low-volume surgeons resulted in worse postoperative outcomes and greater lengths of stay.
225                       Data were analyzed for postoperative outcomes and the impact on blindness and v
226 andomized clinical trial demonstrated better postoperative outcomes at 6 months when subjects receive
227                   Thus, we sought to compare postoperative outcomes following administration of 2 ant
228 xtent to which chronic opioid use influences postoperative outcomes following elective surgery is not
229                    To compare disparities in postoperative outcomes for African Americans after surgi
230                                         Poor postoperative outcomes in TT surgery were associated wit
231                                   To compare postoperative outcomes of minimally invasive gastrectomy
232 ncreatic fistula development and other major postoperative outcomes.
233              Team members were masked to the postoperative outcomes.
234 se of high-risk grafts is pressuring current postoperative outcomes.
235 al Coherence Tomography (PIONEER) study with postoperative outcomes.
236 ng to LOS mode, a measure least sensitive to postoperative outliers.
237                                              Postoperative pain and consumption of opioids and analge
238 py has been associated with markedly reduced postoperative pain but has not been widely applied to to
239  the 5th vital sign, increasing the focus on postoperative pain control.
240 or (6) moderate-to-low trajectories based on postoperative pain scores.
241                                              Postoperative pain trajectories identify populations at
242 s play an important role in the treatment of postoperative pain; however, unused opioids may be diver
243  relationship between donor HbA1c levels and postoperative pancreas graft survival.
244  risk of ductal injury and increased risk of postoperative pancreatic fistula formation.
245 on, sepsis, and disease-specific survival in postoperative patients.
246                         Primary endpoint was postoperative pelvic sepsis within 30 postoperative days
247 e total burden of complications in the early postoperative period after liver transplantation (LT) be
248 CRIs, the anterior KA decreased in the early postoperative period and remained stable thereafter and
249                                       In the postoperative period, 28% and 21% of the patients in eac
250 on, and glaucoma are major challenges in the postoperative period; however, the keratoprosthesis can
251                 Through blinded profiling of postoperative plasma, we observe evidence of adjuvant ch
252                                              Postoperative prescription opioids often go unused, unlo
253                                              Postoperative pulmonary complications (PPCs), a leading
254                                              Postoperative pulmonary complications are common in pati
255 levels at these times and the rate of 30-day postoperative pulmonary complications.
256                       For the entire cohort, postoperative radiation was associated with a statistica
257 n overall survival (OS) from the addition of postoperative radiation with or without chemotherapy aft
258 ents selected, of whom 1153 (23.6%) received postoperative radiation.
259 erior to sequential chemotherapy followed by postoperative radiotherapy (C-->PORT).
260 nvasive esophagectomy (MIE) has shown faster postoperative recovery and a marked decrease in pulmonar
261 e hospital setting and development of better postoperative recovery programs for cancer patients are
262 he adverse survival effects of a complicated postoperative recovery.
263  fluid management and their association with postoperative recovery.
264 or the adverse consequences of a complicated postoperative recovery.
265 ay 2, Olsen, and SRK/T) in the prediction of postoperative refraction using a single optical biometry
266  (LV) remodeling and myocardial fibrosis and postoperative remodeling and symptomatic benefit.
267 fic effort should be dedicated to preventing postoperative renal failure.
268 equivalent was associated with lower odds of postoperative respiratory complications (odds ratio, 0.5
269                                              Postoperative respiratory complications occurred in 6,97
270 halational anesthetic dose on risk of severe postoperative respiratory complications.
271                     SUMMARY BACKGROUND DATA: Postoperative respiratory failure (RF), defined as venti
272 e cancers were significantly associated with postoperative response to androgen deprivation therapy (
273 ular surgery, postoperative endophthalmitis, postoperative retinal detachment, reoperation within 30
274  primary outcome was early (<30 days) severe postoperative RHF, defined as receiving short- or long-t
275 oing abdominal surgery who were at increased postoperative risk, management targeting an individualiz
276                                              Postoperative RLI was classified as grade 0 (none), 1 (m
277                 The SCAR scale that measures postoperative scar cosmesis, with scores ranging from 0
278 imited insight into the causes of persistent postoperative seizures in patients with temporal lobe ep
279 icant difference was detected in the risk of postoperative shallow anterior chamber, which was increa
280 ction during surgery with their detection on postoperative SPECT/CT.
281 g of the profile reliably predicted pre- and postoperative status.
282                                              Postoperative surgical and geriatric complications.
283  May 18, 2012, except admissions for routine postoperative surveillance.
284 nts were 2 to 8 times more likely to receive postoperative systemic chemotherapy compared with older
285 ociation for its perceived ability to enable postoperative tooth-root growth, is being accepted world
286  guidelines make no definite statement about postoperative UDCA prophylaxis and most bariatric center
287  further reviewed to determine best recorded postoperative VA, time to NLP onset, clinical course, an
288                    To develop and evaluate a postoperative video-based coaching intervention for resi
289 ce of the anterior capsule edge was noted in postoperative visits under slit-lamp examination.
290                        Mean preoperative and postoperative visual acuities were similar (20/60 vs. 20
291 rative visual acuity as a predictor of final postoperative visual acuity outcome (r=-0.32; P = 0.09;
292                               Best-corrected postoperative visual acuity, postoperative complications
293 exclude anastomotic leakage during the first postoperative week.
294 th graft nonadherence rates within the first postoperative week.
295  of patients, highlighting the complexity of postoperative weight loss.
296 ld form part of the routine preoperative and postoperative workup.
297                     Secondary endpoints were postoperative wound infection, intra-abdominal abscess,
298 ssociation between the timing of surgery and postoperative wound infection, intra-abdominal abscess,
299 rences in recurrence, safety, or outcomes at postoperative year 1 were noted between the 2 treatment
300 was 87.5% (14 of 16 cases) in both groups at postoperative year 1.

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