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1 raoperative dexmedetomidine does not prevent postoperative delirium.
2 of participants were women and 24% developed postoperative delirium.
3 , diffusion tensor imaging abnormalities and postoperative delirium.
4 or tests to establish a mouse model to study postoperative delirium.
5 ties and are at increased risk of developing postoperative delirium.
6 of atrial fibrillation, and the incidence of postoperative delirium.
7 ancer surgery and to determine predictors of postoperative delirium.
8  this analysis, 46 (9.2%) patients developed postoperative delirium.
9 strongest risk factor for the development of postoperative delirium.
10 he strongest predictor of the development of postoperative delirium.
11 tality, were worse in patients who developed postoperative delirium.
12  dexmedetomidine administration would reduce postoperative delirium.
13 perative infusion of dexmedetomidine reduces postoperative delirium.
14 R, 2.2; 95% CI, 1.4-2.7) was associated with postoperative delirium (adjusted OR, 17.0; 95% CI, 1.2-2
15 s in the elderly patient along with reducing postoperative delirium and cognitive dysfunction.
16 epressive disorder and found higher rates of postoperative delirium and postoperative confusion.
17                                  We examined postoperative delirium and the cognitive trajectory duri
18  to determine the predictive value of GA for postoperative delirium, and a multivariate model was bui
19 operative cognitive functions or who develop postoperative delirium are at risk of developing dementi
20                   There was no difference in postoperative delirium between the dexmedetomidine and p
21 on postoperative days 1 and 2, and evaluated postoperative delirium by the Confusion Assessment Metho
22                                  The risk of postoperative delirium can be quantified by the sum of p
23 en more frequently in the elderly, including postoperative delirium, functional decline, and the need
24                                              Postoperative delirium had occurred in 87% of those who
25 and of lifetime occupation), and the risk of postoperative delirium in 566 older adults (age >/=70 ye
26   Age was the only preoperative predictor of postoperative delirium in multivariate modeling (P < 0.0
27  effectiveness of ketamine for prevention of postoperative delirium in older adults.
28 rocedures, reconsideration of the problem of postoperative delirium in the elderly patient, and a gen
29 nd determine outcomes for the development of postoperative delirium in the elderly.
30 Yet clinicians fail to recognize and address postoperative delirium in up to 80% of cases.
31                        Primary outcomes were postoperative delirium incidence and severity during the
32  diffusion tensor imaging before surgery, on postoperative delirium incidence and severity, as well a
33 py, axial, mean and radial diffusivity) with postoperative delirium incidence and severity.
34                                              Postoperative delirium is a common and deleterious compl
35                 This study demonstrates that postoperative delirium is associated with a more complic
36                                              Postoperative delirium is associated with increased morb
37             We aimed to identify blood-based postoperative delirium markers in a nested case-control
38                                              Postoperative delirium occurred in 13 of 196 (6.6%) mHEL
39                                              Postoperative delirium occurred in 29 of 136 subjects (2
40                                              Postoperative delirium occurs in 10% to 60% of elderly p
41            Despite the significant impact of postoperative delirium on surgical outcomes and the long
42 and abnormal Mini-Cog test results predicted postoperative delirium on univariate analysis.
43 68; 95% CI, 0.54-0.84) and the occurrence of postoperative delirium (p = 0.002; odds ratio, 7.57; 95%
44 s postoperative cognitive decline (POCD) and postoperative delirium, perioperative beta-blockade and
45            Up to 40% of patients who develop postoperative delirium (POD) never return to their preop
46             Patients were assessed daily for postoperative delirium (primary outcome) and secondarily
47 reened for preoperatively, those who develop postoperative delirium should be followed up to enable e
48 asured by general cognitive performance, and postoperative delirium, the microstructural changes obse
49 he Geriatrics Service evaluates patients for postoperative delirium using the confusion assessment me
50                            To investigate if postoperative delirium was associated with the developme
51                             The incidence of postoperative delirium was significantly lower in the de
52 ression equation allowed for a prediction of postoperative delirium with a sensitivity of 71.19% and

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