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1 th clinically derived pacing settings in the postoperative period.
2 donor site pain compared to CTG at the early postoperative period.
3 nd a slower visual recovery in the immediate postoperative period.
4 d mortality persisted throughout the 20-year postoperative period.
5 thetist develop a comprehensive plan for the postoperative period.
6 t and remains relatively stable in the early postoperative period.
7 ycerol levels were observed in the immediate postoperative period.
8 and health, especially when it occurs in the postoperative period.
9 embolism devices and early ambulation in the postoperative period.
10 ns, and new challenges can arise in the late postoperative period.
11 rtially by the fever he developed during the postoperative period.
12 efit children with CHD needing pacing in the postoperative period.
13 t room temperature for 1 hr in the immediate postoperative period.
14 No patient required reoperation in the postoperative period.
15 95% CI, 0.10 to 0.33), many occurring in the postoperative period.
16 s can be successfully performed in the early postoperative period.
17 analyzed separately from patients not in the postoperative period.
18 ncreased risk of arrhythmia in the immediate postoperative period.
19 bypass, 28 bypass) survived to the immediate postoperative period.
20 instability when they occur in the immediate postoperative period.
21 artery and the portal vein during the early postoperative period.
22 ponade and with no face-down position in the postoperative period.
23 d renal function were analyzed over a 14-day postoperative period.
24 of whom died during surgery or in the early postoperative period.
25 and keratocyte replacement during the early postoperative period.
26 cs, with less attention given to the initial postoperative period.
27 of transplantation and during the immediate postoperative period.
28 of vascular patency for up to 7 days in the postoperative period.
29 88 patients had perigraft leak in the acute postoperative period.
30 to the risk of rupture, particularly in the postoperative period.
31 s associated with biliary leaks in the early postoperative period.
32 life-threatening condition be managed in the postoperative period.
33 atient developed aspiration pneumonia in the postoperative period.
34 idence of cardiac complications in the early postoperative period.
35 Of these 114, 13 died in the early postoperative period.
36 resence of moderate or worse MR in the early postoperative period.
37 normal unoperated fellow eye throughout the postoperative period.
38 pair and subsequently developed in the early postoperative period.
39 ks, or esophageal complications in the early postoperative period.
40 (P<.001) and remained lower during the early postoperative period.
41 l vein thrombosis developed in the immediate postoperative period.
42 the prediction of subsequent PI in the early postoperative period.
43 also showed significant improvement over the postoperative period.
44 res appropriate spinal cord perfusion in the postoperative period.
45 after transplantation died in the immediate postoperative period.
46 stically significant decline over the 1-year postoperative period.
47 ential diagnostic and therapeutic use in the postoperative period.
48 e obtained intraoperatively and in the early postoperative period.
49 mportant to recognize intramural VSDs in the postoperative period.
50 patients reduce pain and anxiety during the postoperative period.
51 ing the use of low-dose heparin in the early postoperative period.
52 rs has not been as rigorously studied as the postoperative period.
53 nsity of the cone photopigments in the early postoperative period.
54 may reduce ECL, but likely only in the early postoperative period.
55 KT width and TKT parameters at the 12-month postoperative period.
56 rms of the incidence of SSIs within a 30-day postoperative period.
57 tant Staphylococcus aureus (MRSA) during the postoperative period.
58 s), and all patient outcomes improved in the postoperative period.
59 e better survival, most notably in the early postoperative period.
60 , particularly the prognosis after the early postoperative period.
61 ed the importance of early ambulation in the postoperative period.
62 ude of association was greatest in the early postoperative period.
63 intubated and mechanically ventilated in the postoperative period.
64 atogenous retinal detachment occurred in the postoperative period.
65 ive management of major complications in the postoperative period.
66 gn body sensation over baseline in the early postoperative period.
67 yolysis of the paraspinal muscles during the postoperative period.
68 either intraoperatively or in the immediate postoperative period.
69 om the time of listing through the peri- and postoperative period.
70 ajor morbidity at any time within the 30-day postoperative period.
71 symptomatic thromboembolic disease is in the postoperative period.
72 h pronounced electrolyte disturbances in the postoperative period.
73 b groups, and none occurred in the immediate postoperative period.
74 ophylactic measures and vigilance during the postoperative period.
75 the incidence of nausea and vomiting in the postoperative period.
76 endations specific to the intraoperative and postoperative periods.
77 ications were frequent in the early and late postoperative periods.
78 and utilization in the short- and long-term postoperative periods.
79 or reoperation during the perioperative and postoperative periods.
80 surgery that can occur in the early or late postoperative periods.
85 tients required reoperation in the immediate postoperative period (3.5%), most commonly for bleeding,
89 detomidine was administered in the immediate postoperative period after 468 (29%) surgical procedures
90 l in preventing ischemic stroke in the early postoperative period after biological aortic valve repla
91 ting cerebral microembolization in the early postoperative period after bioprosthetic aortic valve re
92 e total burden of complications in the early postoperative period after liver transplantation (LT) be
94 pacing in children and infants in the early postoperative period after open heart surgery for congen
98 gastrointestinal tract in the early and late postoperative period, allowing correct interpretation of
99 urine treatment seems to be justified in the postoperative period, although smoking cessation should
100 so that they can be monitored closely in the postoperative period and available treatments targeted t
101 r or documented infections, in the immediate postoperative period and between 7 and 14 days after tra
103 reduces opioid requirements in the immediate postoperative period and may convey a morbidity and mort
104 c leaks are frequently diagnosed late in the postoperative period and often after initial hospital di
105 CRIs, the anterior KA decreased in the early postoperative period and remained stable thereafter and
106 between dexmedetomidine use in the immediate postoperative period and subsequent arrhythmia developme
107 n groups over the preoperative and immediate postoperative periods and at 8 and 26 weeks postsurgery.
108 le anesthetics during the intraoperative and postoperative periods and imply an important role of TGF
109 graft loss) that occurred outside the early postoperative period, and (3) death (or graft loss) due
110 urred at a relatively high rate in the early postoperative period, and fever was not a major indicato
111 ressure variation was lower during the early postoperative period, and postoperative complications we
112 lasma sRAGE levels measured in the immediate postoperative period are associated with the development
114 embolism devices and early ambulation in the postoperative period between January 2000 and September
115 f this technique is not limited to the early postoperative period, but it can be successful as much a
116 mmon in the immediate group during the early postoperative period, but not at later time points.
119 ocular pressure (IOP) reduction in the early postoperative period compared with tube-shunt placement,
122 s 33 continued to seize beyond the immediate postoperative period, during a mean 3.8-y follow-up inte
123 clinical AMR, particularly after the initial postoperative period (first 4 months and last 8 months P
125 urgery and after extubation in the immediate postoperative period for patients with normal pulmonary
127 l owing to a presumed heightened risk in the postoperative period from SSc-related gastroesophageal r
128 f of patients transfused with FFP during the postoperative period had an INR of less than 1.7, indica
132 on, and glaucoma are major challenges in the postoperative period; however, the keratoprosthesis can
133 Pupillary block was observed in the early postoperative period in 7 patients (11.66%) in whom C3F8
135 ain management during the intraoperative and postoperative period in children who undergo surgery.
136 rgery but were markedly lower throughout the postoperative period in patients receiving clonidine.
137 avoid cyclosporine therapy during the early postoperative period in six renal transplant recipients
139 utilized during the operative and immediate postoperative period in the LVAD and ECMO patient popula
140 y that was particularly notable in the early postoperative period, in younger patients, and after joi
141 ion was seen in 8 (22.2 %) patients in early postoperative period, intraocular pressure elevation was
144 ioperative events; however, their use in the postoperative period is logistically difficult and costl
145 gh dexmedetomidine exposure in the immediate postoperative period is not associated with a clinically
147 s that allow earlier diagnosis of AKI in the postoperative period may increase the success of therape
148 dition, quality of recovery in the immediate postoperative period may predict long-term quality of li
149 e data suggest low-dose heparin early in the postoperative period may provide a protective benefit in
150 st that the use of such a formula during the postoperative period may reduce the number of infections
151 acular holes that fail to close in the early postoperative period need to be re-operated and there ma
152 k of those patients having >20 emboli in the postoperative period (odds ratio, 10.23; 95% CI, 1.3 to
155 ostoperatively and maintained for the 2-week postoperative period of observation; IL-1beta expression
156 bes the long-term follow up over a 3-10-year postoperative period of the patients, grafted and non-gr
157 o receive systemic steroids in the immediate postoperative period or had a history of bacterial or fu
158 sent as acute IOP elevation during the early postoperative period or, more commonly, late onset of IO
159 logMAR BCVA continuosly improved during the postoperative period (P = .006), CFT was found increased
161 e G6PDd group had lower trough hemoglobin in postoperative period (P = 0.006), greater drop in postop
162 was better in the control group in the early postoperative period (P = 0.029), however the final visu
163 , and 67% fewer additional procedures in the postoperative period (P=0.006) than those in the nonfene
164 ated arrhythmia can also present in the late postoperative period, particularly in association with s
165 tification for SCD should occur early in the postoperative period, particularly in patients with incr
166 oietic chimerism is present in the immediate postoperative period, persistent, long-term chimerism do
167 he BCPS or pulmonary blood flow in the early postoperative period: Procedures included take-down of t
169 rticularly IL-18 and KIM-1, in the immediate postoperative period provide additional prognostic infor
172 RCl) was calculated for the preoperative and postoperative periods; renal dysfunction was prospective
173 Patients with decreased HLA-DR in the early postoperative period represent a subpopulation at greatl
174 eine and tramadol are frequently used in the postoperative period, research suggests morphine provide
175 th pulmonary hypertension, inhaled NO in the postoperative period selectively reduces PVR and enhance
177 If the abdomen is not closed in the early postoperative period, the combination of adhesions and f
178 aft z score increased significantly from the postoperative period to 1 year for both the annulus (0.7
179 -LFA-1 mAb monotherapy in the pre- and early postoperative period to promote solid organ allograft su
180 unction parameters, and FK 506 levels in the postoperative period up until either discharge or graft
181 f posttonsillectomy hemorrhage in the 14-day postoperative period using a bleeding severity scale (le
182 Any membrane exposure during this 6-month postoperative period was deemed a failure, even if the s
186 al rate for patients surviving the immediate postoperative periods was 77% for the standard resection
187 experiences with the surgical procedure and postoperative period were evaluated with a questionnaire
188 ration is likely to be greatest in the early postoperative period when patients may experience increa
189 s of appetite and stopped growing during the postoperative periods while controls had normal postoper
190 half of patients (48.0%) received FFP in the postoperative period with an INR trigger less than 1.7.
191 of anterior stromal keratocytes in the early postoperative period, with complete regeneration of the
192 y better in the study group in the immediate postoperative period, with fewer long-term differences.
193 o the excluded stomach occurred in the acute postoperative period (within 2 months) in 25 of the 48 p
194 estration was placed or clipped in the early postoperative period without cardiopulmonary bypass.
195 sized that inhaled nitric oxide (NO), in the postoperative period, would a) selectively reduce pulmon
196 improve outcomes when commenced in the early postoperative period, yet the economic impact remains un
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