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1 acuity, and transient hypotony (requiring no surgical intervention).
2 spitalizations, and medical, endoscopic, and surgical interventions).
3 course of disease and, perhaps, the need for surgical intervention.
4 Of those referred, 1276 (87.0%) underwent surgical intervention.
5 ssion to severe TR and the need for a second surgical intervention.
6 ral for surgery and receipt of a recommended surgical intervention.
7 d conservative treatment and rarely requires surgical intervention.
8 ing of seizures and to improve therapies for surgical intervention.
9 episode of intestinal obstruction requiring surgical intervention.
10 dy surface area burns requiring at least one surgical intervention.
11 ccur in rare cases, most cases require early surgical intervention.
12 mated survival of 85% at 5 years after first surgical intervention.
13 ker and thus reduced the need for additional surgical intervention.
14 the likelihood of nonsurgical management vs surgical intervention.
15 rocedural deaths, serious adverse events, or surgical intervention.
16 with antimicrobial therapy, with or without surgical intervention.
17 a2b therapy and 49 of whom were treated with surgical intervention.
18 eveloped symptomatic heart failure requiring surgical intervention.
19 eoadjuvant and adjuvant settings, along with surgical intervention.
20 nal adipose tissue samples were collected at surgical intervention.
21 odal therapy is composed of chemotherapy and surgical intervention.
22 d compression, or tumour-related orthopeadic surgical intervention.
23 eatment may be performed prior to additional surgical intervention.
24 entional treatment groups (P = 0.98) for non-surgical intervention.
25 .96; 95% CI, 0.92-0.99) were associated with surgical intervention.
26 commonly seen but can require medical and/or surgical intervention.
27 body surface area and required at least one surgical intervention.
28 body surface area burn requiring at least 1 surgical intervention.
29 itoring and those who may benefit from early surgical intervention.
30 iction and selection of patients for earlier surgical intervention.
31 ments are important to plan therapy, such as surgical intervention.
32 Patients who failed ERCP were referred for surgical intervention.
33 ality-of-life and sexual-activity scores and surgical intervention.
34 d to the intensive care unit and 10 required surgical intervention.
35 ully treated without appendicectomy or other surgical intervention.
36 lderly patients will benefit most from early surgical intervention.
37 NA hypermethylation in CD patients requiring surgical intervention.
38 with HPVG that do not necessarily require a surgical intervention.
39 tly led to intestinal obstructions requiring surgical intervention.
40 Three of 11 patients did not respond to surgical intervention.
41 erebellar nuclei as a therapeutic target for surgical intervention.
42 tive treatment and hence reduce the need for surgical intervention.
43 inoma (HCC), but disparities exist in use of surgical intervention.
44 d describe a clinical momentum that promotes surgical intervention.
45 ma, tumor, or infection may not heal without surgical intervention.
46 ly 1 patient with HPVG required an immediate surgical intervention.
47 nti-inflammatory rescue treatment or primary surgical intervention.
48 e, patients with CD should be considered for surgical intervention.
49 rome in the mouse without pharmacological or surgical intervention.
50 disease in an immune-competent host prior to surgical intervention.
51 ave no suitable transgenic animal models for surgical interventions.
52 rome of the arm and had to receive multistep surgical interventions.
53 creased systemic burden from higher rates of surgical interventions.
54 he conduct and reporting of meta-analyses of surgical interventions.
55 and the cost-effectiveness of fairly simple surgical interventions.
56 nging and we discuss genetic counselling and surgical interventions.
57 rily a physical consequence of the cleft and surgical interventions.
58 es for evaluating patients prior to vascular surgical interventions.
59 trials comparing bariatric surgery with non-surgical interventions.
60 121 independent CERs in seven categories of surgical interventions.
61 clude chemotherapeutic, radiation-based, and surgical interventions.
62 of the V710 vaccine for patients undergoing surgical interventions.
63 lise, leading to difficulties in planning of surgical interventions.
64 ones and muscle fatigue during simulation of surgical interventions.
65 Seven reliable reviews (64%) assessed surgical interventions.
66 of anatomical structures in complex visceral-surgical interventions.
67 imary hemolysis events, 24 were treated with surgical interventions.
69 ed stent-graft, and 10 patients necessitated surgical intervention (2.3%), which was associated with
70 from 50 patients undergoing intra-abdominal surgical interventions [40 men, 10 women, aged between 3
71 =mild residual PVL had lower rates of repeat surgical interventions (6% versus 17%; P=0.004) and lowe
73 nti-inflammatory rescue treatment or primary surgical intervention (adjusted hazard ratio [HR] 0.54,
74 osis were less likely to receive recommended surgical intervention (adjusted odds ratio = 0.27; 95% c
77 ignificantly different than those undergoing surgical intervention after 3 months, 0.18+/-0.27 (20/30
79 ent include behavioral, pharmacological, and surgical interventions, all of which can result in a red
80 rol, surgeons may be able to perform certain surgical interventions alone; this would reduce the need
81 lic dysfunction usually improves with timely surgical intervention, although surgery does not always
82 he 75 patients admitted, 54 underwent urgent surgical intervention and 12 (22%) underwent amputation
84 y remained high despite combined medical and surgical intervention and chronic suppressive antimicrob
85 nce the goals for determining the success of surgical intervention and how patients with such misalig
86 Diamond burr polishing is the most common surgical intervention and is effective in a majority of
87 re syndrome can lead to an immediate, proper surgical intervention and is necessary to prevent compli
88 useful in selecting appropriate patients for surgical intervention and may help to define a populatio
89 Similarly, despite technological advances in surgical intervention and modifications in surgical tech
90 mation were collected, as well as details of surgical intervention and postoperative posturing advice
91 eath occurred in 21/24 patients treated with surgical interventions and in 13/25 who remained on medi
92 astric bypass was associated with additional surgical interventions and nutritional deficiencies.
95 ges are still not seamlessly integrated into surgical interventions and, thus, remain separated from
96 e failed ERCP (later treated successfully by surgical intervention) and two were false-positive cases
97 i.e. predicting response to pharmacologic or surgical interventions) and diagnostic potential (for in
100 present in most patients with CRS undergoing surgical intervention, and its presence is associated wi
101 ferral for surgery as a potential barrier to surgical intervention, and little is known about the eff
102 pain management, the role of endoscopic and surgical intervention, and the use of pancreatic enzyme-
103 c examinations, imaging results, medical and surgical interventions, and clinical complications were
105 assessing the reporting quality of trials of surgical interventions, and explored associated trial le
106 oral and enzyme-linked immunosorbent assays, surgical interventions, and intrathecal antisense treatm
108 were device-related complications requiring surgical intervention, appropriate and inappropriate ICD
111 on of appropriate antimicrobials, and timely surgical intervention are key to successful treatment.
112 ors that are resistant to medical therapies, surgical interventions are available and typically targe
114 Our findings suggest that many essential surgical interventions are cost-effective or very cost-e
117 The likelihood of receiving no surgery vs surgical intervention as a function of demographic and d
120 dren aged 6 to 11 years undergoing a planned surgical intervention at a third-level Italian pediatric
121 Diverticulitis recurrence was defined as surgical intervention at any time for diverticular disea
122 ns, consideration should be given to earlier surgical intervention before extensive subretinal exudat
124 ally been a last resort, some advocate early surgical intervention but the optimal time remains unkno
125 ts and harms of a broad range of medical and surgical interventions, but the heterogeneity and lack o
126 pancreatitis and its local complications and surgical intervention can be considered early in careful
127 iatric orbital cellulitis, the likelihood of surgical intervention can be estimated accurately based
128 ation is a rare event that in the absence of surgical intervention, can lead to uncontrolled sepsis,
129 August 15, 2014, to March 9, 2015, of 59,928 surgical interventions carried out from January 1, 2012,
130 analysis included all patients who underwent surgical intervention (categorised into groups as treate
131 luate the benefits, risks and costs of early surgical intervention compared to the current stepwise p
135 omparative effectiveness of surgical and non-surgical interventions could help to mitigate regional v
136 remain unclear, with many patients requiring surgical intervention despite optimal medical management
139 en and how to transition from nonsurgical to surgical interventions; effective ways to engage patient
140 of patients without other ocular pathology, surgical intervention effectively provided rapid visual
141 ant and understudied role in determining the surgical interventions elderly patients with serious ill
142 sts were calculated for hospital admissions, surgical interventions, endoscopies, PN, and immunosuppr
144 id annulus at the time of a left-sided valve surgical intervention, even if regurgitation is mild.
147 e a lesser role for aggressive antibiotic or surgical intervention for chronic or recurrent diverticu
149 or cerebrovascular event or need for cardiac surgical intervention for device-related complications d
150 A total of 8 untreated eyes (2.3%) required surgical intervention for elevated IOP compared with 93
152 nwide cohort study of every infant requiring surgical intervention for NEC in the UK was conducted be
157 S AND We reviewed all patients who underwent surgical intervention for tetralogy of Fallot and major
158 explore medical therapies as alternatives to surgical intervention for the treatment of ectropion in
162 ditions, thyrotropin levels, and medical and surgical interventions for management of hyperthyroidism
163 trials comparing any form of conservative or surgical interventions for patients with clinical and/or
164 were eligible for inclusion if they compared surgical interventions for primary treatment of HD in re
165 thesize scientific evidence on the effect of surgical interventions for removal of mandibular third m
166 well-being are more salient than medical or surgical interventions for the remarkable decrease in in
167 ve surgery and, more recently, non-resective surgical interventions for the treatment of drug-resista
168 urrent and potential pharmacotherapeutic and surgical interventions for the treatment of obesity and
170 VIEW: A recent Cochrane systematic review of surgical interventions for trigeminal neuralgia found no
171 tions) vs revascularization (endovascular or surgical) intervention for IC in the community, focusing
172 e patient will be randomized to either early surgical intervention (group A) or optimal current step-
174 eted botulinum toxin injection and selective surgical intervention has reduced the burden of long-ter
179 gnificantly related to recurrence: number of surgical interventions (hazard ratio 0.9, 95% confidence
180 cal outcome associated with stroke and acute surgical intervention highlights the importance of the n
182 injuries, whereas others suggest aggressive surgical intervention if acute compartment syndrome is e
183 s based on topical drugs, laser therapy, and surgical intervention if other therapeutic modalities fa
184 , patients with chronic pancreatitis undergo surgical intervention in a late stage of the disease, wh
185 lleviate the condition remains the commonest surgical intervention in children in the developed world
187 cending aortic dilatation that would justify surgical intervention in patients with bicuspid aortic v
188 surgeons appears to lower the threshold for surgical intervention in specific upper gastrointestinal
189 earing are the most frequent indications for surgical intervention in sports injuries and an understa
190 r of cases in the clear-graft group required surgical intervention in the form of corneal gluing and
192 erative outcomes for African Americans after surgical intervention in the universally insured militar
195 t modalities range from potentially curative surgical interventions in localized disease to the use o
196 of favourable cost-effectiveness analyses of surgical interventions in low-income and middle-income c
197 is of cost-effectiveness studies that assess surgical interventions in low-income and middle-income c
198 y was to investigate incidence and causes of surgical interventions in primarily nontreated aortic se
199 te analysis, factors significantly affecting surgical intervention included initial acute physiology
200 factors at presentation, the probability of surgical intervention increases from 7% (95% confidence
201 sought to identify patient characteristics, surgical interventions, institutional characteristics, r
203 rvice was associated with a delay in time to surgical intervention (IRR = 1.84, 95% CI = 1.69, 2.01),
206 EN 2B components are quickly appreciated and surgical intervention is performed before patients turn
214 ter failed goniotomy surgery or as a primary surgical intervention may offer a phakic infant with gla
219 ntroduced alone (n=2) or in conjunction with surgical intervention (n=5) in an attempt to rescue pati
220 e trial of what is becoming the most popular surgical intervention, namely microvascular decompressio
221 of clinical trials, including ones involving surgical interventions, NODES provides VA surgeons with
222 e know that major glenoid bone loss requires surgical intervention, none of the studies performed so
228 e approach to the management of DCIS without surgical intervention or radiation therapy may be advisa
230 hylene blue in the iliac nodes; mice without surgical intervention or with sham LN excision consisten
232 significantly reduced the number of planned surgical interventions (P < .001), modified the surgical
233 zation and need for retreatment sessions and surgical intervention, pain perception, and procedure ti
234 arger with self-selected music, and lower in surgical interventions performed under general anesthesi
235 included glaucoma diagnosis, age at surgery, surgical interventions, preoperative/postoperative IOP a
238 of 150 meta-analyses of randomized trials of surgical interventions published between January 2010 an
239 mental health, injuries, chronic conditions, surgical interventions, rehabilitation, and palliation.
242 is for these IE patients that the timing of surgical intervention remains a point of considerable di
243 f small, deep tumors for early diagnosis and surgical interventions remains a challenge for conventio
244 which were treated pharmacologically with no surgical intervention required and 1 that required revis
245 aging for disease screening and image-guided surgical interventions requires brightly emitting, tissu
247 ng more frequently than annually with prompt surgical intervention seems to offer a better chance of
251 ally investigate the systemic effects of the surgical interventions, such as regulation of body weigh
253 BRAF V600E PLGGs provides an opportunity for surgical interventions, surveillance, and targeted thera
254 Younger individuals benefited more from surgical intervention than those who were older (p value
255 asures, disease surveillance, and medical or surgical interventions) that could be reasonably warrant
257 d for additional radiological, endoscopic or surgical intervention, the need for necrosectomy after d
258 of the disease, multiple complications, and surgical interventions, the majority of patients achieve
260 ning cases (57.7%) were deemed semielective (surgical intervention to be performed within 48 hours).
261 or hematoma, or the need for percutaneous or surgical intervention to control the bleeding event.
264 hat cause severe regurgitation need emergent surgical intervention to prevent disease progression.
266 nd our results could influence the choice of surgical intervention to remove all predisposing cells.
267 red clinical study, 88 patients who required surgical intervention to treat a qualifying infrabony pe
268 cent studies provide few novel approaches on surgical interventions to improve the postoperative outc
269 l means of testing potential therapeutic and surgical interventions to prevent graft stenosis and occ
270 n led to reduced hospitalization, medical or surgical intervention, transfusion, or change in antithr
272 TRAL) were searched for RCTs that assessed a surgical intervention using a comprehensive electronic s
273 h the preponderance of lesions is treated by surgical intervention, various strategies have been deve
274 he outcomes of hemolysis events treated with surgical interventions versus medical management alone.
275 Median interval from detection screen to surgical intervention was 79 days in prevalent and incid
283 eeded additional therapy, the mean number of surgical interventions was lower, and treatment time in
285 eceiving intratracheal normal saline without surgical intervention were also included as a negative c
295 Comprehensive medical, microbiological, and surgical interventions were required for diagnosis and t
296 analysis had improved SNOT-22 outcomes with surgical intervention when compared with continued medic
297 s resynostosis typically requires additional surgical intervention, which can be associated with a hi
298 six women (0.3%) in the placebo arm reported surgical intervention, which was significantly different
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