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1 ary vein malpositions and three right atrial malpositions).
2 llary vein malpositions and six right atrial malpositions).
3 ers (PICCs) at the bedside may result in tip malposition.
4 e initial procedure based on US detection of malposition.
5 rtant in determining the etiology of the lid malposition.
6 lopelvic disproportion, malpresentation, and malposition.
7  use due to a high incidence of unrecognized malpositions.
8 th TV-in-TV and TVE as a consequence of TAVR malpositioning.
9 al abnormalities involving cortical neuronal malpositioning.
10 cations were corneal decompensation (39.4%), malpositioned AC IOL (28.9%), uveitis (15.7%), glaucoma
11  2 patients required a second surgery (screw malposition and epidural hematoma).
12  of palatal shelf elevation caused by tongue malposition and micrognathia.
13  of the eyelid scaffold, resulting in eyelid malposition and ocular symptoms.
14 r Wilms tumor are at increased risk of fetal malposition and premature labor.
15 graphic imaging technique to detect catheter malposition and procedure-related pneumothorax.
16 on rule predicted either a complication or a malposition and, thus, the need for a chest radiograph.
17 s predicted to be free from complications or malpositions and not to require a postprocedural chest r
18 unexpected malpositions (three axillary vein malpositions and six right atrial malpositions).
19 six actual malpositions (three axillary vein malpositions and three right atrial malpositions).
20 f hypertension complicating pregnancy, fetal malposition, and premature labor.
21  evidence of lacrimal hypersecretion, eyelid malposition, and punctal or canalicular abnormalities.
22 initial furcation involvement, initial tooth malposition, and smoking when adjusted for initial progn
23 l potentially adverse events, including four malpositions, and guided appropriate remedial action.
24                                      Cardiac malposition associated with right ventricular hypoplasia
25 prestent RV:aortic pressure ratio, and stent malposition associated with shorter freedom from surgery
26 ble gastric banding include stomal stenosis, malpositioned bands, pouch dilation, band slippage, perf
27 tion in most patients, often due not only to malpositioning but also to leaflet dysfunction.
28 oled sensitivity and specificity of catheter malposition by ultrasound of 0.82 (0.77-0.86) and 0.98 (
29 e and negative likelihood ratios of catheter malposition by ultrasound were 31.12 (14.72-65.78) and 0
30     The only complication identified was one malpositioned catheter.
31                                There were no malpositioned catheters or complications related to guid
32 cal factors alone will not reliably identify malpositioned catheters.
33 d to assess for mechanical complications and malpositioned catheters.
34                                 Twenty-three malpositioned catheters/tubes were found in the prepathw
35 Cre;Erk2(fl/fl) mice exhibited microglossia, malposition, disruption of the muscle patterning and com
36 ely to document communication of results for malpositioned endotracheal and enteric tubes (2010, 58.5
37               When a central venous catheter malposition exists, bedside ultrasound will identify fou
38 s ophthalmopathy includes treatment of globe malposition (exophthalmos), strabismus, and eyelid abnor
39                     Complications related to malpositioned feeding tubes are usually preventable.
40    Multiple case reports of complications of malpositioned feeding tubes continue to surface; most ar
41 lumen tube positioning, and to identify fine malposition for generally missed by clinical signs.
42                                     Severely malpositioned implant fixtures may not permit restorativ
43  procedural outcomes included initial device malposition in 15.3% of cases and ostial coronary obstru
44 pection of the ipsilateral neck for PICC tip malposition in the IJ.
45 nd point was defined as the rate of PICC tip malposition in the ipsilateral IJ as detected by postpro
46 enum and duodenal-jejunal junction are often malpositioned in children with a left lobe or left later
47 PV, pressurized air from an infusion cannula malpositioned in the suprachoroidal space can transit th
48 inking, or knotting of the tube in 38 (14%), malpositioning in five (2%), retrograde flow in four (1%
49 ce of axillary vein or right atrial catheter malposition is 14%, and clinical factors alone will not
50 ecision rule for detecting complications and malpositions is 44%, and the specificity is 55%.
51 placement complications (n = 6, 3%) included malposition (n = 3), migration (n = 1), arrhythmia (n =
52                            Patients with THV malposition (n = 7) were excluded.
53 plication (pneumothorax) and 15 catheter tip malpositions (nine in the right atrium and six in the ri
54 ring the 13-month study period, two catheter malpositions occurred.
55 our article was to present two rare cases of malposition of catheters and two displacements of cathet
56 at SAM of mitral leaflets is due to anterior malposition of slack mitral leaflet portions into the LV
57 mboses include previous catheter infections, malposition of the catheter tip, and prothrombotic state
58                                              Malposition of the CVC is not common.
59 42), early or threatened labor (ICD-644) and malposition of the fetus (ICD-652) increased with increa
60                                              Malposition of the fetus and early or threatened labor w
61 situs solitus, D = D-ventricular loop, L = L-malposition of the great arteries) (n = 6) and [S,L,D] (
62 defects including randomized heart position, malposition of the great arteries, and ventricular and a
63  congenital cardiac malformations, including malposition of the great arteries.
64  do not make OLT more difficult, but rarely, malposition of TIPS can significantly complicate OLT.
65 les include a displaced urethral opening and malposition of ureteral orifices in the bladder wall; af
66 festations include complex heart defects and malpositioning of abdominal organs.
67 during intentional and following inadvertent malpositioning of the electrode within the coronary veno
68 me of transplantation are usually limited to malpositioning of the stent requiring modification of th
69 ve fully informed consent and who had no lid malpositions or canalicular pathology.
70  Safety and efficacy concerns include device malposition, ostial coronary obstruction, and high gradi
71     The complications followed were catheter malposition, pneumothorax, hemothorax, and cardiac tampo
72 fied 11 operated eyes of 7 patients with lid malposition resulting from mucous membrane pemphigoid, p
73       Procedural complications including THV malpositioning, second THV requirement, or coronary obst
74      There were no deaths, and, aside from 5 malpositioned stents requiring surgical removal, there w
75 obility, unsatisfactory crown-to-root ratio, malpositioned teeth, and teeth used as fixed abutments r
76 redicted to have a potential complication or malposition, there were one actual complication (pneumot
77 chest radiograph, there were nine unexpected malpositions (three axillary vein malpositions and six r
78 l complication (pneumothorax) and six actual malpositions (three axillary vein malpositions and three
79 plained free-intraperitoneal air (29.5%) and malpositioned tubes (30.4%).
80                   A recent study showed that malpositioned tubes are not routinely recorded in risk m
81 cts in this maturation process can result in malpositioned ureters and hydronephrosis, a common cause
82 tibiofemoral joint, each measure of meniscal malposition was associated with an increased risk of car
83                                          CVC malposition was detected with different imaging modaliti
84 utflow limbs of the looped cardiac tube were malpositioned with respect to each other, the inner curv
85          In another patient, the Viatorr was malpositioned, with its distal end being placed in the b

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