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1 fection (UTI) must avoid inoculation-induced vesicoureteral reflex (VUR) yet still produce kidney and
2 , 2.47; 95% CI, 1.19-5.12), and grade 4 to 5 vesicoureteral reflux (0.60 per person-year; HR, 4.38; 9
3 ale (90%), 375 were white (78%), and 375 had vesicoureteral reflux (78%).
4 thral valves (four), urethral atresia (one), vesicoureteral reflux (one), and megacystis (one).
5                                      Primary vesicoureteral reflux (pVUR) is one of the most common c
6 he Randomized Intervention for Children with Vesicoureteral Reflux (RIVUR) Study and 295 controls, an
7 he Randomized Intervention for Children With Vesicoureteral Reflux (RIVUR) study, which will evaluate
8                                              Vesicoureteral reflux (VUR) (OMIM %193000), a common cau
9 INDINGS: The causal relationship between UTI-vesicoureteral reflux (VUR) and renal scarring has been
10  (UTI) and urinary tract abnormality such as vesicoureteral reflux (VUR) are given prophylactic antib
11 struction [ureteropelvic junction (UPJ)] and vesicoureteral reflux (VUR) have been identified and hav
12                                              Vesicoureteral reflux (VUR) is a risk factor for acute p
13                                              Vesicoureteral reflux (VUR) is diverse in its natural hi
14                                      Primary vesicoureteral reflux (VUR) is the most common congenita
15  in predicting acute pyelonephritis (APN) or vesicoureteral reflux (VUR) using the data of 288 patien
16 al-specific gene can therefore cause primary vesicoureteral reflux (VUR), a hereditary disease affect
17 d to ureteric bud (UB) induction defects and vesicoureteral reflux (VUR), although the mechanisms wer
18 the kidney and urinary tract (CAKUT) include vesicoureteral reflux (VUR).
19                          Among children with vesicoureteral reflux after urinary tract infection, ant
20 f pathology is lessened, however the risk of vesicoureteral reflux and consequent febrile urinary tra
21  have greatly increased our understanding of vesicoureteral reflux and provide a promise of novel non
22 ients as bulking agents for the treatment of vesicoureteral reflux and urinary incontinence.
23 ing obstruction, may also be associated with vesicoureteral reflux and/or obstruction of the bladder
24 reteroceles, along with the recognition that vesicoureteral reflux associated with ureteroceles can b
25 el noninvasive molecular diagnostic tests of vesicoureteral reflux by proteomics methodology.
26 le nature of bladder imaging in children for vesicoureteral reflux detection makes the search for non
27                    Traditional management of vesicoureteral reflux focuses on preventing renal compli
28 s in 298 individuals with confirmed UTIs and vesicoureteral reflux from the Randomized Intervention f
29 phylaxis decreased by 47% when adjusting for vesicoureteral reflux grade and bowel and bladder dysfun
30 trasonography imaging of the bladder to find vesicoureteral reflux has yet to be refined enough to be
31 ement of urinary tract infections (UTIs) and vesicoureteral reflux in children and examine new altern
32                             The treatment of vesicoureteral reflux in children has seen a shift from
33  an increasingly popular method for managing vesicoureteral reflux in children.
34 or detection of genetic mutations leading to vesicoureteral reflux in humans by studying differential
35 ion generates excessive apoptosis leading to vesicoureteral reflux in newborns, which underscores the
36 n may play an etiological role in congenital vesicoureteral reflux in otherwise normal children.
37                     The current diagnosis of vesicoureteral reflux involves voiding cystourethrograms
38                     The incidence of primary vesicoureteral reflux is about 1% to 2% of the general p
39 est that in some infants and older children, vesicoureteral reflux is associated with congenital stru
40                            The management of vesicoureteral reflux is evolving, with advocacy ranging
41  tract infection (UTI) risk in children with vesicoureteral reflux is largely unknown.
42                                              Vesicoureteral reflux is neither necessary nor sufficien
43        It has been shown that the finding of vesicoureteral reflux is variable and that single studie
44 enged the traditional paradigm of aggressive vesicoureteral reflux management with surgery or antibio
45                                    Bilateral vesicoureteral reflux of infected urine was induced in 1
46 ng UTIs but has not been investigated in the vesicoureteral reflux population.
47 sed to treat stress urinary incontinence and vesicoureteral reflux provide for similar rates of succe
48  voiding cystourethrogram to investigate for vesicoureteral reflux remains controversial.
49 eteral injection therapy, for patients whose vesicoureteral reflux requires correction, remains uncle
50 ications and seven (4.8%) patients developed vesicoureteral reflux requiring reoperation.
51                                Consequently, vesicoureteral reflux screening in siblings and offsprin
52 ve been tried as bulking agents to eliminate vesicoureteral reflux since the technique was introduced
53 he Randomized Intervention for Children With Vesicoureteral Reflux Study, a 2-year randomized clinica
54 he Randomized Intervention for Children with VesicoUreteral Reflux Study.
55 phritis and renal scarring may be related to vesicoureteral reflux that is missed by standard voiding
56 controlled trial involving 607 children with vesicoureteral reflux that was diagnosed after a first o
57 he Randomized Intervention for Children With Vesicoureteral Reflux trial and the Careful Urinary Trac
58                                              Vesicoureteral reflux was most common (15 patients).
59                                              Vesicoureteral reflux was simulated in four pigs, and 48
60       Although the presence of grade IV or V vesicoureteral reflux was the strongest predictor of ren
61 vel of greater than 40 mg/L, and presence of vesicoureteral reflux were all associated with the devel
62                         Sex and grade 1 to 3 vesicoureteral reflux were not associated with risk of r
63                           Early detection of vesicoureteral reflux will be valuable for prevention of
64  incontinence, decreasing surgical rates for vesicoureteral reflux, and decreasing recurrent urinary
65 phric blastema leads to renal hypodysplasia, vesicoureteral reflux, and ectopic ureters to name a few
66  of urinary leak, stricture, compression, or vesicoureteral reflux, and hospital costs were analyzed.
67 nary tract infections, indwelling catheters, vesicoureteral reflux, and immobilization hypercalcuria
68 ection (UTI) requiring antibiotics, grade of vesicoureteral reflux, and posttransplant bladder capaci
69  circumcision debate, dysfunctional voiding, vesicoureteral reflux, and the diagnosis and follow-up o
70 bnormal screening renal sonograms often have vesicoureteral reflux, but a normal sonogram does not re
71  demonstrated moderate success in correcting vesicoureteral reflux, but little is known about its imp
72 chard Wahl reviews urinary tract infections, vesicoureteral reflux, dysfunctional voiding, and approp
73                   Both knockouts experienced vesicoureteral reflux, hydronephrosis, renal dysfunction
74 ecent studies have shown that in grades I-IV vesicoureteral reflux, open surgical intervention compar
75 e of MRU for the assessment of urolithiasis, vesicoureteral reflux, renal trauma, and fetal urinary t
76 ance of VCUG in a pediatric porcine model of vesicoureteral reflux, total radiation exposure can be r
77 porary data regarding the natural history of vesicoureteral reflux, urinary tract infection and renal
78 nts of irreversible bladder dysfunction with vesicoureteral reflux, urinary tract infection and resul
79 s, to potentially milder conditions, such as vesicoureteral reflux.
80 ebrile urinary tract infection commonly have vesicoureteral reflux.
81  kidney after bladder warming would indicate vesicoureteral reflux.
82 velopment of renal scarring in children with vesicoureteral reflux.
83 reased the risk of urologic complication and vesicoureteral reflux.
84 s are ureteropelvic junction obstruction and vesicoureteral reflux.
85 he two approaches in low-grade (grades I-II) vesicoureteral reflux.
86 tive value for ruling out high-grade (III-V) vesicoureteral reflux.
87 l need to reexamine treatment modalities for vesicoureteral reflux.
88 cystourethrography has been used to rule out vesicoureteral reflux.
89 ant to prevent further damage, infection and vesicoureteral reflux.
90 place in the algorithm for the management of vesicoureteral reflux.
91 III genes result in the phenotype of primary vesicoureteral reflux.
92 hildren (112 of 117) had grade I, II, or III vesicoureteral reflux.
93 ortical scarring, and long term follow-up of vesicoureteral reflux.
94 er of the 23 piglets with surgically created vesicoureteral reflux.
95 nderwent cystourethrography (117 of 302) had vesicoureteral reflux; 96 percent of these children (112

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