1. Vesicoureteral Reflux
Pediatric Conference
9/18/2006

2. Vesicoureteral Reflux (VUR)
Definition
Retrograde flow of urine from the bladder through the incompetent UV valve
Low-pressure reflux
VUR that occurs during bladder filling
High-pressure reflux
VUR that occurs during micturition
May occur during bladder filling, voiding or both

3. Incidence Estimated at >10% Incidence of VUR in children with a UTI
Less than 1 year of age: 70%
4 years old: 25%
12 years old: 15%
Adult: %
Percent decrease likely due to spontaneous resolution, resulting from bladder growth and elongation of the ureteral tunnel
17.2% prevalence in children without UTI hx

4. Incidence
Infants with antenatally detected VUR show a male preponderance
85% of VUR detected later in life occurs in females
Males presenting with UTI are more likely to have VUR
Boys tend to present at younger age
25% during the first 3 months of life
Often have more severe reflux
During first few months of life, uncircumcised males are 10x more likely to have a UTI.

5. Incidence As much as 80% of prenatally dx’d VUR occurs in boys
Usually high grade and bilateral in boys
Caucasian 10x > African-American
Grade and percent who resolve spontaneously equal once diagnosed

6. Etiology - Primary VUR Congenital anomaly of the UVJ
Deficiency of the longitudinal muscle of the intravesical ureter results in an inadequate valvular mechanism
Length of the intramural ureter to ureteral orifice diameter
5:1 normally
Less than 5:1 ratio, reflux occurs

7. Etiology - Secondary VUR
Bladder obstruction and increased pressure
Anatomic causes
Posterior Urethral Valves (50% have VUR)
Most common anatomic cause
Ureteroceles (can obstruct bladder neck)

8. Etiology - Secondary VUR
Functional causes - more common in both sexes
Neurogenic bladder
Spina bifida, sacral agenesis
Nonneurogenic neurogenic bladder
Acquired due to abnormal voiding patterns in a neurologically normal child
Bladder instability
Most common urodynamic abnormality associated with VUR

9. International Classification
Based upon contrast in the ureter & renal pelvis during VCUG
Grade I: Ureter only
Grade II: Ureter, pelvis, calyces, no dilation, normal calyceal fornices
Grade III: Mild or moderate dilation and/or tortuosity of the ureter, and mild or moderate dilation of the pelvis, but no or slight blunting of the fornices
Grade IV: Moderate dilation and/or tortuosity of the ureter and mild dilation of renal pelvis and calyces; complete obliteration of sharp angle of fornices but maintenance of papillary impressions in majority of calyces, but no or slight blunting of the fornices
Grade V: Gross dilation and tortuosity of ureter; gross dilation of renal pelvis and calyces; papillary impressions are no longer visible in majority of calyces

11. Grade I- ureter only

12. Grade II-Ureter, pelvis, calyces, no dilation, normal calyceal fornices

13. Grade III-Mild or moderate dilation and/or tortuosity of the ureter, and mild or moderate dilation of the pelvis, but no or slight blunting of the fornices

14. Grade IV- Moderate dilation and/or tortuosity of the ureter and mild dilation of renal pelvis and calyces; complete obliteration of sharp angle of fornices but maintenance of papillary impressions in majority of calyces, but no or slight blunting

15. Grade V- Gross dilation and tortuosity of ureter; gross dilation of renal pelvis and calyces; papillary impressions are no longer visible in majority of calyces

16. Grade I- ureter only

17. Grade II-Ureter, pelvis, calyces, no dilation, normal calyceal fornices

18. Grade III-Mild or moderate dilation and/or tortuosity of the ureter, and mild or moderate dilation of the pelvis, but no or slight blunting of the fornices

19. Grade IV- Moderate dilation and/or tortuosity of the ureter and mild dilation of renal pelvis and calyces; complete obliteration of sharp angle of fornices but maintenance of papillary impressions in majority of calyces, but no or slight blunting

20. Grade V- Gross dilation and tortuosity of ureter; gross dilation of renal pelvis and calyces; papillary impressions are no longer visible in majority of calyces

21. VCUG and US in newborn

22. VCUG: Bilateral reflux

23. Demographics of Reflux
Grade I: 5-8%
Grade II: 35%
Grade III: 25-35%
Grade IV: 15-25%
Grade V: 5%
50% of children with reflux will have bilateral VUR

24. Secondary VUR
Treatment of Secondary VUR often allows spontaneous resolution
Treatment goals are to decrease uninhibited contractions and lower pressure
Ditropan contributes to resolution and downgrading of VUR in 62%

25. Secondary VUR
Strong association between intravesical pressures > 40cm H20 and VUR in MM and NGB
VUR resolved or decreased in 55% of patients if leak point pressures < 40
If significant PVR is present, bladder emptying is necessary
Normal children without NGB
Double and timed voiding
Relaxation techniques
Biofeedback
Intermittent catheterization with anticholinergics
If medical management fails to decrease pressure, urinary diversion or augmentation may be necessary

26. Presentation & Diagnostic Evaluation
Most VUR patients present with infection
Newborn: Failure to thrive, lethargy
Older children: Fever, dysuria, frequency, lethargy, GI symptoms
Urine Culture in any child with fever or malaise
Bag: most common, least reliable (high false positive with contamination from skin and rectum)
Mid-stream urine: if toilet-trained
Catheterization = preferred
Suprapubic aspiration = most sensitive

27. Etiology of VUR - Lower UTI
Bladder inflammation decreases compliance
VUR occurs due to increased pressure and distortion of the UVJ
Gram negative endotoxins can cause ureteral atony
Some delay VCUG until UTI resolved
Avoid false positive
Sometimes VUR occurs only with UTI
Some perform while on antibiotics
VUR seen in % of children with UTI
30% already have evidence of parenchymal scar
Scarring can occur after 1 UTI
Fever not always present

28. Diagnosis VCUG and Renal U/S performed in:
Any child < 5 with documented UTI
Any child with febrile UTI regardless of age
Any boy with UTI unless sexually active
If no anatomic abnormalities are found
Reassurance that UTIs do not pose serious threat to upper urinary tract
Improve toilet hygiene

29. Cystography
VCUG
Important to evaluate presence of VUR during filling and voiding
Evaluate UVJ and urethra, post void, delayed images for drainage
Accuracy is improved by repeating several cycles of voiding and filling
Nuclear cystography
Less anatomic detail than VCUG
Helpful during follow-up
Less radiation (100-fold less)

30. Nuclear Cystography Grade 1,2, and 3 Reflux

31. Upper Tract Assessment
Ultrasound
Diagnostic study of choice in the initial evaluation of the upper tracts
Cannot rule out reflux
Assesses bladder and kidneys
Renal size
Parenchymal thickness
Presence of scars, hydro, renal or ureteral anomalies
Recommended annually for patients medically managed for VUR, to detect evidence of scarring

32. IVP Less commonly used Roughly measures function
Assess presence of scars and parenchymal thinning

33. Renal Scan
DMSA used to assess for pyelonephritis and cortical renal scars
98% specific 92% sensitive in detection of renal scars
Valuable when pyelonephritis is suspected but has not been proved

34. DMSA Scan: scarring in right kidney

35. Cystoscopy Limited role in diagnosis of VUR
Orifice configuration does not predict VUR
Indications for cystoscopy
Nonvisualization of entire urethra on cystogram
Uncertain about ureteral location or anomaly
Inconclusive radiographic definition of lower or upper tracts
Localization of paraureteral diverticulum
Performed in concert with planned surgical repair
Identify location of ectopic ureter
Paraureteral diverticulum

36. Post-Infectious Scarring
VUR predisposes the kidney to ascending UTI
Pyelonephritis often occurs without VUR
Patient Age
Risk of scarring greatest < 1 year
Uncommon > 5 years
“Big bang” - most severe renal injury occurs with first infection

37. Consequences of Reflux Nephropathy
Hypertension
Most common cause of severe hypertension in children and young adults
Renal scarring leads to ischemia and elevated renin
Hypertension is related to degree of VUR and severity of scarring
More profound with bilateral involvement
Resolution of VUR does not reverse predisposition to hypertension if scarring is present

38. Consequences of Reflux
Renal Growth
infection is the most likely cause of altered growth
reimplantation can accelerate growth - not to normal size
Renal Failure
Uncommon due to VUR alone < 1%
Implications of recurrent pyelonephritis
15-25% of children with ESRD in earlier studies
currently accounts for 2% ESRD cases
Somatic Growth
Children with VUR are small for age
Surgical correction of VUR and medically-controlled VUR can positively affect growth

39. Associated Anomalies UPJ Obstruction 5-25% will have VUR
0.8%-14% of VUR patients also have UPJ
Can not base management on VCUG alone (obstructed renal pelvis can cause over-grading of VUR)
High grade VUR can kink the ureter leading to UPJ
When renal scan shows obstruction, pyeloplasty rather than reimplantation
Correcting reflux risks amplifying obstruction - edema
Improve outflow may increase VUR resolution
Re-implantation may be necessary later

40. Associated Anomalies Ureteral Duplication
VUR is the most common abnormality associated with complete ureteral duplication
VUR is increased with duplication
Resolution of VUR appears to be the same as single systems
VUR more often in the lower pole ureter
Weigert-Meyer rule
Lateral and superior position with short submucosal tunnel

41. Associated Anomalies Bladder Diverticulum
Lateral and cephalad to the orifice
Disrupts UVJ anatomy - VUR
Small diverticulum
Resolution similar to primary VUR
Large diverticulum
Less likely to resolve

42. Pregnancy and Reflux
Pregnancy causes decreased bladder tone and physiologic dilation of upper tracts with increased urine volume and decreased flow.
Predisposes to bacteruria with propensity for pyelonephritis
In women with h/o reflux, increased risk of infection-related complications
Increased risk for HTN
With renal scarring, increased risk of preeclampsia

43. Spontaneous Resolution
Age- and VUR grade- dependent
Elongation of submucosal tunnel
Bladder and ureteral growth
Change of bladder dynamics
Larger capacity
Lower intravesical pressure

44. Spontaneous Resolution
Low Grade
Grade I: 82% at 5 years
Grade II:80% at 5 years
Intermediate Grade – III: 50% at 5 yrs
Grade IV: 25% at 5 yrs
Grade V
12% resolution
Grade III & IV management presents the most controversy

45. Spontaneous Resolution
Age at diagnosis
Younger children are more likely to have VUR
VUR is more likely to resolve in younger children
Intervals of significant growth and beneficial urodynamic change are most likely to effect change
Resolution usually occurs within the first few years after diagnosis
Rarely resolves if continued reflux after 5 years

46. Management Decision Making
Spontaneous resolution of VUR occurs in many infants and children - rarely at puberty
More severe grades are less likely to resolve
Sterile reflux does not appear to cause significant nephropathy
Extended courses of prophylactic antibiotics are well tolerated by children
Anti-Reflux surgery is highly successful in capable hands
95-99% success rate

47. Management Decision Making
Medical management initially recommended for prepubertal children with I, II, III
This also may be true for Grade IV - esp. in younger children with unilateral disease
If no trend in improvement is seen in years, surgery is recommended
Grade V is unlikely to resolve and surgery is recommended after infancy
Observation may be reasonable if diagnosed perinatally

48. Management Decision Making
Surgery recommended in most girls with persistent VUR
Implications for future pregnancies
Especially if recurrent infections or scars present
Some discontinue antibiotics at puberty in girls
Surgery if UTI occurs
Prophylaxis can be stopped at puberty in boys
Less likely to develop UTIs

49. Medical Management Amoxicillin/Ampicillin Bactrim Macrodantin
Birth - 6 wks
Bactrim
>6 wks
Biliary system matured
Macrodantin
> 2 months
Minimizes fecal resistance
Intermittent treatment not effective

50. Medical Management Treat dysfunctional voiding
timed voids/double voids
constipation
Yearly Radiologic Studies
U/S and Nuclear Cystography
D/C prophylaxis when Cystography shows no VUR
Complete reevaluation if develop pyelonephritis

51. Surgical Management: Indications for Surgery
Breakthrough UTIs on prophylactic antibiotics
Noncompliance with medical management
Severe VUR (Grade IV & V), especially with pyelonephrotic changes (evidence of scarring)
Failure of renal growth, new renal scars, or deterioration of renal function on serial studies
Persistent VUR in girls at puberty
Reflux associated with congenital abnormalities at the UVJ (e.g. bladder diverticulum)

52. Surgical Management Decreases the incidence of pyelonephritis
50% to 10%
UTI’s may persist
Bacteriuria in 40% of post-op patients

53. Surgical Management Creates valvular mechanism
Ureteral compression with bladder filling and contraction
Sufficient length and muscular backing
5:1 length to diameter

54. Surgical Management Techniques--infravesical Leadbetter-Politano Cohen
Supra hiatal
Intravesical
% success rate
Cohen
Cross-trigonal
Useful for correcting VUR in thickened small or neuropathic bladder
Procedure of choice with BN reconstruction
% success rate
Downside is difficulty with catheterizing UO’s
Glenn-Anderson: infrahiatal, intravesical; % success
Gil-Vernet: infrahiatal; 94% success

55. Cohen Cross-trigonal Technique

56. Cohen Cross-trigonal Technique: Bilateral Reimplantation

57. Glenn-Anderson technique

58. Gil-Vernet Technique

59. Surgical Management Lich-Gregoir Extravesical 90 - 98% success rate
Advantages are
Does not involve urinary contamination
Less chance of bladder spasm/hematuria
Less invasive, shorter hospital stay
Disadvantages include potential for damage to nerves, leading to urinary retention in 4-36% of cases

60. Lich-Gregoir Extravesical Technique

61. Endoscopic Management
Deflux (Detranomer microspheres with sodium hyaluronan, a polysaccharide)
62-88% success for Grade III and IV reflux, respectively in short term follow-up2
Silicone Microimplants
Migration and safety concerns exist
Teflon
Not widely used due to concerns regarding local and distant migration
Collagen
Not approved in the US
2 Stenberg and Lackgren. J. Urol, 1995, 154:

62. Laparoscopic Management
Advantages
Smaller Incisions
Less Discomfort
Brief Hospitalization
Quicker convalescence
Disadvantages
Learning curve
Intraperitoneal vs. extraperitoneal
Instrumentation limited for pediatric use
Increased operative time
Increased cost with length of procedure and disposable equipment

63. Post-Operative Care & Evaluation
Renal U/S
6 weeks
VCUG
3-6 months
Periodic F/U
18 months, 3 years, 5 years
check U/A, BP, U/S

64. Early Complications Reflux Obstruction
Contralateral or ipsilateral ureter
Trigonal edema, bladder dysfunction
Majority are low grade
Obstruction
Edema, spasms, blood clots
Most are mild
Occur 1-2 weeks post-op - pain, N/V, rarely fever
Renal scan shows delay in excretion
Nephrostomy tubes or ureteral stents if symptoms persist

65. Late Complications Reflux Obstruction Short length to diameter ratio
Weak muscular backing
Failure to treat secondary causes of VUR
CIC and anticholinergics
Treatment of dysfunctional voiding
Obstruction
Complete obstruction
Ischemia or hiatal angulation
Intermittent obstruction
Lateral placement of orifice obstructs with filling

66. Reflux: Conclusions Common
Indications for correction continue to change
Natural history of VUR changing with perinatal diagnosis
High resolution rate, medical management
Surgical interventions highly successful
New methods of surgical treatment evolving