Antenatal hydronephrosis

Antenatal Hydronephrosis
Presented By – Dr Anand Singh
Neonatology Fellow
Max Healthcare
Delhi

• Prevalance of antenatally detected hyronephrosis ranges from
0.6 % to 5.4 %.
• In 17 -54 % its B/L.
• In 41 – 88% resolves at birth or in infancy.
• In 4% to 15 % require intervention.
(A. Sinha, A. Bagga, A. Krishna, M. Bajpai, M. Srinivas, R. Uppal
Department of Pediatrics, Division of Nephrology and Pediatric
Surgery, All India Institute of Medical Sciences 2014 )

• Isolated hydronephrosis: Hydronephrosis without ureteric and or bladder abnormalities.
• Bilateral hydronephrosis: Hydronephrosis involving both kidneys or hydronephrosis in
solitary kidney.
• Anteroposterior diameter (APD) of the fetal or neonatal renal pelvis.
• Soft signs: Subtle abnormalities on ultrasound that affect 10-20% normal fetuses, little
significance in isolation, resolve with advancing gestation or after birth.
• Oligohydramnios: - Amniotic fluid volume less than 500 ml
- Absence of pockets of fluid greater than 2 cm on ultrasound
- Amniotic fluid index below 5-6.
• Suspected lower urinary tract obstruction( LUTO): -
1. Bilateral hydroureteronephrosis associated with dilated thick walled bladder
2. Dilated posterior urethra and/or oligohydramnios.

(A. Sinha, A. Bagga et al Department of Pediatrics, Division of Nephrology and Pediatric
Surgery, All India Institute of Medical Sciences 2014 )

1. Diagnosis and Grading of Antenatal Hydronephrosis

APD (Antero Posterior Diameter)
• Is the most commonly studied indicator for assessing ANH and a sentinel of
potential diseases. However, it does not identify specific underlying pathology.
• ANH is present if the APD is ≥4 mm in second trimester and ≥7 mm in the third
trimester.
(Nguyen HT, Herndon CD, Cooper C, Gatti J, Kirsch A, Kokorowski P, et al. The Society
for Fetal Urology consensus statement on the evaluation and management of
antenatal hydronephrosis. J Pediatr Urol. 2010;6:212-31 )
• Limitations of APD as a tool of ANH are –
(1) there would be the inter and intra observer reliability
(2) APD does not consider calyceal dilation or renal parenchymal thinning that may
indicate more severe obstruction.
• Factors affecting APD –
1. Gestational age
2. Hydration status of the mother
3. Degree of bladder distention.

- Dimensions of the renal pelvis may normally increase with gestational age
- Threshold APD values according to the gestational age are-
- Renal APD thresholds of 5 mm and 8-10 mm in the 2nd and 3rd trimester respectively were
100% sensitive in predicting the need for postnatal surgery compared with a study where 3rd
trimester threshold of 10 mm, missed 25% cases of pelviureteric junction obstruction and 50%
cases of VUR.
( Kim HJ, Jung HJ, Lee HY, Lee YS, Im YJ, Hong CH, et al. Diagnostic value of anteroposterior
diameter of fetal renal pelvis during second and third trimesters in predicting postnatal surgery
among Korean population: useful information for antenatal counseling. Urology. 2012;79:1132 )

2. Additional Prenatal Evaluation

• According to Indian society of Pediatric Nephrology -
• If ANH is detected, It is recommend that the ultrasound at
16-20 weeks gestation also include evaluation for –
1. Lower urinary tract obstruction
2. Renal dysplasia
3. Extra renal structural malformations
• Recommends that fetus with ANH and a major structural
anomaly or additional soft sign(s) be referred to an obstetric
unit with facilities for genetic counseling and prenatal testing.

• Antenatal USG + Maternal age + First/Second trimester
blood screen helps determine the risk of chromosomal
disorders and need for karyotyping.
• The likelihood of aneuploidy in fetus with isolated ANH
is low and karyotyping is not necessary.
• The risk of aneuploidy is increased in fetus with ANH
and a major structural anomaly or with one or more
additional soft signs .

• (a) In Fetus with U/L hydronephrosis, recommended that at least one
follow up ultrasound be performed in the third trimester ( 1B ).
• (b) Fetus with B/L hydronephrosis should be monitored frequently (
2 C ).
• The frequency of monitoring varies from 4-6 weeks, depending on –
1. Gestation at which ANH was detected
2. Its severity
3. Oligohydramnios
• But fetus with findings suggestive of lower urinary tract anormality
( bilateral hydro ureteronephrosis, dilated bladder and
oligohydramnios) might require even more frequent monitoring.

• Almost 80% of fetus diagnosed in the 2nd trimester show resolution or improvement of
findings with low likelihood of postnatal sequelae.
( Sairam S, Al-Habib A, Sasson S, Thilaganathan B. Natural history of fetal hydronephrosis
diagnosed on mid-trimester ultrasound. Ultrasound Obstet Gynecol. 2001;17:191-6)
• Patients with persistence or worsening hydronephrosis in the 3rd trimester show higher
rates of postnatal pathology and require close follow up.
( Feldman DM, DeCambre M, Kong E, Borgida A, Jamil M, McKenna P, et al. Evaluation and
follow-up of fetal hydronephrosis. J Ultrasound Med. 2001;20:1065-9 )
• Sairam et al found that 88% cases with mild ANH resolved in utero or neonatal period while
one in three neonates with moderate to severe hydronephrosis persisting in the 3rd trimester
required postnatal surgery.
• Hence, an ultrasound in the 3rd trimester is valuable for identifying fetuses that require
postnatal evaluation and follow up.
• The risk of in utero worsening is higher for bilateral than for unilateral disease.
• Recent report suggests that patients with mild to moderate isolated bilateral hydronephrosis
have a favorable outcome.

• Accoring to Indian society of Pediatric Nephrology -
• a. Diagnostic and therapeutic interventions be
considered for fetus with suspected lower urinary tract
obstruction and oligohydramnios only at specialized
centers, following one-to-one counseling (2A).
• b. Termination of pregnancy is not recommended in
fetus with unilateral or bilateral ANH except in presence
of extrarenal life threatening abnormality (1D).

• If antenatal ultrasonography shows evidence of Lower urinary tract abnormality
(e.g bilateral hydro ureteronephrosis, dilated bladder, oligohydramnios)
• Refer parents to specialized centers for counseling regarding prenatal diagnostic
and therapeutic interventions.
• The predominant cause for lower urinary tract obstruction is posterior urethral
valves in male fetus.
• The presence of findings suspicious of PUV such as oligohydramnios (OHA ), dilated
bladder, bilateral hydroureteronephrosis (HUN) warrants monitoring throughout
pregnancy, and any co-morbid fetal abnormality should also be investigated.

•Depending on the severity of OHA, fetal imaging may be needed every
4 weeks. However, in the presence of increasing OHA, fetal intervention
such as vesicoamniotic (VA) shunting may be offered.
•Fetal vesicocentesis, done on two or more occasions, allows estimation
of urinary electrolytes, b2 microglobulin, and osmolality that predict
renal maturity and function.
( Morris RK, Ruano R, Kilby MD. Effectiveness of fetal cystoscopy as a
diagnostic and therapeutic intervention for lower urinary tract
obstruction: a systematic review. Ultrasound Obstet Gynecol.
2011;37:629–37)

• Gross predictor of renal function may be obtained by performing a fetal bladder tap and
analysis of fetal urine biochemistries and electrolytes. Repeat fetal bladder tap done within 48
hours of the initial bladder decompression.
• Decreasing level of sodium (<100 mEq/l), calcium (<8 mg/dl), osmolarity (<200 mOsm/l), b2
microglobulin (<4 mg/l), and protein (<20 mg/dl) identify fetuses that are likely to benefit from
therapeutic interventions.
• In fetuses with suspected lower urinary obstruction and favorable indices, parents should be
counseled regarding the role of Vesicoamniotic shunting or In Utero endoscopic ablation of
valves.
• The benefits of such intervention, usually performed during mid-second trimester.
• Meta analysis showed that prenatal bladder drainage by Vesicoamniotic shunt, improves
perinatal survival in fetuses with severe obstruction, with benefits chiefly in those with poor
predicted prognosis.
(Clark TJ, Martin WL, Divakaran TG, Whittle MJ, Kilby MD, Khan KS. Prenatal bladder
drainage in the management of fetal lower urinary tract obstruction: a systematic review and
meta-analysis. Obstet Gynecol. 2003;102:367–82)

• There is no evidence that this intervention improves long term renal outcome
or reduces mortality in fetus with less severe disease.
(Holmes N, Harrison MR, Baskin LS. Fetal surgery for posterior urethral valves:
long-term postnatal outcomes. Pediatrics. 2001;108:E7)
• Moreover, vesicocentesis and other interventions carry considerable risk of
fetal loss, chorioamnionitis, and preterm labor.
• While current evidence is insufficient, ongoing trials shall provide clarity on the
efficacy and safety of these procedures.
( Kilby M, Khan K, Morris K, Daniels J, Gray R, Magill L, et al. PLUTO trial
protocol: percutaneous shunting for lower urinary tract obstruction randomised
controlled trial. BJOG. 2007;114,904-5 )
• Pregnancy in fetus with unilateral or bilateral ANH should proceed to term
except if complicated by severe oligohydramnios or major structural anomalies.
• Early delivery is not indicated and carries risk of prematurity and low birth
weight.

Postnatal Evaluation and Management

Timing of initial ultrasound
• a. All newborns with history of ANH ( including those in whom it
had resolved prenatally) should have postnatal ultrasound
examination within the first week of life (1B).
• b. In neonates with suspected PUV, oligohydramnios or severe B/L
hydronephrosis, ultrasonography should be performed within
24-48 h of birth (1C).
• c. In all other cases, the ultrasound should be performed
preferably within 3-7 days or before hospital discharge (1C).

• Hydronephrosis that has resolved postnatally does not merit
prolonged follow-up and has satisfactory outcome.
(Masson P, De Luca G, Tapia N, Le Pommelet C, Sathi A, Touati K, et
al. Postnatal investigation and outcome of isolated fetal renal
pelvis dilatation. Archives de Pe´diatrie. 2009;16:1103-10 )
• Patients with persistent postnatal hydronephrosis require
additional evaluation, the intensity of which is determined by the
severity of findings.
(Livera LN, Brookfield DS, Egginton JA, Hawnaur JM. Antenatal
ultrasonography to detect fetal renal abnormalities: a prospective
screening programme. BMJ. 1989;298:1421-3 )

• It is emphasized that an ultrasound in the first few days of life underestimates the
degree of pelvic dilatation due to dehydration and a relatively low urine output.
• Despite this limitation, an early USG within 24-48 h of birth is necessary in –
1. Neonates with suspected lower urinary tract obstruction
2. Oligohydramnios
3. Bilateral severe hydronephrosis
4. Severe hydronephrosis in a solitary kidney.
• In others first ultrasound examination should ideally be delayed until the end of
first week.
• Since there is a risk that a proportion of patients might be lost to follow up so
Indian society of Pediatric Nephrology propose that neonates with unilateral or
mild to moderate bilateral hydronephrosis be screened by ultrasonography prior to
hospital discharge.

Diagnosis and Grading of Postnatal Hydronephrosis

• a. Assessment of severity of postnatal hydronephrosis
be based on the classification proposed by society of
fetal urology ( SFU ) or anteroposterior diameter (APD)
of the renal pelvis (1B).
• b. Ultrasonography should include evaluation for
calyceal or ureteric dilation, cortical cysts and enhanced
renal echogenicity and bladder wall abnormalities (2D).

Neonatal hydronephrosis is defined as SFU grade ≥ 1 or renal APD ≥7 mm.
Grade 1 / 2 - Mild Hydronephrosis
Grade 3 - Moderate Hydronephrosis
Grade 4 - Severe Hydronephrosis

• A systematic review concluded that 98% patients with SFU grade 1-2 or APD <12 mm
resolved, compared with 51% with APD >12 mm or SFU 3-4.
( Sidhu G, Beyene J, Rosenblum ND. Outcome of isolated antenatal hydronephrosis: A
systematic review and meta-analysis. Pediatr Nephrol. 2006;21:218-24 )
• Mild isolated unilateral or bilateral hydronephrosis with APD <9-11 mm is a frequent
finding, which is unlikely to be associated with obstruction and has favorable prognosis.
( Siemens DR, Prouse KA, MacNeily AE, Sauerbrei EE. Antenatal hydronephrosis: thresholds
of renal pelvic diameter to predict insignificant postnatal pelviectasis. Tech Urol.
1998;4:198-201 )
• In a systematic review, Paserotti et al showed that the risk of postnatal pathology
increased progressively from 29.6% in mild postnatal hydronephrosis to 96.3% in severe
hydronephrosis.
• Results of a meta analysis showed that isolated ANH was five times more likely to stabilize
if associated with SFU grade 1-2 or APD <12 mm than with SFU grade 3-4 or APD >12 mm.
( Sidhu G, Beyene J, Rosenblum ND. Outcome of isolated antenatal hydronephrosis: A
systematic review and meta-analysis. Pediatr Nephrol. 2006;21:218-24 )

• According to Indian society of Pediatric Nephrology –
• a. Neonates with normal ultrasound examination in the
first week of life should undergo a repeat study at 4-6
weeks (1C)
• b. Infants with isolated mild unilateral or bilateral
hydronephrosis (APD < 10 mm or SFU grade 1-2) should
be followed by sequential ultrasound alone, for
resolution or progression of findings (1C).

• The frequency of subsequent monitoring in patients with persistent postnatal
hydronephrosis depends on its severity and includes evaluation for increasing
pelvicalyceal or ureteric dilatation and cortical thinning.
• A repeat ultrasound may show late worsening or recurrence of hydronephrosis
in 1-5% patients.
(Lidefelt KJ, Herthelius M. Antenatal hydronephrosis: infants with minor
postnatal dilatation do not need prophylaxis. Pediatr Nephrol. 2008;23:2021-4)
• Since progression might occur in the first 2 years of life and occasionally until
5-6 years, follow-up studies are scheduled at 3-6 months, and then 6-12
monthly until resolution.
(Gatti JM, Broecker BH, Scherz HC, Perez-Brayfield MR, Kirsch AJ. Antenatal
hydronephrosis with postnatal resolution: how long are postnatal studies
warranted? Urology. 2001;57:1178)

• A single ultrasound in the first week of life might not detect all abnormalities of the kidneys or urinary
tract, due to low urine flow secondary to dehydration and low glomerular filtration rate (GFR).
• An ultrasound at 6 weeks is more sensitive and specific for obstruction than that in the first week of life.
(Dremsek PA, Gindl K, Voitl P, Strobl R, Hafner E, Geissler W, et al. Renal pyelectasis in fetuses and
neonates: diagnostic value of renal pelvis diameter in pre- and postnatal sonographic screening. Am J
Roentgenol. 1997;168:1017-9)
• All newborns with a normal ultrasound at first week, therefore, require a repeat study at 4-6 weeks.
(Nguyen HT, Herndon CD, Cooper C, Gatti J, Kirsch A, Kokorowski P, et al. The Society for Fetal Urology
consensus statement on the evaluation and management of antenatal hydronephrosis. J Pediatr Urol.
2010;6:212-31)
• The presence of two normal postnatal renal ultrasounds excludes presence of significant renal disease
including dilating VUR.
(Sanders RC, Nussbaum AR, Solez K. Renal dysplasia: sonographic findings. Radiology. 1988; 167: 623-6 )

• Most patients with mild hydronephrosis (SFU grade 1-2; renal APD < 10 mm) do not
have significant obstruction and maintain kidney function on the long-term.
(Hafez AT, McLorie G, Bagli D, Khoury A. Analysis of trends on serial
ultrasound for high grade neonatal hydronephrosis. J Urol. 2002;168:1518-21 )
• Hydronephrosis resolves in most such patients during the first 2 years of life and
radiologic investigations or antibiotic prophylaxis is usually not necessary.
• The policy to follow these neonates with sequential ultrasonography to monitor for
resolution of hydronephrosis therefore seems satisfactory.
• Infant with renal APD exceeding 10 mm or SFU grade 3-4 at onset require close
follow-up.
(Tombesi MM, Alconcher LF. Short-term outcome of mild isolated antenatal
hydronephrosis conservatively managed. J Pediatr Urol. 2012;8:129-33 )

Micturating Cystourethrogram ( MCU )

• According to Indian society of Pediatric Nephrology Indications –
• a. Micturating cystourethrogram (MCU) be performed in patients with unilateral or bilateral
hydronephrosis with renal pelvic APD > 10 mm, SFU grade 3-4 or ureteric dilatation (1B).
• b. MCU be performed early, within 24-72 h of life, in patients with suspected lower urinary
tract obstruction (1D). In other cases, the procedure should be done at 4-6 weeks of age.
• c. MCU for infants with antenatally detected hydronephrosis who develop a urinary tract
infection (1C).
• MCU is also required in patients with history of milder grades of ANH who show worsening
hydronephrosis, progressive parenchymal thinning or occurrence of UTI.
( Grazioli S, Parvex P, Merlini L, Combescure C, Girardin E. Antenatal and postnatal
ultrasound in the evaluation of the risk of vesicoureteral reflux. Pediatr Nephrol.
2010;25:1687-92.
• Physicians should be aware that this investigation is associated with risks of UTI and
exposure to radiation.
( Lidefelt KJ, Herthelius M. Antenatal hydronephrosis: infants with minor postnatal
diaxislatation do not need prophylaxis. Pediatr Nephrol, 2008;23:2021-4)

• MCU is frequently performed in conjunction with renal studies to rule out VUR as the
cause of Hydronephrosis because VUR may coexist with UPJ obstruction in as many as 10%
of children.
(Bassanese G, Travan L, D'Ottavio G, Monasta L, Ventura A, Pennesi M. Prenatal
anteroposterior pelvic diameter cutoffs for postnatal referral for isolated pyelectasis and
hydronephrosis: more is not always better. J Urol. 2013;190:1858-63 )
• VUR is present in 8-38% patients with unilateral or bilateral ANH, as compared with < 1% in
the general population.
( Zerin JM, Ritchey ML, Chang AC. Incidental vesicoureteral reflux in neonates with
antenatally detected hydronephrosis and other renal abnormalities. Radiology.
1993;187:157-60 )
• While there is increased risk of UTI, there is lack of evidence that antibiotic prophylaxis in
patients with mild VUR confers clinical benefit.
( Hodson EM, Wheeler DM, Vimalchandra D, Smith GH, Craig JC. Interventions for primary
vesicoureteric reflux. Cochrane Database Syst Rev. 2007;18:CD001532 )

• Acc to Indian society of Pediatric Nephrology Indication –
• a. Infants with moderate to severe unilateral or bilateral hydronephrosis (SFU grade 3-4 or APD >10 mm)
who do not show VUR should undergo diuretic renography (1C).
• b. Infants with hydronephrosis and dilated ureter(s) and no evidence of VUR undergo diuretic
renography (2C).
• c. The preferred radiopharmaceuticals are 99mTc-mercaptoacetyltriglycine (99mTc-MAG3),
99mTc - ethylen edicysteine (99mTc-EC) or 99mTc-diethylenetriaminepentaacetic acid (DTPA) (2D).
• Radiopharmaceuticals such as 99mtechnetium mercaptoacetyltriglycine (99mTc-MAG3) or
ethylenedicysteine (99mTc-EC) are preferred, since they show greater renal extraction and higher kidney
to background ratio compared to diethylenetriaminepentaacetic acid (99mTc-DTPA). However, DTPA is
inexpensive and widely available.
• d. Diuretic renography be performed after 6-8 weeks of age (2D). The procedure may be repeated after
3-6 months in infants where ultrasound shows worsening of pelvicalyceal dilatation (2D).

• Diuretic renography allows differentiation between obstructive and non-obstructive hydronephrosis and
estimating relative renal function.
• Differential renal function is estimated; values between 45% and 55% are considered normal.
(Donoso G, Kuyvenhoven JD, Ham H, Piepsz A. 99mTc-MAG3 diuretic renography in children: a
comparison between F0 and F+20. Nucl Med Commun. 2003;24:1189-93)
• An initial differential function below 35-40% in the kidney with obstructed drainage signifies impaired
function. ( Piepz A. Antenatal detection of pelviureteric junction stenosis: main controversies. Semin Nucl
Med. 2011;41:11-9)
• Other features that suggest obstruction include prolonged time to clear 50% of the radionuclide (t1/2 >
20 min).
• Many patients require repeat renography, when change in differential function and drainage pattern is
compared.
• The timing of the repeat procedure is not defined, and varies with patient age, initial renal function and
persistence or worsening of ultrasonographic findings. The tracer used for the first renogram and timing
of diuretic administration should be similar during serial evaluations.

• Obstructive pattern on diuretic renography and differential
function exceeding 40%.
1. Conservative manaement
2. Serial USG
3. Repeat renography done if there is persistent or progressive
hydronephrosis or parenchymal thinning

• a. Infants with lower urinary tract obstruction be immediately
referred to pediatric surgeon for appropriate intervention (1C).
• b. Surgery be considered in patients with obstructed
hydronephrosis and either reduced differential renal function or its
worsening on repeat evaluation (2C).
• c. Surgery be considered in patients with bilateral hydronephrosis
or hydronephrosis in solitary kidney showing worsening dilatation
and deterioration of function (2D).

• Pyeloplasty be considered in patients -
1. Obstructed drainage
2. Differential function below 40% / differential function below 35%.
3. Obstructed renogram with prolonged t1/2 > 20 min.
4. Presence of pain, palpable renal lump or recurrent febrile UTI.
5. Reduction of differential renal function by more than 5-10% on serial scan in patients who
had initial differential function more than 40 %.
6. B/L hydronephrosis or hydronephrosis in solitary kidney showing worsening dilatation and
deterioration of function .
• Surgery allows preservation of renal function in the majority but predictors of unsatisfactory
outcome include baseline differential function <30% and renal APD >50 mm with dilated calyces.
(Uluocak N, Ander H, Acar O, Amasyali AS, Erkorkmaz U, Ziylan O. Clinical and radiological
characteristics of patients operated in the first year of life due to ureteropelvic junction
obstruction: significance of renal pelvis diameter. Urology. 2009;74:898–902)
• Infants with Posterior urethral valves require Early urethral catheterization, Cystoscopic ablation of
the urethral valves, correction of electrolyte abnormalities, treatment for possible complications

• a. Parents of all infants with antenatal or postnatal hydronephrosis
be counseled regarding the risk of urinary tract infections and
need for prompt management (1B).
• b. Infants with postnatally confirmed moderate or severe
hydronephrosis (SFU 3-4; renal APD > 10 mm) or dilated ureter
receive antibiotic prophylaxis while awaiting evaluation (1C).
• c. Patients detected to have VUR receive antibiotic prophylaxis
through the first year of life (1B).

• Infants with ANH, including where hydronephrosis has resolved postnatally, have an
increased risk of UTI.
( Lee RS, Cendron M, Kinnamon DD, Nguyen HT. Antenatal hydronephrosis as a
predictor of postnatal outcome: a metaanalysis. Pediatrics. 2006;118:586-93 )
• Walsh et al retrospectively estimated that the relative risk of developing
pyelonephritis in these infants was 11.8. The rates of UTI have varied, based on
severity of hydronephrosis, duration of follow-up and antibiotic use.
• In patients with isolated hydronephrosis (postnatal renal pelvic APD 5-15 mm)
followed without prophylaxis, the frequency of UTI was similar in patients with
bilateral (9%) or unilateral (10%) disease.
(Alconcher LF, Tombesi MM. Natural history of bilateral mild isolated antenatal
hydronephrosis conservatively managed. Pediatr Nephrol. 2012;27:1119-23)
• Parents should be counseled regarding the increased risk of UTI, and the need for
prompt diagnosis and treatment.

• Coelho et al reported that infants with postnatal renal pelvic APD of 10 mm or more
have significantly increased risk of infections (relative risk 2.6, 95% confidence interval)
compared with those with mild hydronephrosis.
• Other studies have confirmed this finding and suggest that most UTI occur within the
first 6 months of life. While a significant proportion of infections occur in the context
of underlying VUR, ureteric dilatation and underlying obstruction.
(Kim J, Hong S, Park CH, Park H, Kim KS. Management of severe bilateral ureteropelvic
junction obstruction in neonates with prenatally diagnosed bilateral hydronephrosis.
Korean J Urol. 2010;51:653-6 )
• Patients with moderate or severe hydronephrosis and/or dilated ureter should
receive antibiotic prophylaxis while awaiting investigations. Since the risk of UTI is low
with mild hydronephrosis, antibiotic prophylaxis is not necessary in these infants.
(Alconcher LF, Tombesi MM. Natural history of bilateral mild isolated antenatal
hydronephrosis conservatively managed. Pediatr Nephrol. 2012;27:1119-23 )

•The efficacy of antibiotic prophylaxis in preventing UTI in patients with VUR has been
questioned.
( Lee JH, Choi HS, Kim JK, Won HS, Kim KS, Moon DH, et al. Nonrefluxing neonatal hydronephrosis
and the risk of urinary tract infection. J Urol. 2008;179:1524-8 )
• While awaiting results of further studies, the ISPN currently recommends that infants with VUR
should receive antibiotic prophylaxis, the duration determined by the grade of reflux and
occurrence of breakthrough infections.
•The American Urological Association also recommends that antibiotic prophylaxis be given to
infants with VUR grade III-V that is identified through screening. They further suggest that,
although evidence is limited, infants with lower grades of VUR (grade I-II) may also receive
prophylaxis.
(Szymanski KM, Al-Said AN, Pippi Salle JL, Capolicchio JP. Do infants with mild prenatal
hydronephrosis benefit from screening for vesicoureteral reflux? J Urol. 2012;188:576-81 )
• In view of difficulties of detecting UTI in infancy and risks of renal scarring, recommends
antibiotic prophylaxis for all infants with VUR detected through screening.
( Mattoo TK. Evidence for and against urinary prophylaxis in vesicoureteral reflux. Pediatr
Nephrol. 2010;25:2379-82 )

•Antibiotics that are preferred include cephalexin (10 mg/kg/d) during the first 3 months of life,
and cotrimoxazole (1-2 mg/kg/d) or nitrofurantoin (1 mg/kg/d) later.
(Nagler EV, Williams G, Hodson EM, Craig JC. Interventions for primary vesicoureteric reflux.
Cochrane Database Syst Rev 2011;(6):CD001532 )

• In absence of prospective controlled studies, there is variability in practice regarding use of
antibiotics in children with moderate to severe obstructive hydronephrosis.
( Skoog SJ. Prophylaxis versus no prophylaxis for reflux. J Urol. 2012;187:1161-2 )
•The rates of UTI were 0-4.3% in studies on patients with severe hydronephrosis due to
pelviureteric junction obstruction or megaureter, managed without prophylaxis.
( Indian Society of Pediatric Nephrology, Vijayakumar M, Kanitkar M, Nammalwar BR, Bagga A.
Revised statement on management of urinary tract infections. Indian Pediatr. 2011;48:709-17 )
•Madden et al showed that the rates of UTI were similar at 14% and 16% in infants followed
with or without prophylaxis, respectively.
(Sarhan O, Zaccaria I, Macher MA, Muller F, Vuillard E, Delezoide AL, et al. Long-term outcome
of prenatally detected posterior urethral valves: single center study of 65 cases managed by
primary valve ablation. J Urol. 2008;179:307-12 )
•Other studies show that 19-36.2% of patients with moderate or severe obstructive
hydronephrosis have UTI.
(Kapadia H, Lidefelt KJ, Erasmie U, Pilo C. Antenatal renal pelvis dilatation emphasizing
vesicoureteric reflux: two year follow-up of minor postnatal dilatation. Acta Paediatr.
2004;93:336-9)
•Further studies are necessary to determine the benefit of antibiotic prophylaxis in patients with
obstructive hydronephrosis.

• Radiocontrast and radionuclide studies are associated
with considerable risk of radiation exposure. The
exposure following these studies is several fold higher
than a chest radiograph.
• We should be aware of the risks associated with these
investigations.
• Repeat radionuclide and radiocontrast studies should
be done only if these are likely to provide clinically
relevant information that cannot be obtained by USG.

- All fetuses with ANH should undergo at least one ultrasound in third trimester and its severity is graded
according to renal pelvic anteroposterior diameter.
- Fetuses with B/L hydronephrosis need monitoring through pregnancy the frequency of which depends
on severity of findings and presence of oligohydramnios.
-Those with oligohydramnios or other systemic abnormalities should be referred to specialized centers.
- While all newborns with antenatally detected hydronephrosis should undergo ultrasonography in the
first week of life & those with suspected bladder obstruction should undergo postnatal ultrasonography
within 48 hr of birth.

- A postnatal ultrasound is recommended at 3-7 days except in suspected lower urinary tract obstruction
where it is done earlier.
- Infants with normal findings should undergo a repeat study at 4-6 weeks. Patients with isolated mild
hydronephrosis (unilateral or bilateral) should be followed with sequential ultrasounds at 3 and 6 months,
followed by 6-12 monthly until resolution, those with worsening hydronephrosis require closer evaluation.
- Patients with higher grades of hydronephrosis or dilated ureter (s) are screened for underlying obstruction
or VUR.
- Diuretic renography is useful in detecting pelviureteric junction or vesicoureteric junction obstruction and
determining the need for surgery.
- Parents of infants with hydronephrosis should be counseled regarding the risk of urinary tract infections.

Take Home Message
• Significant proportion have transient hydronephrosis that resolves in utero or postnatally.
• Neonates with persistent hydronephrosis require follow up.
• All neonates with hydronephrosis should undergo urinalysis, measurement of blood
pressure and estimation of serum creatinine.
• Infants with moderate to severe hydronephrosis are screened for urinary tract obstruction or
VUR.
• The initial evaluation aims to detect patients with bladder obstruction, which requires
prompt intervention.
• Decisions regarding surgical intervention depend on a combination of clinical and laboratory
features and results of sequential ultrasonography and diuretic renography.

Antenatal hydronephrosis

Recommended

Recommended

More Related Content

What's hot

What's hot (20)

Similar to Antenatal hydronephrosis

Similar to Antenatal hydronephrosis (20)

More from Dr Anand Singh

More from Dr Anand Singh (10)

Recently uploaded

Recently uploaded (20)

Antenatal hydronephrosis