Posterior Urethral Valve Imaging
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A posterior urethral valve is an abnormal congenital obstructing membrane that is located within the posterior male urethra; this valve is the most common cause of bladder outlet obstruction in male children. [1, 2, 3] Problems resulting from the presence of a posterior urethral valve are depicted in the image below.
The valve is believed to result from abnormal embryologic development of the fetal posterior urethra. The classic categorization of posterior urethral valves into types I, II, and III was developed by Young et al in 1919 [4] and has undergone modification over time based on clinical observation and a better understanding of the embryologic events that lead to normal urethral development.
Regardless of the type of valve, however, all valves essentially obstruct normal bladder emptying. This mechanical obstruction increases voiding pressures and may alter normal development of the fetal bladder and kidneys. Typically, children with higher degrees of obstruction present earlier with the most severe symptoms. A spectrum of signs and symptoms, ranging from severe obstruction with resultant renal failure and pulmonary hypoplasia to mild obstructive symptoms of voiding dysfunction, may be noted.
Posterior urethral valves can appear at the earliest stage of urinary tract development; therefore, the entire urinary tract develops in an abnormal environment of high intraluminal pressure due to the mechanical obstruction. Permanent defects in the function of the kidneys, ureters, and bladder may result from prenatal maldevelopment — despite adequate decompression of the urinary tract after birth.
Renal function may be impaired for several reasons. Renal parenchymal dysplasia is common and may be related to maldevelopment of the metanephric blastema (renal precursor tissue) in an environment of high intraluminal pressure. In other cases, renal tubular function may be affected by high pressures that result in poor urinary concentrating ability, with resultant diuresis and the development of ureteral and bladder dysfunction due to high urinary production.
The affected kidneys may function well initially, but they have a reduced renal reserve. Renal deterioration may also occur due to hyperfiltration injury that causes glomerulosclerosis, chronic pyelonephritis associated with vesicoureteral reflux, urinary stasis, or incomplete bladder emptying, all of which are common in boys with a posterior urethral valve and can cause further insult to the developing kidneys.
Hydronephrosis is common and may be due to a variety of causes. First, bladder dysfunction with high back pressures on the ureter may be causative. Second, the ureter itself may develop an abnormally deficient musculature due to chronic distention from high pressure or high urine flow. Third, high urinary flow due to the lack of urinary concentrating ability of the nephron can dilate the kidneys and ureters. Finally, there may be abnormalities of the vesicoureteral junction, such as reflux or, rarely, ureterovesical obstruction.
Vesicoureteral reflux is present in one half of male patients with a posterior urethral valve and is often thought to be physiologic, with high bladder pressures overcoming the competence of the ureterovesical junction. Reflux may also be anatomic, secondary to abnormal ureteral orifice position resulting from abnormal ureteral bud development during embryogenesis.
Bladder dysfunction is thought to be caused by alterations in collagen deposition and the development of detrusor smooth muscle cells. Several authors have noted high pressure due to poor compliance or uninhibited contraction of the detrusor muscle and eventual myogenic failure. In mild cases, incontinence may be present; in severe cases, ongoing deterioration of renal function occurs.
Bladder dysfunction often improves over time after definitive treatment of the obstruction. [5] Management of the persistently hostile bladder is imperative to diminish further renal impairment and the risk of urinary tract infection (UTI), persistent hydronephrosis or vesicoureteral reflux, and incontinence.
Several protective mechanisms may develop in boys with a posterior urethral valve; these may lower intraluminal pressures and allow at least 1 renal unit to develop more normally. These mechanisms include massive unilateral vesicoureteral reflux (usually associated with an ipsilateral dysplastic kidney, known as vesicoureteral reflux and dysplasia syndrome), bladder diverticula, and urinary ascites.
With routine obstetric ultrasonography the prenatal diagnosis of posterior urethral valve is becoming increasingly common, leading to investigative efforts at improving bladder drainage in utero. Postnatal diagnostic modalities and treatment algorithms are fairly well established, and valve management has become less invasive with the development of pediatric endoscopic instruments. Hydronephrosis is demonstrated in the sonograms below. [6]
The final goal of all therapeutic intervention for posterior urethral valve is proper urinary tract function, with protection of the renal units. As a result of progress in the diagnosis, treatment, and surveillance of this condition, morbidity and mortality rates have markedly diminished over the past several decades.
Renal ultrasonography in the male newborn can confirm the antenatal findings of hydroureteronephrosis with a dilated, thick-walled bladder and a dilated posterior urethra. In symptomatic older boys, ultrasonography is useful to screen for these findings of posterior urethral valves. Voiding cystourethrography (VCUG) is necessary to confirm the diagnosis and to assess the bladder for associated findings of trabeculation, diverticula, and vesicoureteral reflux. [1, 2]
VCUG is considered the diagnostic criterion standard imaging modality for posterior urethral valves, but normal mucosal folds (plicae colliculi) may appear as lucencies on VCUG and suggest the presence of valve leaflets. Conversely, valve leaflets may not be visible on VCUG; however, other associated findings with valves should raise suspicions. Also, improper VCUG technique can cause the diagnosis to be missed by omission of adequate urethral views during voiding or failure to remove the urinary catheter, which can stent the valves open during voiding.
Findings from renal ultrasonography, computed tomography (CT) scanning, intravenous pyelography (IVP), and renal scanning are not diagnostic for posterior urethral valves, although each modality may add details regarding the structure or function of the urinary tract.
Plain radiographs do not add to the actual diagnosis of posterior urethral valves; however, chest radiography may be useful in the evaluation of pulmonary hypoplasia, and images of the kidneys, ureters, and bladder (KUB images) may show the ground-glass appearance of urinary ascites, if present.
VCUG (represented in the images below) is considered the diagnostic study of choice for the evaluation of posterior urethral valves. [1] The bladder is typically thickened with trabeculae and may exhibit vesicoureteral reflux or, less commonly, diverticula. The bladder neck is typically hypertrophic, leading to a lucent ring or collar.
On voiding, the posterior urethra is dilated (ie, shield shaped), and valve leaflets may be seen as lucencies, giving the appearance of a spinning top. If leaflets are not visible, a commonly associated finding of posterior urethral bulging distally over the bulbar urethra may be noted. The anterior urethra is typically underfilled, and voiding is incomplete.
IVP is not routinely used in children, because the contrast agent is poorly concentrated and visualized in newborn kidneys, particularly if renal function is diminished. Elevated serum creatinine levels may preclude the use of IV contrast material. IVP can show an absent kidney in the case of renal dysplasia or delayed renal function with persistent high intraluminal pressures. Hydroureteronephrosis may be seen. Delayed images may show bladder or urethral pathology, but the lower urinary tract is better visualized with VCUG.
As previously mentioned, VCUG is the criterion standard diagnostic test for posterior urethral valves. The constellation of bladder and urethral abnormalities with or without valve identification typically confirms the presence of valves. Cystourethroscopy with the patient under general anesthesia may be required to formally confirm the presence of posterior urethral valves at the time of intervention.
Regarding false-positive findings, any of the obstructive etiologies may show bladder and upper-tract changes that are typical of posterior urethral valves. However, most of the listed conditions have significant differences in imaging that separate them from posterior valves, such as the location of involvement (anterior valves, syringocele), associated anomalies (prune-belly syndrome), and degree of impairment (plicae colliculi). False-positive results should not be seen with functional disorders, because the posterior urethra should not be dilated, except potentially in detrusor sphincter dyssynergy/dyssynergia.
False-negative results are rarely noted in cases of posterior urethral valve that have minimal anatomic obstruction and, thus, limited functional impairment and upper-tract changes. In boys with these findings, VCUG may not show valve leaflets.
However, in a boy with the clinical stigmata of a posterior valve in whom definitive visualization of the valve is lacking, cystourethroscopy may be indicated to rule out urethral pathology. It is important to obtain voiding images in the lateral view with—and, ideally, without—the catheter in situ, because the images with the catheter removed optimally demonstrate the valves. It has long been believed that leaving the urethral catheter in place may hold the valves open and prevent proper visualization, but that does not happen in practice if good urethral distention is achieved.
In the postoperative setting after valve ablation, some posterior urethral dilatation usually persists, with secondary bladder changes. However, if incomplete valve ablation is suspected, then repeating cystourethroscopy rather than VCUG is recommended.
Rarely necessary in neonates, CT scans with IV contrast enhancement may reveal dysplastic and/or dilated kidneys with delayed renal function and excretion, hydroureter, dilated bladder with wall thickening, trabeculation, and diverticula. A dilated posterior urethra might be seen, although leaflets may be easily missed. Elevated serum creatinine levels generally preclude use of IV contrast material.
CT scans cannot reliably depict valves, although they should reveal the sequelae of bladder outlet obstruction.
False findings are identical to those for radiography. An exception is that plicae colliculi, which might be seen on VCUG studies, should not be noted on CT scans.
Magnetic resonance imaging (MRI) findings are similar to those of CT scanning except that enhancement with IV gadolinium-based contrast agents may allow functional, as well as anatomic, assessment.
Gadolinium-based contrast agents have been linked to the development of nephrogenic systemic fibrosis (NSF) or nephrogenic fibrosing dermopathy (NFD). The disease has occurred in patients with moderate to end-stage renal disease after being given a gadolinium-based contrast agent to enhance MRI or MRA scans. NSF/NFD is a debilitating and sometimes fatal disease. Characteristics include red or dark patches on the skin; burning, itching, swelling, hardening, and tightening of the skin; yellow spots on the whites of the eyes; joint stiffness with trouble moving or straightening the arms, hands, legs, or feet; pain deep in the hip bones or ribs; and muscle weakness. [7]
The degree of confidence is similar to that with CT scanning. False findings are similar to those observed with CT scanning.
A proper ultrasonographic study to evaluate the urinary tract must include images of both kidneys, the ureters, and the bladder. Hydroureteronephrosis, with or without cortical thinning, along with a thick-walled bladder with trabeculation and diverticula and a dilated posterior urethra with a hypertrophic bladder neck, are usually seen. The ultrasonographic characteristics of hydronephrosis and possible renal cortical thinning are seen in the images below.
In the setting of renal dysplasia, the renal parenchyma is typically hyperechogenic with visible small cysts (< 10 mm), but in the most mildly affected cases, renal ultrasonographic findings may be normal. Echogenic lines that are the actual valve leaflets might be seen. The combination of the dilated, thick-walled bladder and dilated posterior urethra has been described as having a keyhole appearance (as demonstrated in the image below).
The bladder may be of large or small volume, but it is invariably thick-walled. Urinary ascites or perinephric collections due to urinomas may also be seen, most commonly soon after birth, and are caused by rupture of the urinary tract, typically at the level of the calyces. A suggestive prenatal sonogram reveals a male fetus with bilateral hydroureteronephrosis; a dilated and thickened bladder with poor emptying; and, possibly, oligohydramnios (features seen in the images below). After the diagnosis has been established and initial management has begun, ultrasonography is useful to follow up on the degree of hydronephrosis and parenchymal integrity after treatment, as well as the adequacy of bladder evacuation with voiding and the resolution of any urinomas.
The sum of the ultrasonographic findings with clinical correlates, combined with the rarity of other obstructive lesions, is highly indicative of posterior urethral valves. The valves typically cannot be seen on sonograms, and VCUG is required to make the definitive diagnosis.
False-positive results may be seen with other obstructive and functional disorders of bladder emptying. The ultrasonographic findings are the final common signs of most of the conditions in the differential diagnosis. False-negative results may be seen in mild cases without upper-tract abnormality and an essentially normal bladder.
In a study by Williams et al, the reported sensitivity of renal and bladder ultrasonography for valves was 87% in patients younger than age 4 years and 98% for those age 4 years or older. [8]
Nuclear cystography has no role in the diagnosis of posterior urethral valves because of the poor anatomic detail, but this modality can depict the presence of vesicoureteral reflux. However, grading of such reflux is not as accurate as with contrast VCUG.
Nuclear renography may be used to assess upper-tract consequences of bladder outlet obstruction. A urethral catheter must be placed before the study to eliminate the effect of a distended, high-pressure bladder on renal function and drainage. An absent or dysplastic kidney is seen as a photopenic area in the renal fossa.
Delayed visualization of a renal unit with a slow rise to peak activity suggests altered renal function. Differential renal function is important to estimate relative renal impairment and is based on activity at 1-2 minutes after injection of a tracer. Hydronephrosis with ureteral dilatation can represent ureterovesical obstruction or chronic nonobstructive changes of posterior urethral valves; the latter should demonstrate washout after furosemide administration, if renal function is adequate. Renal scanning studies are shown below.
Nuclear medicine study is poor for the specific diagnosis of posterior urethral valves, but it is excellent for assessment of the upper-tract consequences.
False-positive findings can result when a urethral catheter is not used. High bladder storage pressure or vesicoureteral reflux can prevent drainage from the kidney and ureter. Distal ureteral obstruction by ureterovesical junction obstruction or a ureterocele can mimic the changes of valves. False-negative findings can be seen in cases in which there is normal renal function and drainage.
Gupta RK, Shah HS, Jadhav V, et al. Urethral ratio on voiding cystourethrogram: a comparative method to assess success of posterior urethral valve ablation. J Pediatr Urol. 2010 Feb. 6(1):32-6. [Medline].
Bhadoo D, Bajpai M, Abid A, Sukanya G, Agarwala S, Srinivas M, et al. Study of prognostic significance of antenatal ultrasonography and renin angiotensin system activation in predicting disease severity in posterior urethral valves. J Indian Assoc Pediatr Surg. 2015 Apr-Jun. 20 (2):63-7. [Medline].
Bhadoo D, Bajpai M, Panda SS. Posterior urethral valve: Prognostic factors and renal outcome. J Indian Assoc Pediatr Surg. 2014 Jul. 19 (3):133-7. [Medline].
Young HH, Frontz WA, Baldwin JC. Congenital obstruction of the posterior urethra. J Urol, 3: 289-365, 1919. J Urol. 2002 Jan. 167(1):265-7; discussion 268. [Medline].
Youssif M, Dawood W, Shabaan S, et al. Early valve ablation can decrease the incidence of bladder dysfunction in boys with posterior urethral valves. J Urol. 2009 Oct. 182(4 Suppl):1765-8. [Medline].
Kibar Y, Ashley RA, Roth CC, et al. Timing of posterior urethral valve diagnosis and its impact on clinical outcome. J Pediatr Urol. 2010 Sep 7. [Medline].
Pico H, Dabadie A, Bourliere-Najean B, Philip N, Capelle M, Aschero A, et al. Contribution of the foetal uro-MRI in the prenatal diagnosis of uronephropathies. Diagn Interv Imaging. 2014 Jun. 95 (6):573-8. [Medline].
Williams CR, Pérez LM, Joseph DB. Accuracy of renal-bladder ultrasonography as a screening method to suggest posterior urethral valves. J Urol. 2001 Jun. 165(6 pt 2):2245-7. [Medline].
John S Wiener, MD, FACS, FAAP Associate Professor of Surgery and Associate Residency Program Director, Division of Urologic Surgery, Associate Professor of Pediatrics, Duke University School of Medicine
John S Wiener, MD, FACS, FAAP is a member of the following medical societies: Alpha Omega Alpha, American Academy of Pediatrics, Society for Pediatric Urology, Society of University Urologists, Society for Fetal Urology, American College of Surgeons, American Medical Association, American Urological Association
Disclosure: Nothing to disclose.
Ana Maria Gaca, MD Assistant Professor, Division of Pediatric Radiology, Duke University Medical Center
Disclosure: Nothing to disclose.
Bernard D Coombs, MB, ChB, PhD Consulting Staff, Department of Specialist Rehabilitation Services, Hutt Valley District Health Board, New Zealand
Disclosure: Nothing to disclose.
Kieran McHugh, MB, BCh Honorary Lecturer, The Institute of Child Health; Consultant Pediatric Radiologist, Department of Radiology, Great Ormond Street Hospital for Children, London, UK
Kieran McHugh, MB, BCh is a member of the following medical societies: American Roentgen Ray Society, Royal College of Radiologists
Disclosure: Nothing to disclose.
Eugene C Lin, MD Attending Radiologist, Teaching Coordinator for Cardiac Imaging, Radiology Residency Program, Virginia Mason Medical Center; Clinical Assistant Professor of Radiology, University of Washington School of Medicine
Eugene C Lin, MD is a member of the following medical societies: American College of Nuclear Medicine, American College of Radiology, Radiological Society of North America, Society of Nuclear Medicine and Molecular Imaging
Disclosure: Nothing to disclose.
Lori Lee Barr, MD, FACR, FAIUM Clinical Assistant Professor of Radiology, University of Texas Medical Branch at Galveston School of Medicine; Member, Board of Directors, Austin Radiological Association; Consulting Staff, Seton Health Network, Columbia/St David’s Healthcare System, Healthsouth Rehabilitation Hospital of Austin, Georgetown Hospital, St Mark’s Medical Center, Cedar Park Regional Medical Center
Lori Lee Barr, MD, FACR, FAIUM is a member of the following medical societies: American Roentgen Ray Society, Association of University Radiologists, Southern Medical Association, Undersea and Hyperbaric Medical Society, American Society of Pediatric Neuroradiology, Society of Radiologists in Ultrasound, Texas Radiological Society, American Association for Women Radiologists, American College of Radiology, American Institute of Ultrasound in Medicine, Radiological Society of North America, Society for Pediatric Radiology
Disclosure: Nothing to disclose.
Jeffrey Sekula, MD Staff Physician, Chief Resident in Urology, Department of Urology, Duke University Medical Center
Disclosure: Nothing to disclose.
Posterior Urethral Valve Imaging
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