CC BY 4.0 · European J Pediatr Surg Rep. 2019; 07(01): e79-e82
DOI: 10.1055/s-0039-1697925
Case Report
Georg Thieme Verlag KG Stuttgart · New York

An Unusual Case of Syringohydromyelia Presenting with Neurogenic Bladder

Antonella Geljic
1   Department of Paediatrics, Klinika za djecje bolesti Zagreb, Zagreb, Croatia
,
Slaven Abdovic
2   Department of Pediatric Nephrology, Klinika za djecje bolesti Zagreb Klinika za pedijatriju, Zagreb, Croatia
,
Fran Stampalija
3   Department of Pediatric Urology, Klinika za djecje bolesti Zagreb, Zagreb, Croatia
,
Lana Loncar
4   Department of Pediatric Neurology, Klinika za djecje bolesti Zagreb Klinika za pedijatriju, Zagreb, Croatia
,
Batos A. Tripalo
5   Department of Pediatric Radiology, Klinika za djecje bolesti Zagreb, Zagreb, Croatia
,
Martin Cuk
2   Department of Pediatric Nephrology, Klinika za djecje bolesti Zagreb Klinika za pedijatriju, Zagreb, Croatia
› Institutsangaben
Weitere Informationen

Address for correspondence

Antonella Geljic, MD
Department of Paediatrics, Klinika za djecje bolesti Zagreb
Klaiceva 16, Zagreb 10000
Croatia   

Publikationsverlauf

02. Januar 2019

19. August 2019

Publikationsdatum:
22. November 2019 (online)

 

Abstract

We report the case of a 4-year-old boy who first presented with acute pyelonephritis at the age of 6 months. Diagnostic workup revealed high-grade bilateral vesicourethral reflux (VUR). At the age of 18 months, a bulking agent was used to treat bilateral VUR. Since the VUR persisted, an open bilateral Lich-Gregoir procedure was done at the age of 3 years. Immediately after surgery, he developed acute urinary retention with hydronephrosis that resolved with the placement of dwelling urinary catheter. After removal of the catheter urinary retention relapsed so placement of suprapubic urinary catheter was indicated since he did not have sensory loss. He was started with tamsulosin (α − 1-blocker) and prophylactic antibiotics. Urodynamics were performed and suggested bladder outlet obstruction. On the basis of previous urethroscopy and the absence of neurological sequelae, the differential diagnosis of Hinman syndrome was made. After removal of the suprapubic catheter, clean intermittent catheterization was started and α-blocker continued. However, magnetic resonance imaging of the brain and the spinal cord revealed syringohydromyelia extending from thoracic spine (Th5) to conus medullaris with 6 to 7 mm in diameter. Electromyoneurogram was normal. After a follow-up of 3 years, the hydronephrosis has resolved. The patient is on clean intermittent catherization and has no urinary tract infections.


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New Insights and the Importance for the Pediatric Surgeon

Syringohydromyelia is a very rare cause of neurogenic bladder in a boy without overt neurological sequels. This is the first reported case in a child to date.

Introduction

Neurogenic bladder is a dysfunction of the urinary bladder due to disease of the central nervous system or peripheral nerves involved in the control of urination.[1] The most common causes of neurogenic bladder in children are neurospinal dysraphisms such as spina bifida, sacral agenesis, tethered cord, and spinal cord injury.[2] Up to a third of children with neurogenic bladder have vesicoureteral reflux (VUR).[3] In case of neurogenic bladder, the presumed pathomechanism of VUR is a reflux secondary to elevated bladder pressures rather than due to a defective ureterovesical junction.[2] The initial management involves clean intermittent catheterization (CIC) with or without prophylactic antibiotic therapy in combination with an anticholinergic agent.[4] In children with VUR refractory to conservative measures, management includes surgery with ureteral implantation, bladder augmentation, or a combination of treatment methods.[3] Urinary incontinence and bladder dysfunction are rarely described as the first manifestation of syringomyelia,[5] [6] a fluid-filled, gliosis-lined cavity within the spinal cord[7] prevalent in 8.4 cases per 100,000 children.[8] Hydromyelia refers to a fluid-filled cavity within the spinal cord lined by ependymal, which likely results from a developmentally nonobliterated central canal.[9] The two terms are often interchanged. The aim of this article was to present an unusual case of syringomyelia that presented with neurogenic bladder without apparent neurological sequels.


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Case Report

A 1.5-year-old boy was referred to our clinic for the endoscopic treatment of bilateral VUR (grade V on the left side and grade II/III on the right side). He was born after a third pregnancy and was healthy until the age of 6 months when he presented with an episode of acute pyelonephritis. Since spontaneous remission did not occur, instillation of bulking agent bilaterally was done at the age of 18 months. Cystoscopy revealed a bladder with trabeculation. Six months after endoscopic treatment, a contrast-enhanced voiding urosonography was done that revealed still present high-grade VUR on both sides. Since urodynamic study performed at the age of 15 months in other clinic was unremarkable, we chose to perform the Lich-Gregoir procedure with reimplantation of both ureters. Soon after surgery, he developed acute urinary retention with newly established bilateral hydronephrosis. Dwelling urinary catheter was placed after which hydronephrosis resolved. Because of the voiding difficulties and large postvoid residual (PVR), tamsulosin (α-1-adrenergic blocker) and prophylactic antibiotics were initiated. After removal of the catheter urinary retention relapsed so placement of suprapubic urinary catheter was indicated since he did not have sensory loss to initiate CIC. At that point, urodynamic study was repeated in our clinic and bladder outlet obstruction was suggested on the basis of high PQmax of 65 cm H2O. On the basis of unremarkable neurological exam, differential diagnosis was Hinman syndrome. Magnetic resonance imaging (MRI) at this moment was unavailable. Four-hour voiding observation showed significant PVR. After removal of the suprapubic catheter, CIC was started and α-blocker continued. A pediatric neurologist examined the patient and found no abnormal findings; the patient did not have leg weakness or sensory loss. However, MRI of the brain and the spinal cord was done and revealed syringohydromyelia extending from thoracic spine (Th5) to conus medullaris with 6 to 7 mm in diameter ([Fig. 1]). There were no signs of Chiari 1 malformation on brain scans. Electromyoneurogram (EMNG) of the lower extremities was normal. Neurosurgical consult was done. After a follow-up of 3 years, the hydronephrosis has resolved. The patient is on CIC and has no urinary tract infections. The follow-up ultrasonography demonstrated the right kidney with a size of 8.03 cm, with no hydronephrosis and the hypoplastic left kidney with a size of 5.3 cm.

Zoom Image
Fig. 1 Sagittal T2-weighted magnetic resonance imagings (MRIs) of the patient showing syringohydromyelia from conus medullaris (A) to thoracic spine, (B) axial T2-weighted MRI of the syrinx (C) and cranial MRI without Chiari 1 malformation (D).

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Discussion

Most conditions under the group of spinal dysraphism can cause cord tethering and can be associated with syringomyelia. Our case was not associated with Chiari 1 malformation, tethered cord, or any other clear precipitating cause; our patient had idiopathic syringomyelia (IS). There are several studies about the treatment of IS in adult patients,[10] [11] but only a few in pediatric population. A two-centered study conducted at Children's Hospital, Boston, Massachusetts and St Luis Children's Hospital, Missouri, concluded that the condition is benign and can be treated conservatively.[12] Another study undertaken at Sheffield Children's Hospital, Sheffield, UK, also concluded that IS is a benign pathology, which can be managed expectantly.[13] Singhal et al also concluded that syringomyelia often remains stable in patients receiving nonoperative treatment.[14] On the basis of first urodynamic study, which was unremarkable, endoscopic antireflux surgery was first treatment of choice for our patient. This procedure has high success rate in primary VUR, while success rates in neurogenic bladder patients have been reported from 53 to 86%.[15] Furthermore, this procedure is less effective in higher grades of reflux and success is generally transient rather than permanent; so patients require long-term follow-up.[16] Since our patient had a persistence of VUR after using the bulking agent, we chose to perform ureteral implantation. At this point, we did not suspect that our patient could have neurogenic bladder since we did not question the validity of first urodynamics. With adequate bladder capacity (% estimated bladder capacity > 70%) and compliance (>7 mL/cm H2O), high grades of reflux have been treated with ureteral implantation alone.[17] [18] Postoperative urinary retention after bilateral ureteral reimplantation is common, but is usually transient[19]; what was not the case with our patient. The differential diagnosis of Hinman syndrome was made on the basis of normal neurological examination and MRI at that moment was not available. It is unusual for syringohydromyelia to present with neurogenic bladder only; it usually presents with back pain, brachial amyotrophy, dissociated sensory loss, and neurogenic arthropathies.[13] Finally, Hinman syndrome, non-neurogenic neurogenic bladder, could still be a differential diagnosis if we consider IS as a benign condition, especially with other neurological sequelae absent and EMNG of the lower extremities normal.


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Conclusion

Neurogenic bladder as the first and only manifestation of syringohydromyelia is rare and can mislead diagnostic workup and delay appropriate therapy. Proper neurologic examination, including MRI, should be done in patients with neurogenic bladder.


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Conflict of Interest

None.

  • References

  • 1 Dorsher PT, McIntosh PM. Neurogenic bladder. Adv Urol 2012; 2012: 816274
  • 2 Bauer SB. Neurogenic bladder: etiology and assessment. Pediatr Nephrol 2008; 23 (04) 541-551
  • 3 Wu CQ, Franco I. Management of vesicoureteral reflux in neurogenic bladder. Investig Clin Urol 2017; 58 (Suppl. 01) S54-S58
  • 4 López Pereira P, Martinez Urrutia MJ, Lobato Romera R, Jaureguizar E. Should we treat vesicoureteral reflux in patients who simultaneously undergo bladder augmentation for neuropathic bladder?. J Urol 2001; 165 (6 Pt 2): 2259-2261
  • 5 Pindrik J, Johnston Jr JM. Clinical presentation of Chiari I malformation and syringomyelia in children. Neurosurg Clin N Am 2015; 26 (04) 509-514
  • 6 Sakakibara R, Hattori T, Yasuda K, Yamanishi T. Micturitional disturbance in syringomyelia. J Neurol Sci 1996; 143 (1-2): 100-106
  • 7 Klekamp J. How should syringomyelia be defined and diagnosed?. World Neurosurg 2018; 111: e729-e745
  • 8 Milhorat TH. Classification of syringomyelia. Neurosurg Focus 2000; 8 (03) E1 . Doi: 10.3171/foc.2000.8.3.1
  • 9 Roser F, Ebner FH, Sixt C, Hagen JM, Tatagiba MS. Defining the line between hydromyelia and syringomyelia. A differentiation is possible based on electrophysiological and magnetic resonance imaging studies. Acta Neurochir (Wien) 2010; 152 (02) 213-219 , discussion 219
  • 10 Bogdanov EI, Heiss JD, Mendelevich EG, Mikhaylov IM, Haass A. Clinical and neuroimaging features of “idiopathic” syringomyelia. Neurology 2004; 62 (05) 791-794
  • 11 Holly LT, Batzdorf U. Slitlike syrinx cavities: a persistent central canal. J Neurosurg 2002; 97 (2, Suppl): 161-165
  • 12 Magge SN, Smyth MD, Governale LS. , et al. Idiopathic syrinx in the pediatric population: a combined center experience. J Neurosurg Pediatr 2011; 7 (01) 30-36
  • 13 Joseph RN, Batty R, Raghavan A, Sinha S, Griffiths PD, Connolly DJA. Management of isolated syringomyelia in the paediatric population--a review of imaging and follow-up in a single centre. Br J Neurosurg 2013; 27 (05) 683-686
  • 14 Singhal A, Bowen-Roberts T, Steinbok P, Cochrane D, Byrne AT, Kerr JM. Natural history of untreated syringomyelia in pediatric patients. Neurosurg Focus 2011; 31 (06) E13
  • 15 Perez-Brayfield M, Kirsch AJ, Hensle TW, Koyle MA, Furness P, Scherz HC. Endoscopic treatment with dextranomer/hyaluronic acid for complex cases of vesicoureteral reflux. J Urol 2004; 172 (4 Pt 2): 1614-1616
  • 16 Engel JD, Palmer LS, Cheng EY, Kaplan WE. Surgical versus endoscopic correction of vesicoureteral reflux in children with neurogenic bladder dysfunction. J Urol 1997; 157 (06) 2291-2294
  • 17 Morioka A, Miyano T, Ando K, Yamataka T, Lane GJ. Management of vesicoureteral reflux secondary to neurogenic bladder. Pediatr Surg Int 1998; 13 (08) 584-586
  • 18 Granata C, Buffa P, Di Rovasenda E. , et al. Treatment of vesico-ureteric reflux in children with neuropathic bladder: a comparison of surgical and endoscopic correction. J Pediatr Surg 1999; 34 (12) 1836-1838
  • 19 Lipski BA, Mitchell ME, Burns MW. Voiding dysfunction after bilateral extravesical ureteral reimplantation. J Urol 1998; 159 (03) 1019-1021

Address for correspondence

Antonella Geljic, MD
Department of Paediatrics, Klinika za djecje bolesti Zagreb
Klaiceva 16, Zagreb 10000
Croatia   

  • References

  • 1 Dorsher PT, McIntosh PM. Neurogenic bladder. Adv Urol 2012; 2012: 816274
  • 2 Bauer SB. Neurogenic bladder: etiology and assessment. Pediatr Nephrol 2008; 23 (04) 541-551
  • 3 Wu CQ, Franco I. Management of vesicoureteral reflux in neurogenic bladder. Investig Clin Urol 2017; 58 (Suppl. 01) S54-S58
  • 4 López Pereira P, Martinez Urrutia MJ, Lobato Romera R, Jaureguizar E. Should we treat vesicoureteral reflux in patients who simultaneously undergo bladder augmentation for neuropathic bladder?. J Urol 2001; 165 (6 Pt 2): 2259-2261
  • 5 Pindrik J, Johnston Jr JM. Clinical presentation of Chiari I malformation and syringomyelia in children. Neurosurg Clin N Am 2015; 26 (04) 509-514
  • 6 Sakakibara R, Hattori T, Yasuda K, Yamanishi T. Micturitional disturbance in syringomyelia. J Neurol Sci 1996; 143 (1-2): 100-106
  • 7 Klekamp J. How should syringomyelia be defined and diagnosed?. World Neurosurg 2018; 111: e729-e745
  • 8 Milhorat TH. Classification of syringomyelia. Neurosurg Focus 2000; 8 (03) E1 . Doi: 10.3171/foc.2000.8.3.1
  • 9 Roser F, Ebner FH, Sixt C, Hagen JM, Tatagiba MS. Defining the line between hydromyelia and syringomyelia. A differentiation is possible based on electrophysiological and magnetic resonance imaging studies. Acta Neurochir (Wien) 2010; 152 (02) 213-219 , discussion 219
  • 10 Bogdanov EI, Heiss JD, Mendelevich EG, Mikhaylov IM, Haass A. Clinical and neuroimaging features of “idiopathic” syringomyelia. Neurology 2004; 62 (05) 791-794
  • 11 Holly LT, Batzdorf U. Slitlike syrinx cavities: a persistent central canal. J Neurosurg 2002; 97 (2, Suppl): 161-165
  • 12 Magge SN, Smyth MD, Governale LS. , et al. Idiopathic syrinx in the pediatric population: a combined center experience. J Neurosurg Pediatr 2011; 7 (01) 30-36
  • 13 Joseph RN, Batty R, Raghavan A, Sinha S, Griffiths PD, Connolly DJA. Management of isolated syringomyelia in the paediatric population--a review of imaging and follow-up in a single centre. Br J Neurosurg 2013; 27 (05) 683-686
  • 14 Singhal A, Bowen-Roberts T, Steinbok P, Cochrane D, Byrne AT, Kerr JM. Natural history of untreated syringomyelia in pediatric patients. Neurosurg Focus 2011; 31 (06) E13
  • 15 Perez-Brayfield M, Kirsch AJ, Hensle TW, Koyle MA, Furness P, Scherz HC. Endoscopic treatment with dextranomer/hyaluronic acid for complex cases of vesicoureteral reflux. J Urol 2004; 172 (4 Pt 2): 1614-1616
  • 16 Engel JD, Palmer LS, Cheng EY, Kaplan WE. Surgical versus endoscopic correction of vesicoureteral reflux in children with neurogenic bladder dysfunction. J Urol 1997; 157 (06) 2291-2294
  • 17 Morioka A, Miyano T, Ando K, Yamataka T, Lane GJ. Management of vesicoureteral reflux secondary to neurogenic bladder. Pediatr Surg Int 1998; 13 (08) 584-586
  • 18 Granata C, Buffa P, Di Rovasenda E. , et al. Treatment of vesico-ureteric reflux in children with neuropathic bladder: a comparison of surgical and endoscopic correction. J Pediatr Surg 1999; 34 (12) 1836-1838
  • 19 Lipski BA, Mitchell ME, Burns MW. Voiding dysfunction after bilateral extravesical ureteral reimplantation. J Urol 1998; 159 (03) 1019-1021

Zoom Image
Fig. 1 Sagittal T2-weighted magnetic resonance imagings (MRIs) of the patient showing syringohydromyelia from conus medullaris (A) to thoracic spine, (B) axial T2-weighted MRI of the syrinx (C) and cranial MRI without Chiari 1 malformation (D).