Emergency. 2017; 5 (1): e48

CA S E RE P O RT

A 5-Month-Old Infant with Right Scrotum Swelling; a Case
Report
Shih-Wen Hung1,3, Kuo-Chih Chen1,3, Chin-Chu Wu2, Tzong-Luen Wang1,3, Aming Chor-Ming Lin1,3∗

1. Emergency Department, Shin Kong Wu Ho-Su Memorial Hospital, Taipei, Taiwan.

2. Department of Medical Imaging, Shin Kong Wu Ho-Su Memorial Hospital, Taipei, Taiwan.

3. School of Medicine, Fu-Jen Catholic University, New Taipei City, Taiwan.

Received: September 2016; Accepted: September 2016; Published online: 14 January 2017

Abstract: Migration of the distal catheters of ventriculoperitoneal (VP) shunt is a rare event. Here, we report an unusual
case of a 5-month-old infant with post-hemorrhagic hydrocephalus, who developed right scrotum swelling soon
after VP shunting. Plain abdominal x-ray showed the shunt tubing, which was twisted and kinked in its distal
portion and coiled in the right scrotum. The infant was operated on and managed with successful outcome.

Keywords: Ventriculoperitoneal shunt; equipment failure; hydrocephalus; radiography, abdominal; case reports

© Copyright (2017) Shahid Beheshti University of Medical Sciences

Cite this article as: Hung SW, Chen KC, Wu CC, Wang TL, Lin AC. A 5-Month-Old Infant with Right Scrotum Swelling; a Case Report. Emer-

gency. 2017; 5 (1): e48.

1. Introduction

Ventriculoperitoneal (VP) shunting is one of the most

common pediatric neurosurgery operations performed for

dealing with hydrocephalus (1). Following the performance

of this procedure, excess cerebrospinal fluid (CSF) will be

diverted from the brain ventricles to the peritoneal cavity of

the abdomen via a catheter (2). However, it can be associated

with numerous complications and consequences such as

infection, knotting, malfunction and etc. that are reported to

have a rate as high as 70% in the first year after placement

and an annual occurrence rate of about 5% thereafter (2, 3).

Migration of the distal tube of VP shunt into several body

compartments are among rare complications of VP shunting,

which have been reported as case reports in existing litera-

ture (4-7). Here we report a case of distal portion migration

of VP shunt through the processus vaginalis into the scrotum.

∗Corresponding Author: Aming Chor-Ming Lin; Emergency Department,
Shin Kong Wu Ho-Su Memorial Hospital, 95 Wen Chang Rd, Shih Lin Dis-
trict, Taipei 111 Taiwan. Tel: 886-02-28332211 Ext 2082; Fax: 886-02-28353547;
Email: amingphd@yahoo.com.tw; M002001@ms.skh.org.tw

2. Case presentation:

A five-month-old male infant was referred to the emergency

department with history of right scrotal swelling, which had

slowly grown over several days. There was no history of vom-

iting, diarrhea, hematuria, irritability or scrotum trauma.

The patient was born at 28 weeks gestational age, with birth-

weight of 1020 gr. As a result of prematurity, he had post-

hemorrhagic hydrocephalus and a left sided VP shunt was

placed 3 months after birth. Check-up frontal radiography of

the chest and abdomen performed after operation is shown

in figure 1.

On arrival, vital signs were as follows: temperature 36◦c,
pulse rate 120 beats/minute, respiratory rate 30 breaths/min,

blood pressure 100/62 mmHg and SaO2 99%. In physical ex-

amination, he appeared malnourished. The right scrotum

was found to be distended. Bilateral testicles were palpable

on both sides. There were no features of shunt malfunction.

A complete blood cell count showed the following: leukocyte

count 7900/mm3; segmented neutrophils 65%; hemoglobin

level 9.3 mg/dL; hematocrit 25.9%; and platelet 190000/uL.

Other laboratory studies included: glucose 92 mg/dL;

serum urea nitrogen 10 mg/dL; serum creatinine 0.2 mg/dL;

sodium 140 mEq/L; potassium 3.9 mEq/L; C-reactive protein

2.9mg/L; and prothrombin time with an international nor-

malized ratio of 1.2.

The patient underwent an abdomen x-ray that is shown in

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Sh. Hung et al. 2

Figure 1: Abdominal radiography of patients after ventriculo-

peritoneal shunt placement.

figure 2. Abdomen x-ray showed the shunt tube in the ab-

domen, which was twisted and kinked in its distal portion

and coiled in the right scrotum.

Operation was performed by right groin incision. The peri-

toneal end of the shunt was repositioned in the peritoneal

cavity, and the processus vaginalis was closed. The pa-

tient had an uneventful postoperative recovery and was dis-

charged four days later.

3. Discussion:

VP shunts are catheters that are inserted into the ventricles

within the brain and threaded under the skin from the skull

to the peritoneum, where excess CSF is drained (2). VP

shunting for hydrocephalus is one of the most common

operations in pediatric neurosurgery. Shunt is placed to

divert CSF from the dilated ventricles to the peritoneal

cavity, where it is absorbed.

VP shunting is associated with well-known complications

including over drainage, obstruction or malfunction, infec-

tion, coiling, migration, knotting and viscous perforation

(8-11). VP shunt complications are classified as mechan-

Figure 2: Abdominal radiography of patient in emergency depart-

ment.

ical, functional and infective. Shunt infection is the most

common post-operative complication. Another common

complication of a VP shunt is shunt obstruction or malfunc-

tion. The definitive treatment for both infection and shunt

obstruction is surgical shunt revision. A proper clinical

assessment leads to timely identification of complications

and their prompt treatment. Infants with VP shunts should

be monitored lifelong by neurosurgeons. Migration of the

distal catheters of VP shunt is a rare complication. The distal

catheter of VP shunt can migrate into various body parts.

Migration of VP shunt has been reported in several body

compartments, including the mediastinum, chest, abdom-

inal wall, gastrointestinal tract, and pelvic cavity (11, 12).

Common presentations of VP shunt malposition complica-

tions include peritonitis, gastrointestinal perforation, ileus,

inguinal hernia, peritoneal pseudocysts, loss of catheter into

the peritoneal cavity, and abscesses. Most of these patients

present with abdominal signs. Migration occurs when the

shunt tube moves from its original position to a location that

inhibits proper drainage. Migration of the distal portion of

the shunt through the processus vaginalis into the scrotum

is a very rare complication (13). The migration of a tube into

the scrotum also requires a patent processus vaginalis. This

event can be subsequent to high intra-abdominal pressure

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3 Emergency. 2017; 5 (1): e48

causing migration of the catheter into scrotum. The length of

the distal catheter in peritoneal cavity raises the probability

of migration. Migration can occur due to improper length.

In our case, the plain abdominal x-ray showed the shunt

tube, which was twisted and kinked in its distal portion and

coiled in the right scrotum. Gupta M et al. investigated 30

children with full-length peritoneal shunts to recognize the

rate of complications. Out of the 30 children, the minimum

length of the distal catheter placed in peritoneal cavity was

44 cm and the maximum length was 52 cm. It was shown

that use of an extended length peritoneal shunt catheter

was not associated with an increase in complications and

eliminated the need to lengthen the peritoneal catheter

for growth of the patient (14). Long-term outcome of VP

shunt placement in infants revealed a relatively high rate of

complications requiring shunt revision as late as 30 years

after initial placement (15). Usually the primary image is

easily accessible and frequently compared to newly taken

images to diagnose migration of the distal catheter of VP

shunt. A high index of suspicion is required when making

the diagnosis. Diagnosis can be established by plain x-ray

of the abdomen, which identifies the distal portion of the

shunt tube in the scrotum. Prompt surgical management

for catheter repositioning is recommended in these cases to

avoid the risk of further complications.

4. Appendix

4.1. Acknowledgements

We would like to express our special thanks to Shin Kong Wu

Ho-Su Memorial Hospital staff.

4.2. Author’s contribution

All authors passed four criteria for authorship contribution

based on recommendations of the International Committee

of Medical Journal Editors.

4.3. Conflict of interest

None declared.

4.4. Funding

None declared.

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	Introduction
	Case presentation:
	Discussion: 
	Appendix
	References