Sultan Qaboos University Med J, August 2012, Vol. 12, Iss. 3, pp. 352-356, Epub. 15th Jul 12
Submitted: 6th Dec 11
Revision: Req. 30th Jan 12, Revision Recd. 7th Feb 12
Accepted: 17th Mar 12

Department of Surgery, Sultan Qaboos University Hospital, Muscat, Oman. 
*Corresponding Author e-mail: rajeevkariyattil@gmail.com

انفتاق الدماغ الَرْضِحي احلاد من خالل األذن يف طفل
 كسر مركب خمفي

راجيف كارياتل، اأونيكري�سنان موثوكوتيبارامبل
امللخ�ص: فتاة يف ال�سابعة من عمرها تعر�ست حلادث �سيارة، اأ�سيبت على اأثره بان�سباب ال�سائل النخاعي من الأذن اليمنى، وبعد اأ�سبوع 
ال�سمعية  بالقناة  املو�سل  ال�سقيف  يف  ك�رس  وجود  للدماغ  املحو�سب  املقطعي  الت�سوير  م�سح  اأظهر  اليمنى.  الأذن  خالل  من  الدماغ  انبثق 
اخلارجية. مل يكن هناك اأي �سعف يف ال�سمع اأو الع�سب الوجهي، واأظهر الفح�ض مبنظار الأذن �سالمة غ�ساء الطبلة. خ�سعت الطفلة لإ�سالح 
عرب اجلمجمة من قاعدة احلفرة القحفية الو�سطى، ك�سف ذلك عن وجود خلل �سحائي وعظمي وا�سع يف ال�سقيف مع فتق يف الف�ض ال�سدغي. 

اأ�سلح اخللل داخل اجلافية بن�سيج ا�سطناعي. وتناق�ض ندرة هذا النوع من العر�ض من ك�سور العظام ال�سدغية وكيفية عالجها.
مفتاح الكلمات: طب الأطفال، ك�رس يف اجلمجمة، قاعدة القحف، قيَلٌة ِدماِغيٌَّة َلكي�ِسيَّة، تقرير حالة؛ ُعمان.

ABSTRACT: A seven-year-old girl presented to Sultan Qaboos University Hospital, Oman, with a history of having 
been hit by a motor vehicle. After this, she had right-sided cerebrospinal fluid otorrhoea, and a week later, brain 
matter extruded through the right ear. A computed tomography scan of the brain demonstrated a tegmen fracture 
communicating with the external auditory canal. There was no hearing or facial nerve impairment and an otoscopic 
examination showed an intact tympanic membrane. She underwent a transcranial repair of the middle cranial fossa 
base, which revealed a wide dural and bony defect of the tegmen with herniation of the temporal lobe. Repair was 
made with an intradural patch of artificial dura. The rarity of this type of presentation of temporal bone fracture 
and its management are discussed.

Keywords:  Pediatric; Skull fracture, Basilar; Encephalocele; Case Report; Oman.

Traumatic Acute Brain Herniation through the 
Ear in a Child

Concealed compound fracture
*Rajeev Kariyattil and Unnikrishnan Muthukuttiparambil

CASE REPORT

Skull-base fractures are rare in childhood, with reported frequencies being 5–14% of head injuries but, when they do 
occur, they are most often located in the temporal 
bone. Of the temporal bone fractures, only about 
8% cause cerebrospinal fluid (CSF) otorrhoea, and 
most of these cease spontaneously.1 Endaural brain 
herniation, though uncommonly seen following 
mastoid surgery, is a very rare complication 
following trauma and, when it occurs, has a delayed 
presentation.2,8 Acute herniation of brain matter 
through the ear following trauma has not been 
previously reported. We report a child presenting 
with acute herniation of brain matter through 
the ear following trauma, and the successful 

management of the herniation.

Case Report
A seven-year-old girl who was brought to the 
Emergency room after being hit by a car while 
out walking. Her Glasgow coma scale (GCS) score 
on arrival was 11, with evidence of bleeding from 
nasal and oral cavities, and the right ear. Her pupils 
were equal in reaction to light, and she was able to 
move her limbs equally. There was a scalp swelling 
in the right temporal region. As she was restless 
and irritable, she was intubated and taken for an 
emergency computed tomography (CT) scan.

The CT scan showed a comminuted fracture of 



Rajeev Kariyattil, Unnikrishnan Muthukuttiparambil

Case Report | 353

the right squamous temporal bone extending to the 
occipital bone, and an oblique fracture of the right 
petrous temporal bone sparing the otic capsule with 
wide separation of the margins [Figures 1A and 1B]. 
In addition, there was fracture of the basisphenoid 
with blood in the sphenoid and ethmoid sinuses 
and evidence of pneumocephalus in the frontal 
region and basal cisterns. 

After mechanical ventilation overnight, the level 
of consciousness improved. A repeat scan showed 
no new changes and she was extubated. There was 
no facial nerve palsy. The otorrhoea persisted and 
examination of the right ear showed blood clots, 

which were cleaned. CSF otorrhoea and clots 
continued to be seen over the next week when it 
was noticed that there was a whitish substance 
coming out of the right ear, especially when the child 
coughed or strained. Closer examination revealed 
this substance to be brain matter. An otoscopic 
examination after clearing the canal, revealed an 
intact tympanum. No discernible defect in the canal 
could be seen. 

The child underwent transcranial surgical repair 
of the skull base defect. After a right temporal 
craniotomy, subtemporal exploration extradurally 
revealed a wide fracture defect in the tegmen with 

Figure 1: (A) Axial computed tomography scan showing an oblique fracture of the right petrous temporal bone sparing 
the otic capsule (arrow). (B) Coronal reconstruction of computed tomography scan showing the fracture involving the 
squamous and petrous temporal bone with wide separation of the fragments and involvement of the external auditory 
canal (arrow). (C) 3D-reconstruction computed tomography scan showing the fracture line isolating the squamous and 
mastoid parts of the temporal bone as a single unit.



Traumatic Acute Brain Herniation through the Ear in a Child Concealed compound fracture

354 | SQU Medical Journal, August 2012, Volume 12, Issue 3

the dura adherent to the margins. The dura was then 
opened, revealing brain matter herniating into the 
bony defect. The herniating brain was transected 
and an intradural repair was carried out using 
a patch of artificial dura (Durepair®, Medtronic 
Neurosurgery, Minneapolis, USA). After wound 
closure, the external canal was again examined and 
cleaned, but there was no active CSF leak. A lumbar 
intrathecal drain was placed at the end of the 
procedure, which was removed after 3 days. There 
was no further CSF otorrhoea. On the 5th post-
operative day, however, she developed fever along 
with meningeal signs. Lumbar CSF was turbid and 

grew Acinetobacter baumannii, which was treated 
with intravenous antibiotics for 2 weeks. She was 
then discharged with no further sequelae.

A follow-up after 2 months revealed no 
neurological deficit. A CT scan after 4 months 
showed a barely discernible fracture line in the 
petrous bone with no brain herniation [Figures 2a 
and 2b].

Discussion
About 4% of patients treated for head trauma 
have skull fractures, of which around 14–22% 

Figure 2: (A) Post operative axial computed tomography (CT) scan after 4 months showing an almost completely 
healed fracture line (arrow). (B) Post operative coronal reconstruction CT scan after 4 months showing the tegmen 
defect with no brain herniation into the external auditory canal (arrow).



Rajeev Kariyattil, Unnikrishnan Muthukuttiparambil

Case Report | 355

have temporal bone fractures.3 Paediatric skull 
base fractures are relatively uncommon, with 
reported incidences between 5 and 14%, of which 
temporal bone fractures were the most common 
at about 63.5%.1 Cadaveric studies have shown 
that a significant force of lateral impact of up to 
1,875 pounds (c. 850 kg) is required to fracture the 
temporal bone and hence is often associated with 
other significant intracranial injuries.3

Temporal bone fractures have traditionally been 
divided into transverse and longitudinal, based on 
the orientation of the fracture line to the axis of the 
petrous ridge. However, in practice, fractures often 
tend to be more random, comminuted and difficult 
to describe in just two axes alone, and hence the 
terms oblique and mixed have also been used. 
Another classification system is based on whether 
the otic capsule is spared as this directly influences 
neurological function. Otic capsule involvement 
has been associated with a higher rate of CSF leak, 
facial nerve injury, and hearing deficts.3,9

This patient had a comminuted fracture involving 
the temporal squama and an oblique fracture line 
passing through the petrous bone anterolateral 
to the otic capsule, through the tegmen tympani, 
external auditory canal, middle ear, and the mastoid. 
The whole segment of the squamous temporal bone 
along with the lateral part of the petrous bone had 
become an isolated fragment minimally displaced 
downwards [Figure 1C]. In spite of the severity of 
the injury, there was no significant neurological 
deficit, including of the facial or vestibulocochlear 
nerves, probably because the fracture spared the 
otic capsule. Facial injuries have also been reported 
to be less common in the paediatric age group 
irrespective of the otic capsule’s involvement.5

CSF otorrhoea occurs in about 11–45% of 
temporal bone fractures, with petrous fractures 
being 10 time more likely to cause a CSF leak.10 
Of these, the otic sparing types are less likely to 
have a leak.3,9 The majority of the leaks subside 
spontaneously—78% within 7 days and 95% within 
14 days.3

Traumatic endaural brain herniation is a rare 
occurrence. For brain herniation to occur, three 
pre-requisites have been described: there needs 
to be a bony defect, a dural defect, and increased 
intracranial pressure.8 Most of the cases described 
in the literature have been due to a congenital defect, 
chronic otitis, or surgery. Of the few post-traumatic 

cases described, all have presented in the form of 
a delayed recurrence of CSF leak or meningitis.2,4–8

Temporal fractures usually occur along points 
of weakness like the skull base foramina, tegmen 
tympani, and a well-pneumatised mastoid.3 The 
dura over the skull base is densely adherent to the 
bone, especially in the paediatric age group.1 In 
the event of a fracture with wide separation, as in 
this patient, it can result in a large dural tear with 
the margins adherent to this wide bony defect. A 
significant trauma like this with extensive bone 
fractures involving the frontal and temporal 
skull base can also cause associated parenchymal 
laceration of the basal temporal lobe and cerebral 
oedema. The fracture line passing through the 
external auditory canal could have also given rise to 
a concealed laceration of the roof of the canal. The 
combination of cortical injury, the wide dural and 
bony defect, and raised intracranial tension would 
have contributed to the brain herniation through 
this laceration like a concealed compound fracture.

The management of acute brain herniation 
mandates urgent surgical repair to avoid serious 
infective complications. Repair of CSF otorrhoea 
and endaural herniation has been done by a 
transcranial, transmastoid, or combined surgical 
approach. In neurosurgical literature, where the leak 
is usually post-traumatic, a middle fossa approach 
has been favoured.7 In the otorhinolaryngological 
literature, where most herniations follow mastoid 
surgeries, either a purely transmastoid route, or a 
combined middle fossa-transmastoid approach, 
has been advocated, depending on the size of 
the defect.5,6,8 The primary goal of surgery is to 
disconnect the encephalocele and perform dural 
repair. Dural repair is preferably done intradurally 
as the encephalocele is better handled under direct 
vision and the weight of the temporal lobe would 
support the graft better.6 Extradural repair would 
also entail more dural elevation and risk additional 
tears. Various materials have been used for the 
dural repair including fascia lata, vascularised 
pericranium, temporalis fascia, lyophilised dura, or 
a biosorbable polyglycolic acid sheet.5–8 

Repair of the bony defect with bone or cartilage 
has also been described.5 However, this is perhaps 
not always required as removal of the herniated 
brain and stoppage of CSF flow will in itself enable 
the fracture edges to heal in a bony or fibrous union 
[Figures 2a and 2b] and thereby prevent recurrence.



Traumatic Acute Brain Herniation through the Ear in a Child Concealed compound fracture

356 | SQU Medical Journal, August 2012, Volume 12, Issue 3

Conclusion
Temporal bone fractures, though less common in 
childhood, can result in CSF otorrhoea and, rarely, 
acute brain herniation. Wide fracture lines should 
alert us to this possibility as the herniation could be 
occult. Urgent repair is indicated to avoid serious 
infective complications. A transcranial, intradural 
repair is the most appropriate procedure, with a 
wide choice of possible repair materials available.

A C k N O w L E D G E M E N T

The authors wish to thank Dr. Faisal Al-Azri, 
consultant neuroradiologist, Sultan Qaboos 
University Hospital, Oman, for reviewing and 
selecting the images.

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