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Introduction:
Arachnoid cysts of the posterior fossa are rare. Controversy exists regarding
the management of asymptomatic or minimally symptomatic arachnoid cysts found
incidentally following closed head injury.
Case Report: A
previously healthy 8 year-old girl presented following a moderate closed head
injury. The patient complained of mild headache and nausea and had one episode
of vomiting but was without neurologic deficit. Computed tomography
demonstrated a left parieto-occipital epidural hematoma as well as a posterior
fossa arachnoid cyst. Neither lesion caused clinically significant mass effect.
In the absence of neurologic deficits, the patient was managed conservatively
without surgical intervention. Follow-up imaging demonstrated complete
resolution of both lesions.
Conclusion: This
case represents a rare spontaneous resolution of a posterior fossa arachnoid
cyst following a closed head injury and lends credence to the conservative
management of incidentally found, asymptomatic arachnoid cysts. However,
further discussion is needed regarding the management of asymptomatic arachnoid
cysts found in young, active individuals who may be at increased risk of
associated hemorrhage following closed head injury.
INTRODUCTION
Arachnoid
cysts account for about 1% of all intracranial mass lesions and are considered
congenital abnormalities [1,5, 9-12,16]. Approximately 50% of arachnoid cysts
occur in the middle cranial fossa with less common locations including the
convexity, the parasellar region, the quadrigeminal plate, the cerebellopontine
angle cisterns, the intraventricular space and the posterior cranial fossa. The
prevalence of arachnoid cysts in the general population though may be higher as
asymptomatic cysts are being increasingly diagnosed with modern imaging.
Hemorrhage and hematoma formation may occur with arachnoid cysts following even
minor head trauma. Large and symptomatic cysts are generally treated
successfully by surgical intervention [1,10,13]. Decompression of the cyst and associated
hematoma via a burr-hole or craniotomy has been reported [1,10,11,13]. Serial
observation is the norm for cysts without mass effect, hemorrhage, or clinical
signs or symptoms.
Arachnoid cysts have been linked to hematoma, hemorrhage, and subdural effusion formation following head trauma. Specifically, middle cranial fossa arachnoid cysts have a tendency to form subdural hematomas and hygromas [1,10,13]. Conversely, spontaneous resolution of arachnoid cysts has been reported – both following head injury or in the absence of any cranial trauma [5,9,11,12,15]. This phenomenon is primarily reported for cysts in the anterior and middle cranial fossa with only one spontaneous resolution of a posterior fossa cyst noted in an infant [1,5,9-13,15]. The case reported here is unique in that it represents a posterior fossa arachnoid cyst (PFAC) identified in a young, active child, that bled following a moderate closed head trauma but spontaneously decompressed without surgical intervention. It is believed that this is the only such case present in the literature.
CASE REPORT
This eight year-old, previously healthy Caucasian female fell down approximately 10 steps, striking her head upon a concrete floor without loss of consciousness. She complained of headache and nausea and had one episode of non-projectile vomiting. She had no neurologic deficits. Cranial CT scan demonstrated a small, biconvex, left parieto-occipital epidural hematoma (EDH, Figure 1a) without evidence of overlying fracture or significant underlying mass effect. In addition, an iso-dense extra-axial fluid collection with a focal high-density region was noted in the left posterior fossa (Figure 1b). On magnetic resonance imaging (MRI), the cyst located in the posterior aspect of the left posterior fossa measured 38 x 25 x 17 mm in size and had moderate mass effect, effacing but not occluding the adjacent fourth ventricle (Figure 1c). No radiographic evidence of hydrocephalus was appreciated. The patient was observed in the pediatric intensive care unit for 72 hours without neurologic decline and with gradual resolution of her symptoms. She was managed non-operatively because of the absence of neurologic deficit or symptoms and the minimal mass effect associated with both the supratentorial and infratentorial lesions.
At 1 week follow-up, the
patient reported occasional, mild headaches that were relieved by
over-the-counter medications. She denied any nausea, vomiting, or diplopia, and
had no neurological deficits. The headaches were aggravated when she bent over,
minimally exerted, or strained. Cranial CT scan showed no change in the left-sided
posterior arachnoid cyst, but the left parieto-occipital epidural hematoma was
slightly smaller. No new pathology was identified. The fourth ventricle was
open and the ventricular system was midline and without enlargement.
While they considered this
option, nausea and dizziness prompted another cranial CT scan three weeks later
that demonstrated complete resolution of the left parieto-occipital epidural
hematoma and the posterior fossa arachnoid cyst. Resolution of the cyst and
hematoma was verified by MRI at the two month follow-up visit (Figure 1d). The child was released to
full activities without restrictions six months after the initial injury. As of
2-year follow-up, she is doing well at a full level of activity including
participation in sporting events without restrictions.
DISCUSSION
Spontaneous resolution or
decompression of an arachnoid cyst generally occurs into the subarachnoid or
subdural space and has been reported both following trauma and in the absence
of any cranial injury [1,5,9-13,15]. Such resolution has also been reported in
symptomatic and asymptomatic patients over a period of months to years
[1,5,9-13,15]. The majority of cases of spontaneous resolution reportedly
followed a head injury with associated subdural hematoma and hygroma formation
that presumably communicated with the cyst cavity. The cases also commonly
involved middle cranial fossa cysts, although this may simply reflect the
preponderance of arachnoid cysts in this location as compared to other cranial
compartments [1,10,11,13,19].
The formation of cysts in
the middle cranial fossa is believed to be a consequence of malformation of the
sylvian fissure during fetal development [19]. Subdural hematomas, hygromas,
and subdural effusion formation in the presence of middle cranial fossa
arachnoid cysts have been attributed to the tearing of the arachnoid cyst wall
following head injury or spontaneously from rupture of bridging veins,
unsupported blood vessels, and leptomingeal vessels at the base of the cyst
[1,7,11,13]. Poor support of associated blood vessels may make them prone to
rupture with formation of epidural and sudural hematomas subsequent to
relatively minor trauma [4]. Surgical intervention in these cases generally
includes burr-hole or twist-drill craniostomy irrigation or craniotomy
evacuation to relieve mass effect [1,7,11,13]. Draining these mass lesions
sometimes results in the decompression or dissolution of the accompanying cyst
leading to either complete resolution of the cyst or significant decrease in
its size. The physical relationship between the cyst and the subsequent
phenomenon had an important role in the regression of the cyst. Refractory
collections or cysts associated with significant mass effect may also be
treated with a shunt into the peritoneal cavity.
Arachnoid cysts located in
the posterior fossa are rare. In addition, there is only one reported case of
spontaneous resolution of a PFAC. In that case, a PFAC was found in an infant
who presented with hydrocephalus and an enlarged head circumference, full
anterior fontanelle, and upgaze paresis [12]. Surgical drainage of the cyst was
planned as it was presumed to be the source of ventricular obstruction but
prior to the planned intervention, the cyst spontaneously decompressed and the hydrocephalus
resolved without an obvious explanation. Other cases of arachnoid cysts
spontaneously resolving have been reported in the middle cranial fossa and
pre-pontine cistern [5,9,15]. Possible mechanisms to explain the resolution of
cysts without surgical intervention include fistula formation between the cyst
membrane and the subdural or subarachnoid spaces [6,20] leading to subdural
hygroma formation with subsequent absorption of cyst fluid and communication
between the cyst and the subarachnoid space [3,18] with the absorption of cyst
fluid via the normal CSF pathways.
Spontaneous resolution of a PFAC is rare, and the close confines of the
posterior cranial fossa, makes surgical decision making in these instances
critical.
Management of symptomatic
arachnoid cysts includes simple fenestration and drainage with and without
excision of membranes or shunting of cyst contents to the peritoneal cavity.
These techniques have been the standard of care for these types of cases, and
patients have experienced beneficial results with positive outcomes. The
surgical morbidity associated with these procedures is also minimal. The common
practice for asymptomatic cysts has been non-interventional with management
including careful monitoring and serial imaging. Reports of spontaneous
resolution of these types of cysts and the reluctance to pursue aggressive
intervention have contributed to this management approach. However, there
remains the risk of 0.1% to these patients of developing hemorrhage following a
head injury with an untreated cyst as previously reported in the literature
[13].
In the case report
presented here, the cyst became filled with blood following the head injury.
Prior to the head injury, the PFAC was undiagnosed and asymptomatic. The
patient could have been treated surgically by fenestrating the cyst to decrease
the risk of hemorrhage and allow her to return to full activity. Without
surgical intervention, the question remained what risk would the patient face
and what limitations would she have to observe in her school sports activities
at present and in the future. Given the size of the cyst, the location in the
posterior fossa, the fact that the cyst had bled with the previous trauma, and
the inherent risk of future adverse events, particularly if the patient
returned to full activity, we did consider the option of surgical fenestration.
However, prior to that intervention, the cyst resolved spontaneously.
A study reported by Swaine
and Friedman revealed that children who sought care for a head injury in an
emergency setting were more likely to have a subsequent head injury in the
following 12 months than those reporting to the emergency room with no head
injury [17]. The relative risk of having a subsequent head injury was found to
be 2.6 with a 95% confidence interval of 1.2 to 5.5 [17]. With an elevated risk
of head injury to patients who had suffered trauma, activity restrictions are
usually a part of the management. However, the literature lacks a standard or
protocol following general head injury to determine what type of activities
should be restricted and for how long.
Specific guidelines exist
following sports injuries due to concussion with time frames for returning to
sporting activities, but guidelines following general head trauma are based
upon physician experience and suggestion. Certain youth sports or activities
such as baseball, soccer or gymnastics, are reported to have a higher risk of
head injury. Baseball/softball was found to have an injury rate of 0.057
injuries per 100 player hours and a severe injury rate of 0.008 per 100 player
hours with 62% of injuries caused by being struck by the ball both on offence
and defense [2]. Injuries from this sport occur more frequently with younger
players because of their lower skill level, slower reaction time, and varying
abilities [2]. Important to note is that players on offense usually wear
helmets to protect their heads, but no such protection is used for players on
defense. Basketball injuries were due to falls and being struck by or against
objects mostly during school-related activities [2]. Acute subdural and
epidural hematomas are observed with these injuries. Head injuries in
gymnastics are due to falls, but represent only 1% of the total reported
injuries for this sport [2]. Soccer related injuries result from collision
between players, falls onto the ground or into goal post, or from players
striking the ball with their head. Most injuries result from player-to-player
collisions [2], but some evidence suggests a secondary sequelae from repeatedly
striking the ball with one’s head [13]. A previous case report described a
child who developed a large subdural hemorrhage associated with a temporal
fossa arachnoid cyst after being struck in the head by a soccer ball [14].
Soccer is one of the few sports that utilizes the head as a technique to play
the game. “Heading” is used to strike the ball or passively receive it and
control its flight and direction. Players head the ball 5 to 6 times on average
during a regular soccer game and more frequently during practice sessions.
Matser et al. reported that 27% of amateur soccer players had incurred 1 soccer
related concussion, and 23% had experienced multiple concussions during their
careers [8]. Over a ten-year career of playing soccer, there is a 50%
likelihood of suffering a concussion. Popularity of the sport of soccer has not
diminished, with an estimated 6 million children under age 12 who played on
soccer teams within a year [2].
The case presented here is
unique not only for its outcome, but also as a discussion point for patient
management in this situation. Suggestions made by Swaine and Freidman for
returning to activity following head injury include rest as needed and return to
daily activities, but they advise against participation in gym activities,
contact sports, and strenuous activities for 4 weeks [17]. A gradual return to
physical activity is permitted after 4 weeks only if the patient has been
symptom free for 1 week, and if new problems arise or previous ones recur, they
can be treated symptomatically [17]. Another option, as evidenced in our
reported case, is to make a decision for surgery based on the patient’s
symptoms and signs and the correlate that with the imaging findings, in
particular the presence or absence of clinically significant mass effect. A
relatively asymptomatic patient with a lesion causing minimal mass effect may
be safely observed. Return to sporting activities may then be permitted without
restrictions once the child is six months out from any surgical procedure that
is successful in obliterating the cyst or from the last imaging study
demonstrating complete resolution of the lesion. Persistence of the lesion in
an otherwise asymptomatic person warrants serial imaging follow-up and
prohibition of sporting activities that involve significant body contact or
motion, or physical use of the cranium as in “heading” a soccer ball. Lesions
that do resolve should be followed with cranial imaging for two to three years
following the initial injury to ensure there is no re-accumulation of the cyst.
While CT scanning may be adequate for follow-up, MRI may better define the
lesion at initial assessment, especially if it is located in the posterior
fossa.
CONCLUSION
Posterior fossa arachnoid
cysts may spontaneously resolve in some instances either following a head
injury or in the absence of any cranial trauma. Observation of incidentally
found, asymptomatic arachnoid cysts or lesions causing minimal mass effect is
reasonable. Return to sporting activities may be permitted once the child is
six months out from any surgical procedure successful in obliterating a cyst or
from the last imaging study demonstrating complete resolution of a lesion.
Persistence of a lesion in an otherwise asymptomatic person warrants serial
imaging follow-up and prohibition of sporting activities that involve
significant head or body contact. While CT scanning may be adequate for
follow-up, MRI may better define a lesion at initial assessment, especially if
located in the posterior fossa.
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