CASE REPORT CASE REPORT

96         SA JOURNAL OF RADIOLOGY • December 2007

CASE REPORT

Abstract
The term superficial siderosis is used to describe the haemosiderin 
deposition on the surface of the brain, spinal cord, brainstem and cranial 
nerve leptomeninges following recurrent subarachnoid haemorrhage. 
The concern is the cytotoxic nature of the haemosiderin on the under-
lying tissue causing slow but progressive and irreversible neurological 
dysfunction. Removal of the source of bleeding has little effect on the 
progression of clinical deterioration but halting the chronic subarachoid 
haemorrhage will reduce the iron load in the CSF and hence the cytotox-
ic risk. We present a case of superficial siderosis presenting with hearing 
loss and cerebellar signs highlighting the imaging findings.

Introduction
Superficial siderosis describes the hemosiderin deposition on the surface 
of the brain, brainstem, cranial nerves and spinal cord following recur-
rent subarachnoid haemorrhage.  The diagnosis can be made on MRI. 
The gradient echo sequence (GRE) best demonstrates the haemosiderin 
deposition on the surface of the brain1 and should prompt one to search 
for the cause of haemorrhage in order to prevent the irreversible neuro-
toxic effects on the underlying cortex.

Case report
This 44-year-old patient presented with a history of night sweats and 
malaise. He was observed to be inco-ordinate, had weakness of the left 
leg and changes in speech. Of significance is a history of two episodes 
of sudden loss of consciousness 6 months previously. He complained of 
hearing loss in his left ear.

On examination, he had upper limb cerebellar signs of intention 
tremor and disdiadocokinesis. He was also ataxic, demonstrated heel 
to shin ataxia, broad-based gait and was unable to tandem walk. The 
Rhomberg test was negative. The hearing loss was determined to be of 
the sensorineural type.

Superficial siderosis of the central nervous  
system

Mayuri Govind, MB ChB, FCRad Diag (SA) 
Department of Radiology, Inkosi Albert Luthuli Central Hospital, Durban

J Maharajh, MB ChB, FC Rad Diag (SA), MMed
Department of Radiology, Nelson R Mandela School of Medicine, and  

University of KwaZulu-Natal, Durban 

Figs 1 and 2. MRI - T2W axial images demonstrating hypointense lining along the pial surface of the cerebellum indicative of haemosiderin deposition and brain-
stem. 

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CASE REPORTCASE REPORT

Laboratory investigations were normal including full blood count, 
iron studies, clotting profile, thyroid function test and erythrocyte sedi-
mentation rate. His cerebrospinal fluid (CSF) was xanthochromic and 
contained abundant red blood cells.

The MRI scans are diagnostic of superficial siderosis of the brain 
and spinal cord (Figs 1-5).  There is ‘staining’ or lining of the meningeal 
surface of predominantly the cerebellum, brainstem and cord, but this 
may also include the sylvian fissures more superiorly.  This is seen on T1, 
T2 and gradient echo sequences. Magnetic resonant angiography (MRA) 
and magnetic resonant venography (MRV) were normal. No intraparen-
chymal haemorrhage was noted.

Discussion
The term superficial siderosis is used to describe the haemosiderin 
deposition on the surface of the brain, spinal cord, brainstem and cranial 

nerve leptomeninges1 following recurrent subarachnoid haemorrhage.
Patients present with a triad of progressive bilateral sensorineural 

hearing loss (95%), cytotoxic consequences on the cerebellum of limb 
and gait ataxia and myelopathy.2 All three occur in only 39% of patients 
with the sensorineural hearing loss most commonly manifested.3 It leaves 
the patient almost totally deaf. Later, severe dementia, anosmia, bladder 
disturbance (26%) and hyperreflexia (24%) occur. Our patient presented 
with cerebellar dysfunction and hearing loss.

As with all acute subarachnoid haemorrhage (SAH), the CSF dem-
onstrates increased protein (100%) and is xanthochromic (75%) but can 
be normal as chronic subarachnoid haemorrhage can occur intermit-
tently.3 

The eighth cranial nerve is commonly affected as it has a long seg-
ment exposed to CSF4 and is particularly well lined by myelin that is 
supported by haemosiderin-sensitive microglial cells. In addition, the 
eighth cranial nerve lies in the pontine cistern which is a large pool of 
CSF subjected to greater CSF flow. The result is greater axonal damage. 
The same theory applies to the susceptibility of the olfactory nerves to 
increased iron load. The second cranial nerve is entirely within the CNS 
and is thus spared from the damaging effects of this process.

This occurs three times more commonly in males and has a broad 
age range (14-77 years) of presentation.

The cause of the recurrent SAH is determined on imaging in only 
50% of cases3 and includes dural pathology, postsurgical CSF cavity with 
neovascularity, bleeding central nervous system (CNS) tumours (epen-
dymoma, oligodendroglioma and astrocytoma), vascular malformations 
(arteriovenous malformations and cavernous malformation near the 
brain’s surface), aneurysms, and in the spinal cord – tumours, arteriove-
nous malformations and traumatic nerve root avulsion.2

Pathologically there is brown discoloration of the leptomeninges of 
the cerebellum (especially the vermis), basal frontal lobe, olfactory bulb, 
temporal cortex, brainstem, cranial nerves, spinal cord, nerve roots, 
ependyma and subpial tissue of < 3 mm deep.1 The vermis of the cerebel-
lum is particularly susceptible due to its close anatomical relation to the 
roof of the fourth ventricle and the compartmentalisation of CSF, there-
fore resulting in consistent increased exposure to CSF contents.

MRI can be used to make the diagnosis of superficial siderosis. The 
MRI GRE is the most sensitive,1 and demonstrates thick dark signal 
lining the nervous system surfaces as a susceptibility artifact due to hae-
mosiderin. This shows no enhancement. Because of the paramagnetic 
nature of haemosiderin, T1- and T2-weighted sequences demonstrate a 
blackened surface.5 The seventh and eighth cranial nerves appear darker 
and thicker than normal. 

Fluid attenuated inversion recovery (FLAIR) imaging suggests the 
diagnosis as the darker surface of the CNS and should prompt one to 
perform the GRE sequence.3

Once the diagnosis is made a search for the cause is indicated and 
includes contrast administration, MRA if an aneurysm is suspected and 
whole spine MRI. 

The role of MRI is in the diagnosis of superficial siderosis, in terms 
of the easy detection of blood degradation products by GRE compared 
with computed tomography (CT), detecting a potentially treatable con-
dition and avoiding unnecessary searches for other causes of hearing 
loss and ataxia. CT scan is relatively insensitive to the haemosiderin and 
may be suggested by a slightly hyperdense rim over the brain surface 

97         SA JOURNAL OF RADIOLOGY • December 2007

Figs 3 and 4. MRI - GRE axial sequence confirms the blood degradation 
products seen as hypointensity along the pial surface of the sylvian fissures 
bilaterally. `Blooming´ of the hypo-intense lining of the brainstem is present 
when compared to the T2 images.

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CASE REPORT CASE REPORT

98         SA JOURNAL OF RADIOLOGY • December 2007

if the iron load is heavy.3 It may demonstrate vermian atrophy and the 
underlying bleeding source. 

The differential diagnosis includes: MRI sequence artifact seen on 

some but not all sequences, normal or abnormal surface veins, neurocu-
taneous melanosis or meningioangiomatosis.1

Neurocutaneous melanosis is a congenital syndrome consisting of 
benign pigmented cell tumour of the leptomeninges. It is suggested by the 
presence of a large congenital melanocytic nevus.  Meningoangiomatosis 
is a rare benign focal lesion of the cerebellum and underlying cortex. 
The locality of the lesion, mixed signal characteristics and occasional 
contrast enhancement differentiates it from the diffuse nature of super-
ficial siderosis.

Treatment is to treat the source of bleeding.  There has been little 
success with iron or copper chelators as sole therapy.4

Conclusion
The imaging findings of superficial siderosis are a reflection of the recur-
rent subarachnoid haemorrhage.  Careful inspection of the brain surface 
on T2 and FLAIR should prompt one to further imaging with GRE, 
contrast administration and MRA.

1.    Osborn AG, Blaser SI, Salzman KL, et al. Diagnostic Imaging: Brain. Manitoba: Amirsys, 2004.
2.    Feamley JM, Stevens JM, Rudge P. Superficial siderosis of the central nervous system. Brain 1995; 118: 

1051-1066.
3.    Levy M, Turtzo C, Llinas RH. Superficial siderosis: a case report and review of the literature. Nature Clinical 

Practice Neurology 2007; 3: 54-58.
4.    Ushio M, Lwasaki S, Sugasawa K, et al. Superficial siderosis causing retrolabyrinthine involvement in both 

cochlear and vestibular branches of the 8th cranial nerve. Acta Oto-Laryngologica 126; 9: 997-1000.
5.    Messori A, di Bella P, Herber N,  et al. The importance of suspecting superficial siderosis of the central 

nervous system in clinical practice. J Neurol Neurosurg Psychiatry 2004; 75: 188-190. 

Fig. 5. MRI - sagittal T2W image demonstrating hypointensity on the pial 
surface of the spinal cord indicative of haemosiderin deposition.

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