Radiology_May04


CASE REPORT

39 SA JOURNAL OF RADIOLOGY • May 2004

Case study 1
CNS 

toxoplasmosis
A 34-year-old known immuno-

compromised female patient present-
ed with fever of unknown origin and
expressive apraxia. She was also on
anti TB treatment for pulmonary TB.

On clinical examination she was
found to have a fever of 39°C, lym-
phadenopathy in the right axilla,
increased tone in the upper limbs and
generally globally increased reflexes.

Investigations
A CT scan done on admission

revealed bilateral low-density areas in
the  internal capsulae. Post-contrast
images revealed bilateral ring-enhanc-
ing lesions with central enhancing
nodules — target lesions (Figs 1 and
2).

Further investigations included: (i)
CD4+ cell count 127.5/l; (ii) toxo-
plasma serology — toxoplasma

enzyme-linked immunosorbent assay
(ELISA) immunoglobulin (Ig) 3.84
(normal 0 - 1.0 units); toxoplasma
immunofluoresence assay (IFA) poly-
valent - positive; and (iii) cere-
brospinal fluid test for India ink and
antigen studies were negative.

The patient responded to TB treat-
ment. She was put on warfarin for
deep venous thrombosis (DVT). The
patient was allergic to Bactrim and
was given fluoconozole and dis-
charged. Three weeks later she deteri-
orated and died.

Discussion
Toxoplasma gondii is a protozoan

organism that is ubiquitous in nature.
Its definitive hosts and reservoir are
felines, but it can cause acute infection
and disease in humans.

The infection is asymptomatic or
minimally symptomatic in older chil-
dren or adults with normal immune
function.

Cysts of T. gondii persist in the cen-
tral nervous system (CNS) as well as
extra neural tissues after infection,
which keep quiescent, but with
immune dysfunction as in HIV/
AIDS, these cysts may become reacti-

Bilateral low-density
lesions in the internal

capsule, with con-
firmed cryptococcus
meningitis and CNS

toxoplasmosis in
immunocompro-

mised patients

Zarina Lockhat
FFRad (D) SA

Irma van de Werke
FRCR

Betsie van der Walt
FCRad(D)SA

Department of Radiology
University of Pretoria

Fig. 1.  

Fig. 2.  



vated and cause disease, the most
common of which is toxoplasmic
encephalitis, which occurs late in the
course of HIV infection when the
CD4 cell count has fallen to less than
100 cells/mm3.

Onset of symptoms is usually grad-
ual, with headache, confusion, fear,
lethargy or seizures. On examination
patients can have an abnormal level of
consciousness or focal neurological
signs, such as hemiparesis, ataxia or
cranial nerve palsies.

Amongst all the CNS infections
seen in AIDS patients, toxoplasma
encephalitis is the most eminently
treatable, because it usually responds
to antibiotic therapy. For this reason
early identification is important,
because treatment leads to rapid clin-
ical improvement. Three types of
CNS infection by T. gondii have been
described. The first consists of a
necrotising abscess, characterised by a
mixture of free-living tachyzoites and
encysted organisms, vascular reaction,
inflammation and petechial haemor-
rhage.

The second type consists of a lesion
containing a necrotic cystic centre
surrounded by a fibrous capsule, and
is usually seen between 2 and 4 weeks
of onset of CNS infection.

The third type is that of chronic
abscess formation, in which necrosis
and free organisms constitute most of
the lesion. On CT the diagnosis is
made when there are typical ring-
enhancing lesions in the presence of
serum antibodies to T. gondii.

The most common regions of
involvement are the cortico-medul-
lary junctions (possibly representing
haematogenous dissemination), basal
ganglia and thalamus. Lesions are
typically supratentorial (possibly
reflecting the dominant distribution

of blood flow) but cerebellar lesions
are also relatively common. On occa-
sion the brain stem, hypothalamus
and subthalamic regions are involved.
Rarely intraventricular lesions can be
seen. Ventricular enlargement is com-
mon, which can be present on the
basis of atrophy (often itself sec-
ondary to HIV encephalitis) or hydro-
cephalus due to infective meningitis,
or partial obstruction of the ventricu-
lar outlet, by a toxoplasma lesion.
Multiple bilateral lesions are usually
seen, but a solitary lesion can occur.
Pre-contrast CT toxoplasma lesions
appear as rounded masses that are rel-
atively isodense compared with grey
matter and they can often be detected
on pre-contrast CT due to the adja-
cent oedema and mass effect. Lesions
that appear hyperdense are thought to
be due to haemorrhagic necrosis.

Post-contrast enhancement is
either nodular or ring-like in appear-
ance. Enhancement can be mild or
absent if severely diminished cellular
mediated immunity does not allow
much of an inflammatory response.
The lesions can be very small or as
large as several centimetres in diame-
ter, simulating neoplasms such as
lymphoma. Following therapy lesions
are replaced by areas of encephaloma-
lacia and glial scars that are seen on
CT as foci of calcification. MR imag-
ing is more sensitive than CT showing
more lesions and sometimes revealing
lesions when the CT is normal. On
MR imaging lesions are typically
hypo- or iso-intense to grey matter on
non-contrast T1-weighted images,
and iso-intense or hyper-intense on
T2-weighted images.

Some lesions remain the same or
increase in size, while others decrease
in response to treatment, multiple co-
existent processes (e.g. toxoplasma

infection, and another entity, e.g. lym-
phoma) may be present.

Discrimination of toxoplasma
encephalitis from cerebral lymphoma
is a common diagnostic problem,
since both can be solitary or multiple,
nodular or ring-enhancing, and asso-
ciated with oedema, often making the
lesion indistinguishable on CT or MR.

Subependymal spread by a
periventricular lesion is seen in lym-
phoma, but not toxoplasma encepha-
litis, and is one finding that can be
helpful in distinguishing the two enti-
ties, but is uncommonly seen. Failed
response to treatment is another fea-
ture suggestive of lymphoma. On MR
spectroscopy, toxoplasma lesions have
markedly increased lipid and lactate
peaks with a decrease in other
metabolites, while lymphoma has
only a mild or moderate increase on
lactate and lipids, but a substantial
increase in the choline peak (thought
to be due to increased cellularity).

The diagnosis is confirmed by
response to therapy. Toxoplasmosis
serology is negative in 5 - 10% of cases.
If the patient fails to respond to thera-
py within 10 - 14 days, other diagnoses
such as primary CNS lymphoma or
bacterial abscess should be enter-
tained. A definitive diagnosis should
be sought by stereotactic brain biopsy.

Case Study 2 —
cryptococcus

meningitis
A 23-year-old woman was admit-

ted in December 2001 with the diag-
nosis of an acute salpingo oophoritis
grade II, as well as an ectopic pregnan-
cy on the right side, diagnosed by a
pelvic ultrasound examination. A
laparotomy confirmed the ectopic
pregnancy. She looked chronically ill

CASE REPORT

40 SA JOURNAL OF RADIOLOGY • May 2004



CASE REPORT

41 SA JOURNAL OF RADIOLOGY • May 2004

and complained of headache. On
examination she had diffuse lym-
phadenopathy.

After the neurological consultation
a lumbar puncture was performed
which revealed clear cerebrospinal
fluid with slightly raised proteins at
524 mg/l (normal range 150 - 450
mg/l). Chloride, glucose and adeno-
sine deaminase (ADA) were normal.

The TB culture, the gram stain and
capsular antigen tests for bacterial
meningitis were negative. The India
ink and Cryptococcus neoformans
agglutination tests were positive. The
patient’s renal function was normal.
The white cell count was 4.1 x 109/l.
Wasserman Reaction (WR) test as
well as the toxoplasma IFA polyvalent
test were negative. She was then start-
ed on cryptococcus meningitis treat-
ment with Diflucan from December
2001 to February 2002.

The patient was suspected to be
immunocompromised but she initial-
ly refused testing. The CD4 count at
this stage was 85/l (normal range 560
- 2700 x 106/l).

The patient was discharged and
then readmitted on 16 March 2002
after complaining of malaise for 2
days as well as neck stiffness, vomiting,
headache and flank pain.

On examination she was drowsy
and had severe fundus abnormalities
diagnosed by the neurologist as gross
papilloedema or severe papillitis or
retinitis. The macula and eye move-
ments were normal.

There was no weakness of the
limbs and sensation on light touch
was intact. She had generalised
adenopathy. The chest X-ray was nor-
mal. The white cell count at this stage
was 6.9 x 109/l with 84% neutrophils
(40 - 75%), and 9.8% lymphocytes
(20 - 45 %).

A CT scan was done on an emer-
gency basis and revealed low-density
ill-defined lesions in the basal ganglia.
The ventricles were slightly promi-
nent. After contrast administration
no enhancement of the low-density
lesions was detected (Figs 1 and 2).

A repeat lumbar puncture was per-
formed which again revealed clear
cerebrospinal fluid with slightly lower
but still elevated protein, namely
472 mg/l (normal 150 - 450 mg/l).
Chloride, glucose and ADA were nor-

mal. Gram stain and capsular anti-
gens for bacterial meningitis were
again negative.

The cell count included 143 ery-
throcytes/mm3, 44 neutrophils/mm3,
and 0 lymphocytes.

India ink cryptococcus and C. neo-
formans agglutination were positive.
Again she was put on anticryptococcal
meningitis treatment and on 08 April
2002 her Glasgow coma scale dropped
to 12/15.

Another CT brain scan was
requested which showed the low-den-
sity lesions in the basal ganglia more
pronounced than on the original scan
(Fig. 3).

Discussion
C. neoformans is the most common

fungus involving the brain in
immunocompromised patients. The
prevalence of the infection has been
reported as 6 - 7%.

Patients with underlying chronic
illness such as diabetes mellitus, colla-
gen vascular disease, chronic renal dis-
ease, alcoholism, malignancy and

Fig. 1. Pre-contast brain scan showing oedema
involving internal capsule bilaterally with faint
hyperdensities.

Fig. 2. Contrast-enhanced image, showing bilater-
al enhancing lesions in the internal capsule.

Fig. 3.  



those on immunosuppressive drugs
are also more susceptible to crypto-
coccosis. After HIV and toxoplasmosis
it is the third most common infection
involving the CNS in AIDS patients.

C. neoformans is an encapsulated
yeast-like fungus found in mammal
and bird excrement, especially pigeon
droppings, and is transmitted to
humans through inhalation.

The lung is the primary site of
involvement and spread is via the
haematogenous route to other organs.

Cryptococcus spreads haematoge-
nously to the CNS. The CNS mani-
festations may be meningeal or
parenchymal. The organism pene-
trates the meningeal vessel walls as
well as colonising the perivascular
Virchow-Robin spaces and cere-
brospinal fluid, producing meningitis.

After colonising the cerebrospinal
fluid, the organisms may extend along
the perforating arteries within the
perivascular subarachnoid space. The
production of voluminous mucoid
material may enlarge the perivascular
spaces giving rise to small cysts,
termed gelatinous pseudocysts. These
lesions are non-enhancing because
the blood-brain barrier is not disrupt-
ed and the patient's immunosuppres-
sion may decrease the ability to
mount an inflammatory response.
On CT these lesions are of a low den-
sity similar to cerebrospinal fluid.
They follow the expected location of
the Virchow-Robin spaces, mainly in
the basal ganglia, thalami, substantia
nigra and periventricular regions.
Large perivascular spaces are also pre-
sent in the choroid plexus. These
lesions are more easily visualised on
magnetic resonance imaging, where
they have hypointensive signal on T1-
weighted images and hyperintense
signal on T2-weighted images. The
signal intensity is essentially similar to

cerebrospinal fluid, although it is
often slightly higher than CSF on T1.

Cerebral oedema rarely occurs. In
patients with AIDS dilated perivascu-
lar spaces should raise the possibility
of cryptococcosis, however diagnos-
ing cryptococcosis on the basis of
dilated perivascular spaces should be
done with caution because gener-
alised cerebral atrophy, the most com-
mon CNS imaging finding in AIDS,
can also cause this appearance.

In the more fulminant form of
cryptococcosis or if the disease is not
treated, the blood-brain barrier is dis-
rupted and parenchymal seeding
occurs. Neorovascularity is recruited
by meningeal or parenchymal seeds
and these may enlarge to manifest as
multiple enhancing nodules or a mil-
iary pattern. These lesions can be
scattered throughout the parenchy-
ma, usually predominating in areas
near the Virchow-Robin spaces and
the choroid plexus as well as the sub-
arachnoid spaces. These lesions usu-
ally have a similar appearance on non-
contrast CT and MR imaging.
Smaller parenchymal lesions may be
covert on non-contrast imaging.
They become quite apparent, howev-
er, following administration of con-
trast on CT and MR.

When the organisms extend from
the perivascular space into the
parenchyma, a collection of organ-
isms, inflammatory cells and gelati-
nous mucoid material forms. This is
considered a cryptococcoma. This
may possibly occur from invasion of
other meningeal or ependymal sur-
faces. The most frequent location is
adjacent to the perivascular spaces,
including the choroid plexus although
they can occur anywhere in the
parenchyma. Cryptococcomas have a
variable degree of surrounding vaso-
genic oedema on CT or MR.

Cryptococcomas are usually larger
masses, which have a variable  but
often intense enhancement.

Obstructive hydrocephalus can
occur from the choroid plexal masses.

Other findings that have been
described are gyriform enhancement,
and punctate calcifications in the lep-
tomeningeal spaces and brain
parenchyma.

CNS cryptococcosis commonly
presents with manifestations of
meningitis and encephalitis such as
headache, nausea, staggering gait,
dementia, irritability, confusion and
blurred vision. Fever and neck stiff-
ness are mild or absent. The course of
the disease may be fulminant or
chronic and insidious. Lumbar punc-
ture is the single most important
investigation. CSF pressure may be
increased and may show mild to
moderate leucocytosis, decreased glu-
cose and elevated protein levels. India
ink smears demonstrate the yeast.
Increased cryptococcal antigen may
be found in the CSF or serum.

The differential diagnosis on imag-
ing includes infectious causes such as
toxoplasmosis, cytomegalovirus,
tuberculoma, pyogenic abscess as well
as lymphoma and metastatic disease.

Cryptococcosis is usually treated
with intravenous amphotericin B.
Surgical drainage of large pseudocysts
has been reported.

Acknowledgement
We would like to thank Annelize

Gates for her assistance in the prepa-
ration of this article.

References 
1. Davenport C, Dillon WP, Sze 6. Neuroradiology

of the immunosuppressed state. Radiol Clin
North Am 1992; 30: 611 - 635.

2. Provenzale JM, Jinkins JR. Brain and spine imag-
ing findings in AIDS patients. Radiol Clin North
Am 1997; 35: 1127 - 1165.

3. Awasthi M, Patankar T, Shah P, Castillo M.
Cerebral cryptococcosis: Atypical appearances
on CT. Br J Radiol 2001; 74: 83 - 85.

CASE REPORT

42 SA JOURNAL OF RADIOLOGY • May 2004