13_SatyartheeGuru_TransientInternuclear__


 
 
 
 
 
318          Satyarthee et al          INO associated with mutism following posterior fossa mass surgery 

 

 

 

 

 

 

 

Transient internuclear ophthalmoparesis associated with 
mutism following midline cerebellar tumour surgery in 
an 8-year boy 

Guru Dutta Satyarthee1, A.K. Mahapatra2 
1Associate Professor, Department of Neurosurgery, Neurosciences Centre, AIIMS New Delhi 
2Professor, Department of Neurosurgery, AIIMS, Bhuwneshwar, India 
 

 
Abstract: Mutism and neurobehaviour symptoms are well known features, which may 
occur following surgical excision of mass lesion of various histopathologies in the 
posterior cranial fossa, during the postoperative period. Mutism may be rarely associated 
with ataxia of eyelid closure and paresis of external ocular muscles. However, 
internuclear ophthalmoparesis is not reported in association with mutism following 
posterior cranial fossa surgery. We report an 8-year–boy, who developed internuclear 
ophthalmoparesis following suboccipital craniectomy for decompression of vermian 
medulloblastoma. The clinical features, aetiopathogenesis, management of transient 
internuclear ophthalmoparesis associated with mutism and pertinent literature is 
reviewed in short. 
Key words: Posterior fossa, internuclear ophthalmoparesis, medulloblastoma surgery, 
mutism 

 
Introduction 

Internuclear ophthalmoparesis (INO) is 
one of the most localizing brainstem 
syndromes, which is caused by a lesion 
involving medial longitudinal fascicules in 
dorsomedial brain stem tegmentum of either 
the pons or the midbrain [1,2]. INO is an 
occulomotor syndrome characterized by 
ocular dysconjuancy during horizontal 
saccades, with slowing of adducting eye 
movements, with or without ocular limitation, 
and abduction nystagmus in the other 
abducting eye. Internuclear ophthalmoparesis 
is rare occurrence following intracranial 
surgery. We report an 8-year -old –boy 
developed INO, in the immediate 
postoperative period following decompression 
of vermian medulloblastoma. The 
development of mutism and associated 

neuropsychiatric symptoms subsequently 
many reports have emphasized the importance 
of impaired eye openings, pseudo bulbar 
symptomatology. However, INO was not 
highlighted in any case report, except as 
associated signs in association of cerebellar 
mutism. However, no emphasis was put 
regarding the onset, course, and neuroimaging 
in a series of 12 cases reported by Pollack et al 
[7].  

Case report 
 Patient presented with a six week history 

of progressive headache and ataxia. One week 
prior to admission ataxia markedly worsened, 
with head tilt and diplopia, on admission, he 
was conscious, irritable, and stable 
aerodynamically. Fundi examination revealed 
bilateral papilloedema. Left sixth cranial 



 
 
 
 
 

Romanian Neurosurgery (2015) XXIX 3: 318 - 323         319 

 

 

 

 

 

 

 

paresis was present. He power was normal in 
all limbs. He had marked ataxia, making 
walking difficult. He had bilateral cerebellar 
signs. Neck rigidity was present. Routine 
haematological, biochemical and coagulation 
profiles were normal. Computerized 
tomography of brain revealed hypodense mass 
lesion involving vermis; it was 4 cmX4.5 cm 
in diameter, causing obstructive 
hydrocephalus. (Figures 1-3) On contrast 
administration showed uniform enhancement. 
Radiologically a diagnosis of vermian, mass 
with obstructive hydrocephalus was made.  

He underwent CSF diversion procedure of 
ventriculoperitoneal shunt. Two days 
following ventriculoperitoneal shunt surgery, 
he underwent elective suboccipital 
craniectomy in the sitting position. Tumour 
was exposed and resected via an inferior 
transventricular approach. The tumour was 
completely excised using with help of internal 
decompression of CUSA and haemostasis was 
achieved with bipolar cattery. The floor of 
fourth ventricle was not invaded or infiltrated 
by tumor. CSF was freely flowing through the 
aqueduct. The content of posterior fossa was 
lax and pulsating. A histopathological 
examination confirmed the diagnosis of 
medulloblastoma. 

  

 
Figure 1 - MRI brain, T1W1 axial section image of 
brain showing hyperintense mass lesion located in 

the midline involving vermis occupying and causing 
 expansion of the fourth ventricle causing 

obstructive hydrocephalus with dilation of lateral 
ventricles 

 

 
Figure 2 - MRI brain, T2WI axial section of brain of 
8-year boy, mass lesion showing hyperintense signal 

intensity, with associate hydrocephalus 
 

 
Figure 3 - Contrast enhanced MRI brain (CEMRI 
brain), coronal section depicting heterogeneously 

enhancing mass lesion 



 
 
 
 
 
320          Satyarthee et al          INO associated with mutism following posterior fossa mass surgery 

 

 

 

 

 

 

 

 
Figure 4 - Postoperative NCCT head axial section 

showing  excision of medulloblastoma 

 
Figure 5 - Clinical photograph of 8-year boy having 

mutism sixth postoperative days 
 

After reversal of anaesthesia, he was awake 
with intact neurologically, except left sided 
sixth nerve paresis and cerebellar ataxia. He 
was well for forty eight hours, and then 
developed mutism. He was lying curled –up in 
the bed with eyes closed. He was not obeying 

commands. He refused oral intake of solid and 
liquid fluid. (Figure 4) NC CT scan head was 
done to evaluate for the deterioration in the 
neurological status revealed oedema around 
the resected cavity, however no haematoma 
was encountered in the tumour bed. (Figure 5) 
Magnetic resonance imaging could not be 
done in view of economic constrains. After 5 
days, he showed progressive improvement in 
the neurological status and started accepting 
oral feed; personality carnages also improved 
.He becomes more cooperative. Ocular muscle 
examination showed features consistent with 
the diagnosis of internuclear 
ophathalmoplegia. His speech also improved 
gradually. However feature of 
ophthalmoparesis did show improvement up 
to six weeks after surgery, but resolved 
completely, when seen at 8 weeks of follow up 
after surgery. The cranial CT scan with 
contrast-enhanced scan had revealed residual 
lesion, he received craniospinal irradiation.  

Discussion 
Common features of cerebellar mutism 

syndrome include a decreased speech output 
or mutism, transient irritability or apathy. 
Although other features transient eye closure, 
difficulty with feeding, associated with 
incontinence of bladder and bowel is reported. 
Siffert et al analyzed 16 cases of cerebellar 
mutism syndrome and defined more 
comprehensive neurological dysfunction in 
the cerebellar mutism syndrome [9]. A severe 
global cerbellar dysfunction, a communication 
impairment affecting receptive and expressive 
languages, severe inattention, apathy, 
hypokinesis, mood liability, irritability, 
apathy, hemiparesis, or motor apraxia, 
transient difficulty with eye opening and lack 
of control of bowel and balder.  

The causes and anatomical basis of 
cerebellar mutism syndrome in children with 
posterior fossa surgery is still controversial. 
Cerebellum has been implicated for cerebellar 
mutism syndrome [4]. The mutism occur 



 
 
 
 
 

Romanian Neurosurgery (2015) XXIX 3: 318 - 323         321 

 

 

 

 

 

 

 

exclusively with midline cerebellar mass 
lesion, being resected via inferior vermian 
incision was suggested as bilateral injury to 
inferior vermian region is crucial for 
development [9]. Although Dailey et al. had 
suggested the splitting of the inferior vermis 
during a tumour resection, but less than 25 % 
of children undergoing similar procedure 
develops signs of cerebellar mutism 
syndrome. However several points indicate 
that anatomical location may not exactly in the 
inferior vermis, but localized to the adjacent 
structures. However, many cases of Pollack et 
al where tumour was located in the superior 
vermis and inferior vermis was not violated 
also developed and this anatomical center may 
not be vermis but instead more laterally 
located [7]. 

The onset and recovery is usually delayed 
hours to days following surgical procedure. 
Indicating it is caused by intraoperative injury 
or infarction [7]. Pollack et al also observed 
postsurgical oedema has been implicated but 
clinical course often outlast the resolution of 
oedema. Other mechanism as alteration in 
neurotransmitter levels and synaptic or 
transsynaptic degeneration of connecting 
structure may be responsible, which mighty 
correlate well with time lag between the time 
of actual surgical injury until the onset of 
symptoms. The recovery mechanisms also 
remain still unclear. After a several week of 
plateau, children usually notice a fast recovery 
of speech. However cerebellar ataxia may 
persist in the majority of cases, so some aspect 
of clinical recovery may not depend on 
cerebellar injury [4].  

These may reflect the sequel of injury to 
the afferent or efferent pathway to dentate 
nuclei, which are involved in the initiation of 
violation movement [4, 7]. Bilateral 
impairment of paramedian cerebellar dentate 
nuclei, its efferent or afferent connection or a 
combination of factors may be involved [7]. 
The delayed onset of speech impairment 
probably related interval of time required for 

oedema resulted due to surgical manipulation 
in the surgical field has reached the structure 
[7]. This symptom complex may be associated 
with a varied duration of speech impairment 
and spectrum of neurological and 
neurobehavioral abnormality can vary. In the 
simple form of spectrum, only impairment of 
in co-ordinating the complex bilateral 
integrated movement necessary for speech 
production. In relatively more severe cases 
may have additional impairment of 
incordination of oropharyngeal muscles 
movement involved in chewing or swallowing 
movement. However in more severe cases, 
may have broad spectrum of volitional 
movement impairment including eye opening 
and voiding. This more global impairment has 
also been substantiated on neuropsychiatry 
evaluation. Accordingly, focal bilateral lesion 
to dentate nucleus and its connection to while 
more complex involves paravermian region or 
its connection. 

During recovery, which may occur days to 
weeks following onset, global akinesia, and 
urinary retention recovery is followed by 
eating and finally speech improvement may 
occur with a dysarthria or bizarre vocal quality 
and finally regaining of almost normal speech. 
Wisoff et al described psseudobulbar 
syndrome after posterior fossa surgery in 
children, often associated with oedema of 
bilateral cerebellar peduncle and brainstem, 
may reflect dysfunction of brainstem [10]. 
However, unusual personality changes as also 
observed in mutism syndrome are well 
described and manifestation of primary 
brainstem lesion glioma of brainstem and 
vascular insufficiency from proximal basilar 
artery ischemia [6, 1]. These psseudobulbar 
manifestation may also be caused by bacterial 
meningitis. However, in our case also the INO 
also improved after four months. INO 
syndrome is caused by damage to these 
structures including medial longitudinal 
fasciculus, paramedian pontine reticular 
formation, or the ipsilateral sixth nerve 



 
 
 
 
 
322          Satyarthee et al          INO associated with mutism following posterior fossa mass surgery 

 

 

 

 

 

 

 

nucleus. Commonest causes of INO is multiple 
sclerosis and infarction of brain stem, 
however, lesser commoner are tumors of the 
brain stem and cerebellum and extremely 
rarely, can be detected in the postoperative 
period following of the posterior fossa tumors 
removal [2].  

Pollack et al. reported a case, had vermian 
lesion with metastasis in the both hemisphere 
with fourth ventricle invasion had 
medulloblastoma developed, mutism 72 hours 
after surgery, was lying curled in the bed and 
poor oral intake, improvement started on 18 th 
day and almost complete recovered by 4 
weeks. However, no detail of onset or progress 
or remission of INO was provided. He also 
developed INO, left arm ataxia after 18 days 
of surgery and these improved over four 
weeks, however ataxia persisted [7]. 
 
Correspondence 
Dr. Guru Dutta Satyarthee  
Associate Professor, 
Department of Neurosurgery,  
Room No. 714 
Neurosciences Centre, AIIMS New Delhi 
E-mail: duttaguru2002@yahoo.com 
 
 
 

References 
1.Caplan Lr. “Top of basilar” syndrome. Neurology. 80: 
70-72, 1980  
2.Chern JJ , Relyea K, Edmond JC, Whitehead WE, Curry 
DJ, Luerssen TG, Jea A. Transient selective downward 
gaze paralysis complicating posterior fossa tumor 
resection in children. Report of 2 cases. J Neurosurg 
Pediatr. 3(6): 467-71, 2009    
3.Frohman EM, Frohman TC, O’Sulleabhain PS, Zhang 
H, et al. Quantitative oculographic characterisation of 
internuclear ophthalmoparesis in multiple sclerosis: the 
versional dysconjuancy index Z score. J Neurology 
Neurosurg Psychiat 73: 5-55, 2002  
4.    Hirsch JF, Reinier D, Czernichow P, Benveniste L, 
Pierre- Kahn A. Medullobalstoma in childhood: survival 
and functional results. Acta Neurochir (Wien) 48: 1-15, 
1979  
5.Newton HB, Miner ME" One-and-a-half" syndrome 
after a resection of a midline cerebellar astrocytoma: case 
report and discussion of the literature. Neurosurg 
29(5):768-72, 1991  
6.Petrino JA, Edwards MOB. Management of brainstem 
tumors in children. Contem Neurosurg 11:1-6,1989   
7.Pollack IF, Albright AL, Towbin R, Fitz C. Mutism and 
psseudobulbar symptoms after resection of posterior 
fossa tumours in children: Incidence and pathology. 
Neurosurg 37: 885-893,1995  
8.Sakai h, Sekino H, Nakamura N. Three cases of 
“cerebellar Mutism “. Shinkeinaika 12: 302-304, 1980 
9.Siffert J, Poussaint TY, Goumnerova LC, Scott RM, La 
valley B, Tarbell  NJ, Pomeroy Sl. Neurological 
dysfunction associated with  postoperataive cerebellar 
mutism. J Neuro-oncol 48: 75-81, 2002 
 10.Wisoff JH, Epstein FJ. Pseudobulbar palsy after 
posterior fossa operation in children. Neurosurg 15: 707-
707,1984.