dc.description.abstract |
Introduction
Encephalitis represents a severe inflammatory disorder of the
brain (1).
Anti-N-methyl-D-aspartate receptor encephalitis (antiNMDARE) is an autoimmune encephalitis, caused by
immunoreactivity against the GluN1 subunit of the
NMDAR (2). It was first described as a clinical syndrome
of acute onset psychosis followed by progressive, and
treatable encephalopathy in 2005 (3), then linked to the
NMDAR in 2007 by Dalmau et al.(4), and now represents
one of the most common nonviral encephalitis (5, 6), which
often remains unrecognized.
Initially it was associated with ovarian teratomas in women,
but there are cases without paraneoplastic association (7). It
can affect all age groups, with lower prevalence in
individuals greater than 50 years old, and it affects females
more than males (80% are women) (8, 9). The disease is
rare, with an estimated incidence of 1·5 per million
population per year (10).
Patients develop a polymorphism of symptoms, which may be
variable and make diagnosis difficult. Initially, in 70% of
patients, there are an unnoticed prodromal phase, which is
similar to a viral flu-like illness (11, 12).
The condition is often recognized in the psychotic phase, with
delusions, hallucinations, paranoia and agitation, that can be
difficult to differentiate from a primary psychiatric disease
(13), or substance-induced psychosis (8). Then the disease
progress to a state in which catatonia, impaired attention,
dyskinesias (especially orofacial), seizures (11), and
autonomic dysfunction(may develop) (8). Self-injuries of
the tongue, lips, or teeth are common (14).
Purpose
The assessment of challenges that intervene in the diagnosis
and management of anti-N-methyl-D-aspartate receptor
encephalitis based on a clinical case presentation and literature
review.
Material and methods
We present a case report of a 27 years old female hospitalized with
confusion, after 2 focal epileptic seizures, with impaired
awareness and evolution to bilateral tonic-clonic, first life event.
She was afebrile, without focal neurologic deficits or meningeal
signs. Medical history without neurological, psychiatric
pathology or seizures. From medical recordings, 3 days before
the admission, the patient was discharged from the gynecology
department, where she underwent laparoscopic left ovarian
cystectomy.
Laboratory parameters were normal. Brain computerized
tomography (CT) was normal. Electroencephalographically
identified focal slowing F-T on left at the hyperventilation
provocation (Fig.2). Histological - mature ovarian cystic
teratoma
During hospitalization she developed psychiatric symptoms with
confusion, agitation, self-aggression, auditory hallucinations,
orofacial dyskinesias and involuntary movements of the upper
extremities were observed. Performed EEG excluded nonconvulsive status epilepticus.
Subsequently, as the psychiatric symptoms progressed even to
catatonia, she was referred to a psychiatric hospital, preventively
collecting serum anti-NMDA-R antibodies (given the
constellation of personality changes, psychiatric symptoms,
orofacial dyskinesia and seizures.).
Anti-NMDA-R antibodies were detected in serum (Fig. 1), so she
was readmitted to our department, reevaluated by EEG,
excluded the specific delta brush pattern or non-convulsive
seizures, performed brain (Fig. 3) and pelvic MRI without
abnormalities.
The patient was treated with plasmapheresis (she already had
Laparoscopic left cystectomy; pathology confirmed mature
cystic teratoma.), with improvement of the psychoneurological
condition, then given oral corticosteroids, later tapered, also she
received antiepileptic drugs – Valproate, taking in count the
possible temporal lobe involvement.
At discharge she presented only cognitive disorders (Raven
Standard IQ test = 75) and difficulties in identifying words.
Behaviorally and emotionally stable.
Results/
Discussions
We determined that this patient had definite antiNMDAR encephalitis.
Central nervous system tissue in the teratoma
might be a trigger of the immune reaction. The
majority of teratomas are mature cystic ones.
Immature teratomas (constituting 1% of all
teratomas) were present in 29% of antiNMDAR related cases. Bilateral teratomas
were present in 14% of cases, comparable to
12% described in general.
Seizures, that are common in anti-NMDARE (57–
82%) (2, 5, 15-18), can take place at any time
during the disease, but tend to occur earlier in
males (19) and can be confused clinically with
movement disorders(20). The presence of
seizures early in the illness course should raise
diagnostic suspicion. Complex and generalized
seizures are reported in the majority of cases
(2), distinguishing anti-NMDARE from most
causes of viral encephalitis and suggesting that
seizures are part of the natural history of this
syndrome(21). For patients with only one
seizure and no temporal lobe involvement,
antiepileptic medication may not be strictly
needed(22). Prolonged follow-up indicates that,
in most patients, the seizures resolve after the
encephalitis subsides (9). Valproate,
levetiracetam, and carbamazepine can be
selected (18).
It is important to note that anti-NMDARE cases
may not follow a strict phasic progression and
may not include all of the symptomatology
mentioned, thereby complicating diagnosis (8).
Diagnostic criteria for probable and definite antiNMDARE are presented in Figure 4.
Objective assays in anti-NMDARE usually are
nonspecific or normal (2).
The only specific diagnostic test of antiNMDARE is serum and cerebrospinal
fluid(CSF) IgG antibodies (23), but serum
antibodies assays are not as sensitive as CSF
studies (8, 24), with false negative results in up
to 14% of cases (24). These results are often
delayed.
Brain MRI is abnormal in 30-35% of affected
patients, mainly showing increased fluidattenuated inversion recovery (FLAIR) signal
involving the cortical, subcortical, or cerebellar
regions (17).
Electroencephalography (EEG), as a corollary
objective test (25), is often pathologic in antiNMDARE, but with nonspecific abnormalities
such as diffuse or focal slowing (26). Focal
slowing was localized in the fronto-temporal
(2, 27), and in the temporal region (28).
Normal EEG were described in 7–14% of cases
(15, 23), in the early stage of disease or later in
the recovery phase (26). EEG may reveal
extreme versions of the “delta brush pattern” -
transient patterns characterized by a slow delta
wave at 1-3 Hz (15) with superimposed fast
activity (29). The extreme delta brush that
appears to be unique and specific to antiNMDARE may suggest a more prolonged
illness, but they are not so frequent (15). Also
EEG can reveals epileptiform activity (2, 15,
23, 28, 30, 31) and sinusoidal alpha rhythm as
an ictal phenomenon (32).
The majority of patients with teratoma improved
after tumor resection, also immunotherapy is
the treatment of choice and involves trials of
corticosteroids, intravenous immunoglobulins,
or plasma exchange (8). If patients show
minimal improvement, the next line of therapy
is immunosuppression, using rituximab or
cyclophosphamide, with continued
immunosuppression (mycophenolate mofetil or
azathioprine) for at least 1 year (33). The
recovery could take up to 18 months (17).
Early identification and treatment has been
associated with better outcomes (17), less
frequently associated hippocampal damage
(34), but, however, up to 25% of patients may
have severe deficits or die (2).
Purpose
The assessment of challenges that intervene in the diagnosis
and management of anti-N-methyl-D-aspartate receptor
encephalitis based on a clinical case presentation and literature
review.
Material and methods
We present a case report of a 27 years old female hospitalized with
confusion, after 2 focal epileptic seizures, with impaired
awareness and evolution to bilateral tonic-clonic, first life event.
She was afebrile, without focal neurologic deficits or meningeal
signs. Medical history without neurological, psychiatric
pathology or seizures. From medical recordings, 3 days before
the admission, the patient was discharged from the gynecology
department, where she underwent laparoscopic left ovarian
cystectomy.
Laboratory parameters were normal. Brain computerized
tomography (CT) was normal. Electroencephalographically
identified focal slowing F-T on left at the hyperventilation
provocation (Fig.2). Histological - mature ovarian cystic
teratoma
During hospitalization she developed psychiatric symptoms with
confusion, agitation, self-aggression, auditory hallucinations,
orofacial dyskinesias and involuntary movements of the upper
extremities were observed. Performed EEG excluded nonconvulsive status epilepticus.
Subsequently, as the psychiatric symptoms progressed even to
catatonia, she was referred to a psychiatric hospital, preventively
collecting serum anti-NMDA-R antibodies (given the
constellation of personality changes, psychiatric symptoms,
orofacial dyskinesia and seizures.).
Anti-NMDA-R antibodies were detected in serum (Fig. 1), so she
was readmitted to our department, reevaluated by EEG,
excluded the specific delta brush pattern or non-convulsive
seizures, performed brain (Fig. 3) and pelvic MRI without
abnormalities.
The patient was treated with plasmapheresis (she already had
Laparoscopic left cystectomy; pathology confirmed mature
cystic teratoma.), with improvement of the psychoneurological
condition, then given oral corticosteroids, later tapered, also she
received antiepileptic drugs – Valproate, taking in count the
possible temporal lobe involvement.
At discharge she presented only cognitive disorders (Raven
Standard IQ test = 75) and difficulties in identifying words.
Behaviorally and emotionally stable.
Conclusions
Anti-NMDAR encephalitis is an increasingly
recognized, potentially lethal syndrome of
psychiatric and neuromotor dysfunction in
patients, often younger in age, who have an
underlying tumor.
It is a challenging condition requiring greater
emphasis of clinical and paraclinical
manifestations, antibodies panel
determination, to prevent misdiagnosis and
to expect a better outcomes.
The case illustrates the importance of
suspecting autoimmune encephalitis,
although the results of antibody testing are
delayed. |
en_US |