Anti-NMDA Receptor Encephalitis

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Anti-NMDA Receptor Encephalitis

Anti-NMDA receptor encephalitis is one of the most common and clinically distinctive forms of autoimmune encephalitis, first described by Dalmau and colleagues in 2007. Antibodies target the GluN1 subunit of the NMDA receptor, causing receptor internalization and a characteristic polysymptomatic neuropsychiatric syndrome. It predominantly affects young women and children, frequently in association with ovarian teratoma. Despite the severity of the acute illness — which can include coma and need for ICU admission — the majority of patients achieve good outcomes with early and aggressive immunotherapy, making it a critical "not to miss" diagnosis.

Bottom Line

Demographics: Median age 21 years; F:M ratio 4:1; affects ages 2 months to 85 years
Clinical stages: Prodromal (viral-like) → psychiatric/cognitive → movement disorder/seizures → dysautonomia/hypoventilation → gradual recovery (months)
MRI is often normal: 70–80% of patients have normal or nonspecific brain MRI despite severe clinical presentation
CSF: 80% abnormal with lymphocytic pleocytosis and unpaired OCBs; CSF antibody testing is essential
Tumor: Ovarian teratoma in ~60% of females aged 15–35; tumor removal is a critical part of treatment
EEG: 90% abnormal; extreme delta brush pattern is relatively specific
Prognosis: 80% achieve mRS 0–2 by 24 months; ~5% mortality; recovery can take months to years

Pathophysiology

NMDA receptor antibodies are of the IgG1 subclass and are directly pathogenic through receptor cross-linking and internalization:

Antibodies bind the extracellular N-terminal domain of the GluN1 subunit
IgG-mediated cross-linking triggers receptor endocytosis, reducing cell-surface NMDA receptor density
This leads to NMDA receptor hypofunction, disrupting glutamatergic neurotransmission
The process is potentially reversible with antibody removal, explaining the capacity for recovery
Complement activation plays a minimal role (unlike AQP4-NMOSD)

Triggers

Ovarian teratoma: Mature cystic teratoma containing neural tissue that expresses NMDA receptors, triggering autoimmunity through tumor antigen exposure
Post-HSV-1 encephalitis: Neuronal death releases NMDA receptors, triggering secondary autoimmunity; especially recognized in children
Idiopathic: Many cases, particularly in males and children, have no identifiable trigger

Clinical Features

Typical Staged Progression

Stage	Features	Timing
1. Prodrome	Headache, fever, fatigue, upper respiratory symptoms (viral-like illness)	Days before onset
2. Psychiatric/Cognitive	Behavioral changes, agitation, hallucinations, delusions, paranoia, psychosis, short-term memory loss, language dysfunction (speech reduction to mutism)	First 1–2 weeks
3. Movement Disorder/Seizures	Polymorphic movement disorder (orofacial dyskinesia, choreoathetosis, dystonic posturing, stereotypies), seizures (generalized or focal)	Weeks 2–4
4. Autonomic/Hypoventilation	Autonomic instability (tachycardia, blood pressure fluctuations, hyperthermia), central hypoventilation requiring intubation, decreased consciousness progressing to coma	Weeks to months
5. Recovery	Gradual improvement in reverse order of symptom onset; cognitive and behavioral deficits may persist longest	Months to years

Diagnostic Red Flags

Young women with new-onset psychosis should be evaluated for anti-NMDA receptor encephalitis before attributing symptoms to a primary psychiatric disorder
Movement disorders (especially orofacial dyskinesias) emerging after psychiatric symptoms are highly suggestive
Autonomic instability and central hypoventilation distinguish this from primary psychiatric illness
Language deterioration progressing to mutism is characteristic
Seizures in the context of psychiatric symptoms should prompt antibody testing

Age-Related Differences

Feature	Adults (>12 years)	Children (≤12 years)
Initial presentation	Psychiatric symptoms predominate	Seizures and movement disorders often first
Movement disorder	Orofacial dyskinesia, choreoathetosis	More varied; dystonia, choreoathetosis
Teratoma risk	~60% in females 15–35y	Rare (<10%)
Post-HSV trigger	Uncommon	Well-recognized
Outcome	Good with treatment; cognitive deficits may persist	Generally good; behavioral and developmental concerns during recovery

Investigations

Brain MRI

Brain MRI is normal or nonspecific in 70–80% of patients, which is remarkably discordant with the severity of the clinical presentation. When abnormal, findings may include:

Nonspecific white matter changes
Mesial temporal T2/FLAIR hyperintensity in a minority
Rarely, cortical or cerebellar abnormalities
Functional imaging shows substantial deficits despite normal structural MRI

CSF Analysis

80% abnormal: Lymphocytic pleocytosis is common
Unpaired oligoclonal bands (OCBs) — intrathecal antibody synthesis
NMDA receptor antibodies in CSF are essential for diagnosis; CSF is more sensitive and specific than serum for this antibody
Serum alone may miss cases or yield false positives

EEG

90% abnormal: Diffuse slowing is most common
20% show epileptiform abnormalities
Extreme delta brush pattern: Rhythmic delta activity with superimposed beta bursts; relatively specific for NMDA receptor encephalitis, though not pathognomonic

Tumor Screening

Cancer Screening Protocol

All females aged 12–50: Pelvic ultrasound and/or MRI for ovarian teratoma
If initial screen negative: Repeat imaging at 6-month intervals for at least 2 years
Males and older females: CT chest/abdomen/pelvis; PET-CT if clinical suspicion
Children post-HSV: Teratoma rare; focus on clinical monitoring
Tumor removal accelerates recovery and reduces relapse risk

Diagnostic Criteria

Probable anti-NMDA receptor encephalitis can be diagnosed with:

Rapid onset (<3 months) of ≥4 of the following: psychiatric symptoms, memory deficit, speech disorder, seizures, movement disorder, decreased consciousness, autonomic dysfunction, central hypoventilation
At least one of: abnormal EEG, CSF pleocytosis, or oligoclonal bands
Reasonable exclusion of other disorders

Definite diagnosis requires detection of IgG antibodies against GluN1 subunit in CSF (with or without serum positivity) in the presence of ≥1 of the above clinical features.

Treatment

First-Line Immunotherapy

IV methylprednisolone: 1 g/day for 3–5 days
IVIg: 0.4 g/kg/day for 5 days
Plasma exchange: 5–7 sessions on alternate days
These may be used in combination; approximately 50% improve within 4 weeks of first-line therapy

Tumor Removal

Surgical resection of ovarian teratoma should occur as early as possible
Tumor removal improves outcomes and reduces relapse risk from ~35% to ~10–15%

Second-Line Immunotherapy

Rituximab: 375 mg/m² weekly × 4 or 1 g × 2 (2 weeks apart)
Cyclophosphamide: IV pulse dosing
Approximately 60% of first-line non-responders improve with second-line therapy
Second-line therapy should not be delayed — early escalation improves outcomes

Maintenance Therapy

Rituximab or mycophenolate mofetil for relapse prevention
Duration individualized; typically 1–2 years minimum
Serial antibody titers are not reliable for guiding treatment decisions — clinical status is the preferred metric

Prognosis

Outcome	Detail
Good outcome (mRS 0–2)	~80% by 24 months
Improvement timeline	Weeks to months; can continue improving for up to 24 months
Relapse rate	10–15% overall; reduced by immunotherapy and tumor removal
Mortality	~5%
Residual deficits	Almost all patients have some residual neuropsychiatric deficits, particularly in executive function and memory
Favorable prognostic factors	Early treatment, tumor removal when applicable, less severe initial presentation

Differential Diagnosis

Primary psychiatric disorders: First-episode psychosis, catatonia — key distinction: movement disorder, autonomic instability, hypoventilation
Infectious encephalitis: HSV, enterovirus — CSF viral studies, MRI pattern differs
Drug intoxication: Ketamine, phencyclidine (NMDA receptor antagonists produce similar phenomenology)
Metabolic encephalopathy: Hepatic, uremic, thyroid
Other autoimmune encephalitis: LGI1, GABAB — clinical features and demographics differ
Neuroleptic malignant syndrome: Can be triggered by antipsychotics given for presumed psychiatric illness

References

Irani SR. Autoimmune encephalitis. Continuum (Minneap Minn). 2024;30(4):995-1020.
Dalmau J, Gleichman AJ, Hughes EG, et al. Anti-NMDA-receptor encephalitis: case series and analysis of the effects of antibodies. Lancet Neurol. 2008;7(12):1091-1098.
Titulaer MJ, McCracken L, Gabilondo I, et al. Treatment and prognostic factors for long-term outcome in patients with anti-NMDA receptor encephalitis. Lancet Neurol. 2013;12(2):157-165.
Graus F, Titulaer MJ, Balu R, et al. A clinical approach to diagnosis of autoimmune encephalitis. Lancet Neurol. 2016;15(4):391-404.