Bickerstaff's Brainstem Encephalitis Suspected as Functional Neurologic Disorders.

Functional neurologic disorders feature nervous system symptoms that cannot be explained by a neurological disease or other medical condition. The patient described here was a 21-year-old Japanese woman who was initially diagnosed with a functional neurologic disorder based on numbness and weakness of the limbs with no abnormalities in routine examinations. Further detailed examinations revealed monocytes in cerebrospinal fluid (CSF), and electroencephalography revealed widespread, low-voltage, slow waves with concentrated spindle waves. Thus, encephalitis was suspected, and steroid pulse therapy was initiated. Her symptoms subsequently improved. Afterward, CSF analysis was positive for serum anti-GQ1b IgG antibodies. We made a final diagnosis of Bickerstaff's brainstem encephalitis (BBE). Our report describes the difficult differentiation of functional neurologic disorders from BBE. Physicians and psychiatrists should be aware of BBE.

Introduction

Functional neurologic disorders feature nervous system symptoms that cannot be explained by a neurological disease or other medical conditions.1 However, the symptoms are real and cause significant distress or problems in functioning.1 The cause of functional neurologic disorders is unknown.2 These conditions may be triggered by a neurological disorder or as a reaction to stress or psychological or physical trauma, but that is not always the case.1,2 Signs and symptoms include weakness or paralysis, abnormal movement, loss of balance, dysphagia, seizures or episodes of shaking and apparent loss of consciousness, episodes of unresponsiveness, numbness or loss of touch sensation, speech problems, vision problems, and hearing problems or deafness.1

We report our experience with a patient who had been suspected as a functional neurologic disorder and was diagnosed with Bickerstaff’s brainstem encephalitis (BBE), a very rare disease of the central nervous system, after admission to our hospital. This case report was approved by the ethics committees of Dokkyo Medical University. The patient gave written consent for the publication of this case report.

Case Presentation

The patient was a 21-year-old woman who suffered from numbness and weakness of the limbs. She had no abnormalities on blood tests or physical examination and was accordingly suspected of having a psychological disorder. On the same day, she was examined at a psychiatric clinic. She was diagnosed with a functional neurologic disorder triggered by psychological stress, such as conflicts with her supervisor at her workplace and her parents. She was treated with the anxiolytic alprazolam (1.2 mg). She then developed symptoms such as numbness of the tongue, headache, and difficulty opening her eyes. She also complained that her vision was unfocused and that she had noticed circular eye motions (nystagmus) in the mirror. The next day, she suddenly felt exhausted and was unable to walk unaided, whereupon she presented at the Department of Psychiatry. On examination, she sat slumped backward in a wheelchair and responded to questions with a slight nod of the head. When asked if there were any people she found disagreeable at her workplace, she suddenly raised her voice. She was thus provisionally diagnosed as being catatonic due to a functional neurologic disorder triggered by psychological stressors from her medical and occupational history. We admitted her to our hospital on the same day for a detailed evaluation. Immediately after admission, she responded only by nodding when spoken to, until her elder sister arrived to visit, whereupon she suddenly became excited and started crying and talking loudly. She later became unresponsive and started groaning as if she was in pain, crying out in a loud voice, and making backward jerking motions with her body. She had a temperature of 37.2°C, a pulse of 72 beats/min, and blood pressure of 106/67 mmHg. Her pupillary diameter was 5 mm, and the light reflex was normal bilaterally. The deep tendon reflex was normal, and the Babinski sign was negative. Blood tests revealed no abnormalities in liver or kidney function or electrolytes. Thyroid function indices (free thyroxine, free triiodothyronine, thyroid-stimulating hormone and thyroid-stimulating hormone receptor antibody (TRAb)) were within the normal range; however, serum anti-thyroglobulin antibody (TgAb) and anti-thyroid peroxidase antibody (TPOAb) were positive (630.0 IU/mL and 15.4 IU/mL). Magnetic resonance imaging (MRI) of the head region revealed no obvious abnormalities in the brain parenchyma, cerebral blood vessels, or intracranial structures. Electroencephalography (EEG) revealed widespread, low-voltage, slow waves between 5 and 7 Hz, with 4- and 15-Hz spindle waves concentrated in the frontal, parietal, and occipital regions. The frequencies of these waves remained the same after photic stimulation. Five days after admission, she showed no response to stimulation. We concluded that her altered consciousness was more likely to be due to an organic disease than catatonia; thus, she was referred to a neurologist. The patient also had pyrexia and nuchal rigidity after admission. Therefore, we performed cerebrospinal fluid (CSF) analysis, which showed a slight increase in monocytes (7 cells/µL) and normal glucose (0 mg/dl) and protein (41 mg/dl) levels. Herpes simplex virus antibody and herpes simplex virus DNA testing were not performed because we thought that the possibility was low due to the cell count, glucose and protein levels in CSF. TPOAb and TgAb in CSF were negative. CSF did not show albuminocytologic dissociation, with 7 cells/µL and protein at 41 mg/dl. Oligoclonal bands were not evaluated. Compound motor action potentials of the median and ulnar nerve were in the normal range, and sensory conditions of the median and ulnar nerve were in the normal range in a nerve conduction velocity examination (Figure 1). Ultrasonography revealed distinct thyroid enlargement. Consequently, Hashimoto’s encephalopathy was initially suspected as more likely than infectious brain inflammation, such as herpetic encephalitis, and the patient was started on steroid pulse therapy (methylprednisolone at 1 g for 3 days). Her consciousness level improved soon after completing steroid pulse therapy, and by day 4 posttreatment (day 10 after admission), she was able to converse and eat. She underwent further neurological examinations because of the improved state of consciousness and complained of double vision and numbness of the left arm from the shoulder to the fingertips. She also had abductive movement disorder of the right eye, reduced grip strength (9.6/8.2 kg), and cerebellar ataxia (clumsiness while performing rapid finger-nose, heel-knee, and hand pronation/supination movements). At that point (11 days after admission), we started another round of steroid pulse therapy (methylprednisolone at 1 g for 3 days), which resulted in almost total amelioration of the abductive dyskinesia of the right eye (with just a small degree of double vision in the right field). Subsequently, she underwent rehabilitation, regained the ability to walk and was discharged from the hospital 35 days after admission. At discharge, she had improved and had no ataxia and only residual numbness in the left index finger. Her grip strength had also improved to 21.6/21.4 kg. Subsequently, CSF was negative for anti-N-methyl-D-aspartate receptor (NMDAR) antibody. However, serum anti-GQ1b and anti-GT1a antibodies were positive; therefore, the patient’s final diagnosis was BBE. She has not undergone chronic immunosuppressive treatment; however, she has not had a recurrence during the follow-up period (approximately 1 year).

Figure 1

Nerve conduction velocity examination results. Compound motor action potentials of the median and ulnar nerve were in the normal range, and sensory conditions of the median and ulnar nerve were in the normal range.

Discussion and Conclusion

Our report describes the difficult differentiation of functional neurologic disorders from BBE for the first time in the literature worldwide. A study of 100 consecutive patients who were newly admitted to a neurology ward found that 14% had no objective evidence of neurologic disease and might be diagnosed with functional neurologic disorders.3 We made a definitive diagnosis of BBE based on positivity for anti-GQ1b and anti-GT1a IgG antibodies and typical symptoms, such as limb weakness and numbness, ophthalmoplegia and ataxia, and disturbance of consciousness.4 We ruled out the possibility of bacterial or viral encephalitis based on low cell counts, normal glucose levels and protein levels. Therefore, we performed various autoantibody tests (TPOAb, TgAb, TRAb, anti-NMDAR antibody, anti-GQ1b and anti-GT1a IgG antibodies), although we could not fully exclude the possibility of concomitant Hashimoto’s encephalopathy due to the lack of anti-NAE antibody testing. Serum IgG antibodies against various gangliosides (GM1, GM1b, GD1a, GalNAc-GD1a, GD1b, GT1a and GQ1b; 5 pmol/well) were measured by ELISA, as previously described.5 In this case, serum was considered positive when the optical density was 0.5 or more at a dilution of 1:500, which is a higher threshold than we use in most studies. The present definition is based on our previous report.6

BBE develops from a prodrome that includes headache and pyrexia, followed by progressive alteration of consciousness, and then symptoms such as ataxia, external ophthalmoplegia, facial paralysis, dysphagia, and peripheral muscle weakness develop.4 Symptoms become fixed at 1 to 8 weeks after onset, and patients mostly recover by 3 to 18 months later. Yuki et al and Chiba et al have shown that BBE, Miller Fisher syndrome (MFS), and Guillain-Barré syndrome (GBS) are immunological disorders with common features. Their reports describe the detection of anti-GQ1b IgG antibodies in BBE patients; these are the same autoantibodies that are detected in MFS and GBS (which also feature elevated anti-GQ1b IgG antibody levels), and GBS is accompanied by ocular motility disorders.7–10 Ogawara et al investigated electrophysiological conditions in anti-GQ1b IgG antibody-positive patients with somnolence and unilateral sensory disorders in addition to the three classic signs of MFS (external ophthalmoplegia, ataxia, and loss of deep tendon reflexes).11 Their findings included central and peripheral nervous system abnormalities, and they classified BBE as a subtype of MFS with accompanying central nervous system disorders. Thus, BBE has become recognized as a distinct disease entity that overlaps with MFS and GBS.

Although this finding was limited to pediatric patients, Michev et al reported that 64% of patients diagnosed with BBE presented alterations in a nerve conduction study.12 However, in this patient, the results of nerve conduction velocity examinations were within the normal range.

As in this case, routine physical examinations and blood tests may not include abnormal findings, despite the presence of various neurological and psychological symptoms. We should not exclude the possibility of associations between symptoms and a physical condition when examining such patients.