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Primary Leptomeningeal Lymphoma: A Rare Mimicker of Idiopathic Intracranial Hypertension

Published online by Cambridge University Press:  07 September 2020

Caberry W. Yu
Affiliation:
Faculty of Medicine, Queen’s University, Kingston, Ontario, Canada
Jason H. Peragallo
Affiliation:
Department of Ophthalmology and Pediatrics, Emory University, Atlanta, GA, USA
Jonathan A. Micieli*
Affiliation:
Department of Ophthalmology and Vision Sciences and Division of Neurology, Department of Medicine, University of Toronto, Toronto, Ontario, Canada Kensington Vision and Research Centre, Toronto, Ontario, Canada
*
Correspondence to: Dr. Jonathan A. Micieli, Kensington Vision and Research Centre, 340 College Street, Suite 501, Toronto, OntarioM5T 3A9, Canada. Email: jmicieli@kensingtonhealth.org
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Abstract

Type
Letter to the Editor
Copyright
Copyright © The Author(s), 2020. Published by Cambridge University Press on behalf of The Canadian Journal of Neurological Sciences Inc.

A 46-year-old Caucasian woman was seen in neuro-ophthalmology consultation for bilateral optic disc edema. She had a past medical history of obesity (body mass index 38 kg/m2), hypertension, and dyslipidemia. She developed back pain 3 months prior to presentation that was unresponsive to over-the-counter medications. One week prior to presentation, she developed holocephalic headaches and intermittent nausea. She also reported transient visual obscurations and pulsatile tinnitus. She presented to the emergency department and had a CT scan of the head, which was reported as normal. Ophthalmological examination revealed a visual acuity of 20/20 in both eyes, normal Humphrey visual fields, and bilateral optic disc edema with several dot retinal hemorrhages in both eyes (Figure 1). Ocular motility and alignment were normal. Neurological examination was normal. Because of concern for papilledema and raised intracranial pressure, she underwent MRI of the brain, which was initially reported as normal, but on further review showed diffuse sulcal fluid attenuated inversion recovery (FLAIR) nonsuppression with leptomeningeal enhancement within the posterior fossa (Figure 2). There were no parenchymal lesions or ventriculomegaly. MRI of the spine showed diffuse enhancement along the cauda equina nerve roots with possible leptomeningeal enhancement along the spinal cord. The differential diagnosis included leptomeningeal carcinomatosis, infectious or inflammatory leptomeningitis. She underwent a lumbar puncture (LP) that revealed an opening pressure of 32 cmH2O with 2000 nonerythroid cells, 16 erythroid cells, protein greater than 2 g/L, and glucose of 1.2 mmol/L. Cerebrospinal fluid (CSF) cytology and flow cytometry showed a monotypic B-cell population consistent with large B-cell non-Hodgkin’s lymphoma. CSF culture and polymerase chain reaction for the detection of viruses were negative.

Figure 1: Fundus photos at presentation revealing bilateral optic disc edema with small, dot hemorrhages in the retina.

Figure 2: Magnetic resonance imaging (MRI) of the brain at presentation. (A) FLAIR images showing diffuse sulcal FLAIR nonsuppression (red arrows). T1-post gad MRI images of the brain (B) and cervical spine (C) showing linear posterior fossa sulcal enhancement of the extra-axial spaces (yellow and green arrows, respectively).

Bone marrow biopsy, CT scan of the chest, abdomen, and pelvis, and positron emission tomography-CT (PET-CT) from vertex to mid-thigh demonstrated no systemic involvement. She started treatment with high-dose methotrexate induction chemotherapy, rituximab, and temozolomide, followed by intrathecal cytarabine. Follow-up 9 months after initial presentation demonstrated normal visual function and no optic disc edema. She relapsed 18 months after initial presentation and died 3 months later.

Primary leptomeningeal lymphoma (PLML) is a type of primary central nervous system lymphoma (PCNSL), a rare neoplasm that arises as solitary or multifocal lesions in the cerebral hemispheres in 60% of cases. Reference Lachance, O’Neill and Macdonald1,Reference Bühring, Herrlinger and Krings2 While most leptomeningeal lymphomas are metastatic from another primary lymphoma, Reference Taylor, Flanagan and O’Neill3,Reference Fischer, Martus and Weller4 PLML without parenchymal or systemic disease accounts for 7% of all PCNSLs. Reference Lachance, O’Neill and Macdonald1 The largest case series of PLML comprised 48 patients and found that most PLMLs, like other PCNSL, are non-Hodgkin’s lymphoma of B cell lineage. Reference Taylor, Flanagan and O’Neill3 Most patients with PLML present with multifocal symptoms, ranging from cranial nerve palsies, lumbosacral radiculopathies, to less common ones like headaches and ataxia. Reference Taylor, Flanagan and O’Neill3 Isolated intracranial hypertension was not described in this case series. Reference Taylor, Flanagan and O’Neill3 Because of its wide range of presentations, PLML is commonly misdiagnosed as stroke, meningitis, polyradiculopathies, and rarely idiopathic intracranial hypertension (IIH). Reference Margarette de Vera Andal5

Our patient was an obese woman who presented with headache, nausea, transient visual obscurations, and papilledema, which suggested IIH. Reference Thurtell, Bruce and Newman6 Symptoms and signs of IIH, if present, may only reflect those of generalized elevated intracranial pressure. Reference Friedman and Jacobson7 However, in our patient, there were several atypical features that favored another diagnosis, including the rapid onset of symptoms, dot hemorrhages in the retina outside of the peripapillary area, and MRI findings of leptomeningeal enhancement. The MRI findings were not obvious and required expertise in interpreting the images. Five previously published cases of PLML have reported symptoms of intracranial hypertension. Reference Takagi, Oku and Kida8-Reference Kim, Ha and Jeon12 In these cases, PLML caused a clinical syndrome consistent with IIH, which is defined as intracranial hypertension without mass lesions, dural venous sinus thrombosis, or other secondary cause. Reference Johnston, Hawke and Halmagyi13 Our case was unique since previous cases reported papilledema and intracranial hypertension in men, Reference Takagi, Oku and Kida8,Reference Ahmed, King and Gibson9,Reference Manusow, Lee-Wing and Rahman11 had significant associated neurological symptoms such as obtundation, Reference Kepes, Maxwell and Hedeman10 significantly compromised visual function, Reference Kim, Ha and Jeon12 or the main location of disease was in the spine. Reference Ahmed, King and Gibson9 Patients may present with only blurred vision without headache Reference Margarette de Vera Andal5 and initial MRI brain may be normal. Reference Thurtell, Bruce and Newman6 The importance of CSF studies in cases atypical for IIH including male patients was emphasized by a case where a 49-year-old man with 6 weeks of headaches and transient visual obscurations with a normal MRI brain underwent transverse sinus stenting without LP. Reference Thurtell, Bruce and Newman6 It was only 2 years later when he represented with seizures, balance problems, and progressive vision loss that the diagnosis of PLML was established. These cases demonstrate how difficult this condition can be to diagnose and the importance of contrast-enhanced MRI and CSF in these atypical cases for IIH. The Friedman-Jacobson criteria also include elevated intracranial pressure in lateral decubitus position, normal CSF composition, and no evidence of hydrocephalus, mass, structural, or vascular lesions on MRI or contrast-enhanced CT for diagnosis of IIH. Reference Friedman, Liu and Digre14

To diagnose PLML, a combination of MRI, serial CSF studies, and/or meningeal biopsy must be used. Leptomeningeal enhancement on MRI was found in 74% of patients with PLML, most commonly in the spinal cord and nerve roots. Reference Taylor, Flanagan and O’Neill3 Patients with PLML usually have high protein and low glucose on CSF studies. Reference Taylor, Flanagan and O’Neill3 CSF detection of PLML can be increased by doing a combination of cytology (malignant lymphocytes in 67% of PLML cases), flow cytometry (monoclonal population in 80% of cases), and receptor gene rearrangement studies (positive in 71% of cases). Reference Taylor, Flanagan and O’Neill3 Serial LPs are indicated in patients who are suspected of PLML as initial CSF studies can be negative. Reference Ahmed, King and Gibson9,Reference Manusow, Lee-Wing and Rahman11 If CSF remains nondiagnostic, a leptomeningeal biopsy is required. Reference Taylor, Flanagan and O’Neill3 PLML is usually a diagnosis of exclusion, and it was ruled in for our patient after PET-CT scan showed no systemic involvement, MRI of brain found no parenchymal involvement, and bone marrow biopsy was negative for lymphoma.

The biological basis of PLML is not currently understood, nor are prognostic factors or sites of relapse. Treatment of PLML can involve radiotherapy, systemic, and intrathecal chemotherapy, with 66% of patients receiving two or more modalities. Reference Taylor, Flanagan and O’Neill3 Most patients receive high-dose methotrexate as the main treatment. The median overall survival for patients with PLML is 24 months, and a subset may be cured. Reference Taylor, Flanagan and O’Neill3

In conclusion, PLML is a rare CNS neoplasm that may present with symptoms of intracranial hypertension such as headache and visual obscurations. Careful fundus examination, contrast-enhanced neuroimaging, and CSF studies must be performed in cases atypical for IIH. To diagnose PLML, a combination of MRI, CSF studies, and leptomeningeal biopsy may be required with systemic disease being ruled out.

Conflicts of interest

The authors have no conflicts of interest to disclose.

Statement of Authorship

Conception and design (J.P., J.M.), data retrieval (C.Y., J.M.), drafting of manuscript (C.Y., J.M.), critical appraisal (J.P., J.M.), and final approval (C.Y., J.P., and J.M.).

References

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Figure 0

Figure 1: Fundus photos at presentation revealing bilateral optic disc edema with small, dot hemorrhages in the retina.

Figure 1

Figure 2: Magnetic resonance imaging (MRI) of the brain at presentation. (A) FLAIR images showing diffuse sulcal FLAIR nonsuppression (red arrows). T1-post gad MRI images of the brain (B) and cervical spine (C) showing linear posterior fossa sulcal enhancement of the extra-axial spaces (yellow and green arrows, respectively).