1. Introduction
The concurrence of glioma and relapsing–remitting multiple sclerosis (RRMS) is uncommon. Multiple sclerosis (MS) is diagnosed by clinical and radiological criteria meeting the 2017 McDonald’s Criteria [1]. In patients with tumefactive MS (an atypical variant of MS with large isolated demyelinated plaque), differentiating between tumefactive demyelinating lesions (TDLs) and glioma can be complicated [2]. For instance, some atypical TDLs may resemble gliomas and conversely, early-stage gliomas may mimic MS. This diagnostic dilemma may lead to a delay in diagnosis and could potentially affect the long-term clinical outcomes in such patients. TDLs are usually defined as large (>2 cm) demyelinating lesions with/without mass effect, perilesional edema, or gadolinium enhancement, which could mimic brain tumors radiologically and clinically [2]. Brain magnetic resonance imaging (MRI) is a sensitive technique for depicting demyelinating lesions in MS patients, but when used alone it fails to provide an accurate diagnosis in many cases of atypical TDLs that mimic a tumor. The definitive diagnosis is often made only after a surgical biopsy or resection of the lesion. Clinical suspicion of a brain tumor in MS usually arises if a patient experiences a steady progression of symptoms or neurological deficits in the presence of a TDL. We report a patient without a progressive course, who met clinical and MRI criteria for the diagnosis of relapsing–remitting multiple sclerosis (RRMS), with one of the lesions initially described as tumefactive (a TDL was deemed more likely than a neoplasm based on brain MRI imaging), which was later found to be a primary diffuse astrocytoma (WHO grade II). The patient provided informed consent for the publication of this case report.
2. Case Presentation
The 41-year-old female (non-smoker with a history of ulcerative colitis and celiac disease) had the onset of her MS 14 years ago, characterized by sensory symptoms of the lateral three fingers of the right hand, which resolved completely over several months. Seven years later, she experienced a second relapse characterized by paresthesias to her right hand, which spread to the medial aspect of her right arm, torso, leg, and toes. Following the second attack, she was diagnosed with RRMS based on MRI and clinical criteria. The initial MRI showed a large lesion (hypointense, non-enhancing on T1; hyperintense on fluid-attenuated inversion recovery (FLAIR) imaging) within the left frontal hemisphere involving the cortex and adjacent white matter (Figure 1, top row, “lesion”). Multiple white matter lesions were seen in both cerebral hemispheres compatible with MS (Figure 1, top row, “MS”). Focal hyperintensity was also observed in the right dorsal column of the cervical spinal cord at the C5–6 vertebral body level. Further evaluation by fluorodeoxyglucose positron emission tomography-computed tomography (FDG PET-CT) showed that the lesion was hypometabolic (Figure 1, middle row, “PET”). Magnetic resonance spectroscopy (MRS) revealed decreased N-acetylaspartate (NAA) with an NAA/creatine (Cr) ratio of 1.1 (Figure 1, middle row, “MRS”). The choline (Cho) was elevated, the Chol/Cr ratio was high at 1.59, and the Cho/NAA was 1.44. A significant lactate peak was not demonstrated. Neurosurgical and neuroradiological consultation suggested that the lesion in the left frontal hemisphere was consistent with a TDL in MS. Glatiramer acetate was initiated and the patient remained stable for the next four years without relapse or MRI activity. The patient had an expanded disability status scale (EDSS) of 1.0 since her diagnosis, without any evidence of confirmed disability progression or functional decline. The left frontal hemispheric lesion was followed over four years with serial MRI scans, which showed that the lesion increased in size with a mild mass effect involving the left middle frontal gyrus and underlying white matter (Figure 1, bottom row, “lesion”). There was interval stability of demyelinating plaques in the brain and cervical spinal cord. Neurosurgery was reconsulted and an elective left frontal awake craniotomy with the total resection of the lesion was carried out. Tissue diagnosis revealed primary left frontal diffuse astrocytoma (WHO grade II), 1p19q non-co-deleted, O6-methylguanine-DNA-methyltransferase (MGMT) methylated (46.5%), isocitrate dehydrogenase 1 (IDH1) R132H mutation, and loss of ATRX (alpha-thalassemia/mental retardation X-linked) expression. Post-operatively the patient experienced mild expressive dysphasia and was discharged on a tapering dose of dexamethasone. Following surgery, the patient received radiotherapy (54 Gray in 30 fractions) followed by temozolomide (6-cycle regime) for six months as an adjuvant treatment. She experienced a seizure, which was successfully treated with levetiracetam (750 mg) orally twice daily. She was on glatiramer acetate (20 mg) subcutaneously once daily throughout her course, and her MS remained stable by clinical and MRI criteria. Follow-up MRIs showed no recurrence of the glioma (Figure 1, bottom row, “post-op”) and stable white matter, ovoid, and periventricular lesions consistent with MS.
3. Discussion
Differentiating between TDLs and brain tumors is challenging, particularly in the early stages of brain cancer. In this patient, diagnostic delay likely occurred because she was clinically stable, the lesion occurred in the setting of MS diagnosis (early in disease) and multiple imaging techniques could not adequately distinguish between TDL and early glioma. In addition to standard brain MRI imaging, the patient underwent FDG-PET-CT, which was hypometabolic (favoring TDL), and MRS, which was equivocal (Cho/NAA ratio = 1.44; >1.72 highly correlates with high-grade glioma [3]). The co-occurrence of glioma and MS in the same patient is uncommon, and most of the previously reported cases had high-grade astrocytic tumors that developed after MS diagnosis [4].
TDLs and brain tumors may share several characteristics, including size (>2 cm), gadolinium enhancement pattern, and a predilection for the frontal and parietal lobes. Importantly, several studies have attempted to distinguish between TDLs and brain tumors. For example, a study by Abdoli and Freedman [2] found that in contrast to TDLs, brain tumors in MS more commonly occurred in late or established MS, evolved over a few months, showed symptoms consistent with space-occupying lesions (cortical symptoms, raised intracranial pressure), had mostly a progressive course, and the lesion typically had more mass effect, necrosis, and perilesional edema and contained calcification or hemorrhage. Remarkably, the patient presented in this report had none of these findings.
Considering that there has been no recent review on this topic, we conducted an up-to-date topical review of the cases of gliomas in persons living with MS. A literature search was done on MEDLINE/PubMed, Scopus (Elsevier), and Google (internet search) using the following search terms: multiple sclerosis, glioma, tumefactive lesion, brain tumor, astrocytoma, ependymomas, and oligodendroglioma. Case reports or case series reporting gliomas in an individual with MS and published in the English language since 2012 were included. We found 14 articles published in the last eight years (2012–2020) (Table 1). There were 16 patients (seven females, nine males), of which 13 had RRMS and 3 had SPMS. Table 2 presents a brief summary and classification of the glioma cases identified in people living with MS. Fourteen tumors were located in the frontal and parietal lobes. The most commonly reported gliomas were glioblastomas/astrocytomas, followed by oligodendrogliomas. Importantly, in contrast to the patient presented in this report, the vast majority of the cases presented with a progressive course or new neurological symptoms. Unfavorable clinical outcomes were mostly observed in elderly patients with high-grade gliomas who were either in palliative care or had refused interventional procedures. Tumor recurrence was observed in two cases.
Low-grade glioma in an MS patient may pose a diagnostic dilemma as the MRI findings of low-grade gliomas may be similar to those of TDLs [11]. Table 3 highlights the characteristic features for the differential diagnosis of MS, TDLs, and brain tumors in MS. A high level of clinical suspicion in atypical TDLs is required to differentiate glioma from MS [12]. A stereotactic biopsy and histopathological examination of the lesion aids in making a definitive diagnosis in equivocal cases [19]. It is a reliable procedure and has a diagnostic accuracy of 82–99% [20]. Total resection of the tumor without inflicting additional neurological deficits typically offers better patient outcomes for long-term survival [21].
4. Conclusions
This case report highlights that slow-growing suspicious TDLs in MS patients with a non-progressive course should be carefully monitored by MRI over time to exclude low-grade gliomas. An elective craniotomy (with a total resection of the lesion) followed by radiation and chemotherapy may provide favorable outcomes in patients with concurrent RRMS and low-grade diffuse astrocytoma.
Author Contributions
M.C.L. and C.K. were involved in the clinical management of the patient, the preparation of all the images, and the manuscript writing, review, and editing. A.S. was involved in the manuscript writing, literature review, and editing. All authors have read and agreed to the published version of the manuscript.
Funding
We have received no external funding. This work is based, in part, on work supported by the Saskatchewan MS Clinic and the office of the Saskatchewan MS Clinical Research Chair, College of Medicine, University of Saskatchewan, SK, Canada.
Institutional Review Board Statement
Not applicable.
Informed Consent Statement
The patient provided written informed consent for the publication of this case report.
Data Availability Statement
The data used to support the findings of this case report are available within the article.
Patient’s Perspective on the Treatment
From her initial diagnosis, they had found a rather large “MS lesion” in her left fronto-temporal region. A local neurologist determined that it was a large tumefactive lesion and referred her to the MS clinic for a second opinion. It was on her initial visit to the MS clinic in September 2017 that she heard the news that it might not be an MS lesion, but a low-grade glioma. The team at the clinic activated a referral process that ended with her having a craniotomy to remove the tumor. She is profoundly grateful to the team at the Saskatchewan MS Clinic for how they expedited her care. This team, she can say with wholehearted confidence, saved her life. She is also indebted to her neurosurgeons. Today she is optimistic about her prognosis and the progression of her disease.
Acknowledgments
We are extremely grateful to the individual living with MS described in this case report for providing her perspective on the treatment she received. We are also grateful to our clinical team at the Saskatchewan MS Clinic, College of Medicine, University of Saskatchewan, SK, Canada.
Conflicts of Interest
The authors declare no conflict of interest.
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Figure and Tables
Enlarge this image.Figure 1. Work-up and progression of the left frontal lobe lesion. The top row shows the large, non-enhancing lesion distinct from MS lesions (left to right: T1 following gadolinium administration (T1 + GAD) and fluid attenuated inversion recovery (FLAIR) showing the lesion; FLAIR showing MS lesions). The middle row shows hypometabolism of the lesion using fluorodeoxyglucose positron emission tomography–computed tomography imaging and results of magnetic resonance spectroscopy (MRS). MRS values are as follows: N-acetylaspartate (NAA)/creatine (Cr) 1.10, NAA/Cr(h) 0.99, choline (Cho)/Cr 1.59, Cho/Cr(h) 1.44, NAA/Cho 0.70, NAA/Cho(h) 0.69, Cho/NAA 1.44, and Cho/NAA(h) 1.45. The bottom row shows that the lesion increased in size compared to the original MRI (“pre-op”) and successful resection of the lesion (“post-op”). Abbreviations: MS: multiple sclerosis; PET: positron emission tomography; MRS: magnetic resonance spectroscopy; Pre-op: pre-operative; Post-op: post-operative.
Topical review of recently reported cases of gliomas in MS patients.
| Author, Year | Age/Sex | Age at MS Diagnosis | Age at Tumor Diagnosis | MS Phenotype | Tumor Location | Progressive Course or New Neurological Symptoms (Yes/No) | MRI Findings | Histopathology | Clinical Outcomes |
|---|---|---|---|---|---|---|---|---|---|
| Index Case (This Report) | 41 y/F | 34 y | 41 y | RRMS | Left Frontal | No | Large, Non-Enhancing Lesion, T1 Hypointense, FLAIR Hyperintense | Primary Diffuse Astrocytoma (WHO grade II) | Post-Operative Mild Expressive Dysphasia and a Seizure. MS Remained Stable by Clinical and MRI Criteria |
| Turatti et al. [5], 2013 | 43 y/F | N.A. | 43 y | RRMS | Splenium of corpus callosum and the optic radiations | Yes (progressive visual field restriction) | Large tumefactive lesion (>3 cm) that involved the spleniumof corpus callosum and the optic radiations, with moderate perilesional edema and without gadolinium enhancement | High-grade astrocytoma | Fully ambulatory, hyperreflexia with impaired vibration sensation and pain in the left leg, main disability: blindness caused by radiotherapy |
| Neil et al. [6], 2014 | 79 y/M | 45 y | 79 y | SPMS | Right parieto-occipital region | Yes (rapidly progressive cognitive decline) | Extensive, infiltrative mass which extended from the right parieto-occipital region across a significantly expanded corpus callosum | Anaplastic glioma | Family declined any further intervention and patient died in hospice |
| Carvalho et al. [7], 2014 | 43 y/M | 23 y | 37 y | RRMS | Left frontal lobe | Yes (progressive right hemiparesis) | Extensive subcortical and deep white matter lesion in the left frontal lobe (non-contrast-enhancing) on routine brain MRI | Grade II oligodendroglioma | At 3-year follow-up: stable MRI lesions with minor right hemiparesis and dysarthria |
| Mantero et al. [8], 2015 | 60 y/M | 42 y | 60 y | SPMS | Brainstem | Yes (rapidly progressing deterioration with tetraparesis, dysphagia, and dysarthria) | T2 hyperintense lesion in the brainstem, which increased in size on repeat MRI; thick enhancement surrounding a cyst-like cavity with involvement of left middle cerebellar peduncle | Glioblastoma | Patient died before the procedure (open brain biopsy); diagnosis was confirmed on autopsy |
| Morales et al. [9], 2017 Case 1 | 67 y/F | 42 y | N.A | RRMS | Right frontoparietal lobe | Yes (had aggressive tumor and died 13 weeks after symptom onset) | Contrast-enhancing lesions in the right frontoparietal area which expanded in size and number over time | Glioblastoma multiforme with areas of necrosis and endothelial proliferation | Patient and family abstained from diagnostic work-up and patient died in hospice |
| Case 2 | 26 y/M | 22 y | 25 y | RRMS | Right superior frontal lobe | No (lesion was discovered in the routine surveillance MRI) | Right superior frontal lobe mass at the cortical surface | Diffuse astrocytoma,IDH-mutant, WHO grade II | Developed focal seizures after surgery (treated with levetiracetam); treated with natalizumab, stable for 5 years |
| Same patient as above | 22 y | 26 y | RRMS | Right frontal lobe | Yes (developed new left-sided weakness) | Recurrence of the right frontal lobe lesion was observed on subsequent brain MRI | Glioblastoma multiforme with primary neuroectodermal tumor (PNET)-like component, IDH-mutant, WHO grade IV | Showed no evidence of tumor recurrence; continued monthly natalizumab and daily levetiracetam treatment for seizure prophylaxis | |
| Kantorova et al. [10], 2017 | 27 y/F | 19 y | 28 y | RRMS | Right frontal lobe | Yes (progression of expanded disability status scale (EDSS) from 2.0 to 5.0 and development of new symptoms) | Atypical hyperintense tumefactive demyelinating lesion | Anaplastic astrocytoma | Remained unstable (frequent epileptic seizures) and died during status epilepticus before starting oncological treatment |
| Abrishamchi et al. [11], 2017 | 41 y/F | 26 y | N.A. | RRMS | Left frontal lobe involving corpus callosum | Yes (progressive ataxia and dizziness) | High signal lesions in the left frontal lobe involving corpus callosum on FLAIR | Grade II astrocytoma | Impaired tandem gait, Romberg sign, bilateral Babinski signs, quadriparesis |
| Myserlis et al. [12], 2017 | 37 y/M | 23 y | 37 y | RRMS | Frontoparietal | Yes (gradual loss sensory and motor symptoms with cognitive decline) | A 5 cm circular, ring-enhancing lesion | Glioblastoma multiforme (grade IV) | Recurrence of the tumor with gradual loss of motor and sensory functions, ataxia, speech difficulties, cognitive decline and EDSS = 9 |
| Preziosa et al. [13], 2017Case 1 | 59 y/M | 43 y | 59 y | SPMS | Right post-rolandic regions | Yes (gradual progression of spastic hypertonia, hyposthenia and EDSS) | T2-hyperintense and T1-hypointense pseudotumoral lesion in the right post-rolandic region with irregular and poorly defined margins | Glioblastoma with leptomeningeal infiltration (grade IV) | Deterioration of locomotor functions and inability to walk (possible consequences of radiotherapy). Patient refused diagnostic procedure |
| Case 2 | 55 y/M | 38 y | 53 y | RRMS | Left supero-anterior parietal regions | Yes (subtle difficulty in reading and fatigue) | Heterogeneous T2-hyperintense and T1-hypointense lesion in the left superior anterior parietal regions with internal cystic areas and irregular enhancement | Grade IV glioblastoma | Deterioration of cognitive function, fatigue, reading difficulty and acalculia (only radiotherapy and temozolomide were used; no surgical removal of lesion) |
| Shirani et al. [14], 2018 | 44 y/M | 44 y | 9 months after MS ds | RRMS | Right frontal lobe | Not evident (only the initial presentation of sudden onset right-sided optic neuritis was described) | Multiple FLAIR white matter lesions in periventricular, juxtacortical and subcortical areas | Grade II oligodendroglioma | An early postoperative brain MRI revealed a new demyelinating lesion in the right posterior periventricular white matter and the patient remained on glatiramer acetate at the time of the report. |
| Sinclair et al. [15], 2019 | 41 y/F | N.A. | 30 y | RRMS | Left frontal lobe | Yes (gradually developed the clinical signs of mass-effect) | Suspected glioma in the left frontal lobe and multiple supratentorial MS-like lesions in both hemispheres | Oligodendroglioma; WHO grade 2–3 | During the next 5 years after microsurgery, patient underwent systemic treatment due to a series of tumor- or MS-like relapses (signs of focal recurrence on postoperative MRI, scattered MS-suspected lesions, right-sided hemiparesis) |
| Same patient as above | N.A. | 39 y | RRMS | Left frontal lobe | Yes (right-sided hemiparesis) | Tumor regrowth was observed next to surgical site (deemed unsuitable for microsurgery) | Anaplastic astrocytoma | Patient suffered from right foot palsy from the second surgical resection and fatigue (due to chemotherapy) | |
| Sirko et al. [16], 2020 | 30 y/M | 31 y | 32 y | RRMS | Right temporal lobe | Yes (a negative trend in the neurological examination) | T2 hyperintense lesion in the right temporal lobe and insula with irregular edges and blurred outlines involving both gray and white matter | Anaplastic oligoastrocytoma | Patient was waiting for surgery and was under the active supervision of a neurologist and a neurosurgeon |
| Algahtani et al. [17], 2020 | 23 y/F | 23 y | 23 y | RRMS | Left superior and part of the middle frontal gyri | Yes (gradually progressive walking difficulty and imbalance) | 5.6 cm cortical-based tumor which originated from the left superior and part of the middle frontal gyri (surrounded by vasogenic edema) | Anaplastic oligodendroglioma (WHO grade III) | Six months post-surgery, new white matter demyelinating lesions consistent with MS were detected and diagnosis of RRMS was confirmed. Targeted sequencing revealed a mutation in the GBA2 gene consistent with the diagnosis of autosomal-recessive cerebellar ataxia with spasticity (positive family history) |
| London et al. [18], 2020 | 55 y/F | 26 y | 55 y | RRMS | Left frontal lobe | Yes (developed mild gait ataxia, right hypoesthesia, and nystagmus) | Closed-ring contrast-enhancing lesion in the left frontal lobe with surrounding edema | Glioblastoma (WHO grade IV) | Follow-up MRI 3 months post-operation showed tumor progression. Despite treatment, the patient worsened and she died 5 months after diagnosis |
Abbreviations: M: male; F: female; N.A.: not available; y: year; MS: multiple sclerosis; RRMS: relapsing–remitting MS; SPMS: secondary progressive MS; IDH: isocitrate dehydrogenase; WHO: World Health Organization; MRI: magnetic resonance imaging; EDSS: expanded disability status scale; FLAIR: fluid attenuated inversion recovery.
Table 2Summary and classification of the identified glioma cases in patients with MS.
| Classification | Age (years) | Sex | MS Phenotype | Tumor Type |
Tumor Site |
|---|---|---|---|---|---|
Glioblastoma/Astrocytoma
|
43 | F | RRMS | Astrocytoma [5] | Splenium of corpus callosum and the optic radiations |
| 26 | M | RRMS | Diffuse astrocytoma [9] |
Right superior frontal |
|
| 27 | F | RRMS | Anaplastic astrocytoma [10] | Right frontal | |
| 41 | F | RRMS | Astrocytoma [11] | Left frontal lobe involving corpus callosum | |
| 60 | M | SPMS | Glioblastoma [8] | Brainstem | |
| 67 | F | RRMS | Glioblastoma multiforme [9] | Right frontoparietal | |
| 37 | M | RRMS | Glioblastoma multiforme [12] | Frontoparietal | |
| 59 | M | SPMS | Glioblastoma [13] | Right post-rolandic | |
| 55 | M | RMMS | Glioblastoma [13] | Left supero-anterior parietal | |
| 55 | F | RRMS | Glioblastoma [18] | Left frontal | |
Oligodendroglioma
|
43 | M | RRMS | Oligodendroglioma [7] | Left frontal |
| 44 | M | Oligodendroglioma [14] | Right frontal | ||
| 41 | F | Oligodendroglioma [15] |
Left frontal |
||
| 30 | M | Anaplastic oligodendroglioma [16] | Left superior and part of the middle frontal gyri | ||
| 23 | F | Anaplastic oligodendroglioma [17] | Left superior and part of the middle frontal gyri | ||
| Undifferentiated |
79 | M | SPMS | Anaplastic glioma [6] | Right parieto-occipital |
Abbreviations: M: male; F: female; MS: multiple sclerosis; RRMS: relapsing–remitting MS; SPMS: secondary progressive MS.
Table 3Differential diagnosis of MS, TDLs, and brain tumors in MS.
| MS | TDLs | Brain Tumors in MS | |
|---|---|---|---|
| Demographic features | Females > males; can occur at any age (usually between 20 and 40 years); relatively subacute onset [22] | Females > males; usually in young adults (middle age); relatively slow onset [23] | Brain tumors are more likely in males (this may vary with type of tumor); usually in older adults; gradual onset [24] |
| Clinical presentation | Variable, but typical syndromes include monocular loss of vision, double vision, ataxia, sensory loss, or limb weakness [25] | Polysymptomatic (usually sensory, motor, and cognitive symptoms), but may include focal neurological deficits, seizure, or aphasia [23] | Atypical manifestations may include (but are not limited to) headaches, tumor location-specific symptoms, or behavioral changes [26] |
| Clinical course | Relapsing–remitting (most common), secondary progressive, primary progressive | Could be monophasic or recurrent [23] | Usually progressive |
| Size and site of lesion(s) | 3–5 mm or larger, typical white matter lesions in MS are periventricular, juxtacortical, and callososeptal, or at cerebellar peduncles in the infratentorial region [27] | >2 cm, often found in the supratentorial region (mostly in the frontal and parietal lobes) [28] | Large and variable size, usual distribution at frontal and temporal lobes [29] |
| MRI | Typical white matter lesions are round to ovoid in shape, should be at least 3 mm in size (long axis), and appear hyperintense on T2 and FLAIR sequences [30] | Large lesion (>2 cm) but with relatively little mass effect or surrounding edema, incomplete (open-ring pattern) contrast enhancement [28] | Mass effect, perilesional edema, necrosis, and continued enlargement of lesion [10] |
| H-MRS | Acute MS lesions: increased Cho, reduced NAA, and presence of lipids in acute MS lesions Chronic MS lesions: reduced NAA levels [31] | Increased Cho and lactate are supportive, but non-specific Typically demonstrates increased Cho/NAA ratio, reduced NAA/Cr ratio, and increased Cho/Cr ratio [23,32,33] | Persistently elevated Cho is more suggestive of tumor, could exhibit decreased NAA/Cr ratio, increased Cho/Cr ratio, and variable lactate and lipid peaks [13] |
Abbreviations: MS: multiple sclerosis; TDLs: tumefactive demyelinating lesions; H-MRS: proton-magnetic resonance spectroscopy; mm: millimeter; cm: centimeter; Cho: choline; NAA: N-acetylaspartate; Cr: creatine; FLAIR: fluid-attenuated inversion recovery.
© 2021 by the authors.
Details
; Levin, Michael C 3
1 Saskatoon Multiple Sclerosis Clinic, Saskatchewan Health Authority, Saskatoon, SK S7K 0M7, Canada;
2 Office of the Saskatchewan Multiple Sclerosis Clinical Research Chair, College of Medicine, University of Saskatchewan, Saskatoon, SK S7K 0M7, Canada;
3 Saskatoon Multiple Sclerosis Clinic, Saskatchewan Health Authority, Saskatoon, SK S7K 0M7, Canada;