Multifocal intradural extramedullary ependymoma

DOI: 10.3171/2010.9.SPINE09963

Multifocal intradural extramedullary ependymoma Case report Eduardo Augusto Iunes, M.D.,1 João Norberto Stávale, M.D., Ph.D., 2 Rita de Cássia Caldas Pessoa, M.D., 3 Ricardo Ansai, M.D.,1 Franz Jooji Onishi, M.D.,1 Manoel Antonio de Paiva Neto, M.D., Ph.D.,1 Antônio de Pádua Bonatelli, M.D., Ph.D.,1 Sérgio Cavalheiro, M.D., Ph.D.,1 and Suzana M. Fleury Malheiros, M.D., Ph.D.1 Departments of 1Neurology and Neurosurgery, 2Pathology, and 3Radiology, Universidade Federal de São Paulo, Brazil In this paper, the authors present the case of a patient with multifocal intradural extramedullary ependymoma, and they review 18 previously reported cases. A 32-year-old man presented to the authors’ institution with a 1-month history of partial medullary syndrome. Magnetic resonance imaging of the neuraxis revealed multifocal intradural extramedullary lesions at the bulbomed­ ullary junction and C2–3, T5–11, L-2, L-4, L-5, and sacrum. Histological examination revealed a WHO Grade II ependymoma. The literature survey yielded 18 cases of ependymoma at the same location; none of them were multifocal at presentation. The authors analyzed the epidemiological, clinical, and surgical features of all 19 cases reported to date, including the present case. Patients’ ages ranged from 24 to 69 years; 15 patients were women and 4 were men. The time elapsed from symptom onset to diagnosis ranged from 1 month to 8 years. Pain (in 13 patients) and medullary syndrome (in 12) were reported as the initial symptoms (information was not provided for 1 patient). Tumors were predominantly located in the thoracic spine (11), but they also occurred in the cervicothoracic (3), cervical (2), and lumbar (2) spine. The remaining tumor was multifocal. Solitary extramedullary tumors were found intraoperatively in 13 pa­ tients; 3 were described as exophytic and 3 as extramedullary with some degree of medullary invasion. Histological examination revealed 9 WHO Grade II tumors, 4 Grade III tumors, and 1 myxopapillary tumor. Data obtained for the remaining cases proved inconclusive. The clinical condition improved in 11 patients, remained stable in 2, and worsened (recurrence or progression) in 6. Of the 4 patients with Grade II tumors who presented with recurrence or neuraxis spreading, 3 had meningeal infiltration or adhesion to the pia mater, which does not rule out the possibility of neoplastic remnants in that area. Intradural extramedullary ependymomas are rare, they predominate in women in the 5th decade of life, and pain is the most frequent initial symptom. The extent of resection and the presence of meningeal infiltration seem to be key determinants of prognosis. The present case is the first intradural extramedullary ependymoma (with the exception of those occurring at the conus medullaris and terminal filum) with multiple lesions at presentation. (DOI: 10.3171/2010.9.SPINE09963)

Key Words      •      ependymoma      •      extramedullary ependymoma      •      intradural ependymoma       •      multifocal ependymoma

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pinal cord tumors can be classified as extradural (55%) or intradural (45%), the latter being either in­ tramedullary (5%) or extramedullary (40%).22 Neu­­­­­ro­ fibromas, neuromas, and meningiomas account for roughly 60% of intradural extramedullary tumors and affect mainly adults, whereas intramedullary tumors are more common in children. Ependymomas and astrocytomas are the main histological diagnoses in the children.22 Ependymomas are the most common intramedul­

J Neurosurg: Spine / December 10, 2010

lary tumors and occur predominantly in adults. The re­ ported cranial/spinal tumor ratio for ependymomas is 4:1, ranging from 3:1 to 20:1, depending on histological subtype.18,19,22 Intradural extramedullary ependymomas are extremely rare except for those located at the termi­ nal filum or conus medullaris.20,22 An extensive literature survey yielded 18 such cases.3,5–7,9–14,17,21,23,24,27,29,31 The present study reports the 19th case and reviews all cases described to date. 1

E. A. Iunes et al.

Fig. 1.  Sagittal T2-weighted (A and C) and fat-suppressed, postcontrast T1-weighted (B and D) MR images of the cervicothoracic region demonstrating multiple intradural extramedullary lesions in the bulbomedullary junction, C2–3, and T6–11 with high signal intensity on the T2-weighted images, cystic areas, and moderate and heterogeneous enhancement. Note the irregular and thickened enhancement outlining the posterior surface of spinal cord.

Case Report History and Examination. This 32-year-old man pre­ sented with progressive paresthesia in the lower limbs, gait disturbance, and urinary retention during the preced­ ing month. Neurological examination showed hypesthe­ sia at the T-9 level, lower-limb hyperreflexia, Romberg sign, and calcaneal gait. Muscle strength was preserved. Initial spinal MR imaging revealed multiple intradural extramedullary lesions in the bulbomedullary junction and C2–3, T5–11, L-2, L-4, L-5, and sacrum that were predominantly isointense on T1-weighted images and hyperintense on T2-weighted and FLAIR images, with moderate contrast enhancement (Figs. 1 and 2). Cranial MR imaging showed an interpeduncular nodular lesion with mild contrast enhancement (Fig. 3). Operation. A T7–9 laminectomy was performed at the site of the major compression of the spinal cord according to the MR imaging findings. A brownish intradural extra­ medullary tumor compressing the spinal cord posteriorly was immediately apparent after opening the dura. Under microscopic assistance, no attachment of the tumor to the dura or spinal cord was observed, but arachnoid infiltra­ tion was noted. The tumor was soft. After internal debulk­ ing of the lesion, a sharp dissection at the tumor–spinal cord interface was performed, and the tumor was resected. Because of the multifocal characteristic of the lesion and arachnoidal infiltration, the aim of the surgery was spinal cord decompression instead of total resection. The histo­ logical examination revealed a WHO Grade II ependy­

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Fig. 2.  Sagittal fat-suppressed postcontrast T2-weighted (left) and T1-weighted (right) MR images of the lumbar spine demonstrating intradural and extramedullary entities appearing as cervicothoracic lesions at the level of L-4 and L-5. Superficial enhancement is observed in the conus medullaris.

J Neurosurg: Spine / December 10, 2010

Multifocal intradural extramedullary ependymoma

Fig. 3.  Postcontrast FLAIR (left) and T1-weighted (right) MR images of the brain showing an interpeduncular nodular lesion hyperintense on the FLAIR image and with mild contrast enhancement.

moma with hypercellular nodules showing a Ki 67 index of 10% (Fig. 4).

Postoperative Course. Postoperatively, the patient de­ veloped a transient motor deficit (strength 4/5 in the ilio­ psoas, quadriceps, tibialis anterior, extensor hallucis lon­ gus, and gastrocnemius muscles). He was able to stand on his own and walk with assistance. The patient received ad­ juvant chemotherapy consisting of 4 cycles of carboplatin (175 mg/m2/week for 4 weeks), followed by a 2-week break, without objective response. Ten months after surgery, the patient presented with progressive paraparesis. He underwent a partial resection of the intradural extramedullary lesion between T-9 and T-10, which adhered to nerve roots without medullary in­ vasion. Histological examination again revealed a WHO Grade II ependymoma. Regarding the intracranial lesion, it was never biopsied, but it was assumed to have the same histology because of the similarity of the MR imaging characteristics. The tumor remained stable during followup. The patient underwent radiotherapy at 39.5 Gy (whole brain) and 36 Gy (neuraxis), but no objective response ensued. He refused further chemotherapy and 8 months later developed a complete spinal cord syndrome and septic shock due to a urinary tract infection. The overall survival was 105 weeks.

Discussion

We found 17 publications reporting 18 patients with intradural extramedullary ependymoma (2 of them were reported in a single publication by Hentschel et al.13). Ta­ ble 1 shows the demographic, clinical, and follow-up data of all patients, including the patient in the present report. Of the 19 patients, 15 were women and 4 were men. A higher incidence among women has been observed in earlier studies.9,12 In a review paper of intradural extra­ medullary ependymomas, Duffau et al.9 postulated that a hormonal factor was involved. The higher prevalence among females does not match epidemiological data on spinal tumors, which affect males and females at simi­ lar rates, except for meningiomas, which are more com­ monly found among females, and intramedullary epen­ dymomas, which are more prevalent among males.18,19,22 J Neurosurg: Spine / December 10, 2010

Fig. 4.  Photomicrographs showing a moderately cellular ependymoma with a monomorphic nuclear morphology and a perivascular pseudorosette (A), perivascular pseudorosette (B), increased cellularity and pleomorphic area with 1 mitosis (C), and ependymal rosette (D). H & E, original magnification × 100 (A and B); × 400 (C and D).

Patients’ ages ranged from 24 to 69 years, a range similar to that described for intramedullary cases, with predomi­ nance in the 5th decade of life.20,22 The initial symptoms were pain in 13 patients and medullary syndrome (with motor and/or sensory and/or sphincter control deficit) in 12 (data were not available for 1 patient). Dorsalgia and radicular pain are the most fre­ quently reported clinical symptoms, regardless of com­ partment (intra- or extradural) or histological subtype.22 Intradural extramedullary ependymomas tend to follow the same pattern, with pain being reported as the earliest symptom in the majority of cases described (13 [72.2%] of 18 cases). The time elapsed from symptom onset to diagnosis ranged from 1 month to 8 years. The time interval from the first clinical manifestation to diagnosis was less than 1 year in most cases (12 [66.7%] of 18 cases). Diagno­ sis was delayed in some patients because of the lack of available MR imaging at the time. Among the patients reported on after the advent of MR imaging, only 2 were diagnosed later than 1 year. Graça et al.12 reported on a 67-year-old woman who presented with foot numbness that was initially diagnosed as peripheral neuropathy. The definitive tumor diagnosis was reached 2 years after the initial symptom. Katoh et al.14 reported on a 24-yearold woman presenting with sporadic dorsalgia. Magnetic resonance imaging was performed 3 years later, on mani­ festation of clinical features of medullary compression. Magnetic resonance imaging is the gold standard for diagnosing spinal tumors. Ependymomas usually en­ hance uniformly after Gd administration.16,28 Tumor loca­ tion was distributed as follows: cervical in 2 patients, cer­ vicothoracic in 3, thoracic in 11, lumbar in 2, and multiple 3

E. A. Iunes et al. TABLE 1: Summary of the cases reported* Authors & Year Cooper et al., 1951 Cheng et al., 1996 González et al., 1971 Katoh et al., 1995 Li & Holtås, 1992 Oliver et al., 1981 Wagle et al., 1988 Wolfla et al., 1997 Duffau et al., 2000 Robles et al., 2005 Payer et al., 1999 Shuurmans et al., 2006 Fuentes Rodríguez et al., 2004 Cerase et al., 2006 Graça et al., 2006 Hentschel et al., 2004 Benzagmout et al., 2008 present case

Clinical Duration of Age, Sex (yrs) Features Symptoms (wks) Site 40, F 47, F 43, F 24, F NR, F 34, F 41, F 69, F 43, F 47, F 62, F 29, F 47, F 56, M 67, F 37, M 51, F 31, M 32, M

pain, MS MS MS pain NR pain, MS pain pain pain, MS MS pain pain, MS pain pain, MS MS pain, MS pain pain, MS MS

156 34 416 156 NR 260 52 26 52 subacute 39 17 78 8 104 17 52 52 4

T T T CT L T T T T T T C L T T CT CT C ML

Intraop

WHO Grade

EM/TR exo/TR EM/TR EMA/TR EM EM EMA/TR EM/TR EM/TR EM/TR EM/TR EMA/TR EM/TR EM/TR EM/TR exo/TR exo/TR EM/TR EM/PR

I† myxo II III NR III II† II† II II II III II III II II II II† II

Clinical Course

Follow-Up (wks)

disease free 106 disease free NR disease free NR disease free 26 disease free NR disease free 13 disease free NR disease free 27 disease free 106 recurrence 98 disease free NR recurrence & death 106 disease free NR recurrence & death 57 recurrence 56 stable disease 6 stable disease 2 recurrence NR after relapse progression & death 105

*  C = cervical; CT = cervicothoracic; EM = extramedullary; EMA = extramedullary with adhesion; exo = exophytic; L = lumbar; ML = multiple locations; MS = medullary syndrome; myxo = myxopapillary; NR = not reported; PR = partial resection; T = thoracic; TR = total resection. †  These grades are probable grades.

in 1 patient (present case).3,5–7,9–14,17,21,23,24,27,29,31 In contrast to intramedullary ependymomas that clearly tend to de­ velop at the cervical medulla,19,20 the predominance of the thoracic location was noteworthy in the present review. Three of 5 tumors with cervical involvement extended into the thoracic region (cervicothoracic tumors). This observation may suggest that they might actually be cer­ vical intramedullary tumors (more prevalent) with extra­ medullary extension. The present case is the first of an intradural extramedullary ependymoma (except for those occurring in the conus medullaris and terminal filum) with multiple lesions at presentation. This presentation had been previously described in myxopapillary ependy­ momas.30 Intraoperative reports described exophytic tumors in 3 cases (treated with total resection), extramedullary tumors with some degree of medullary involvement in 3 cases (treated with total resection), and 13 tumors de­ scribed as exclusively extramedullary (of which 10 were treated with total resection and 1 with partial resection; in 2 cases the extent of resection was not specified). In the present case, the tumor was exclusively extramedullary, but it infiltrated the arachnoid membrane. Graça et al.12 reported a similar case of a Grade II tumor treated using gross-total resection. The tumor presented with a “pachy­ meningitis” that might have been attributable to neoplas­ tic infiltration and contributed to the poor outcome as observed in our patient. Finally, the true value of the sur­ geon’s intraoperative observation should be emphasized, since minimal medullary connections or arachnoid inva­ 4

sion might go undetected, particularly if partial resection is considered. Clinical improvement and local control occurred in 11 patients,6,7,9–11,14,17,21,23,29,31 5 of whom were followed up for 13–106 weeks.7,9,14,21,31 Data on follow-up were not available for 6 patients.6,10,11,17,23,29 Two patients remained stable, al­ though the follow-up extended for only 2 and 6 weeks.13 Including the patient in the present case, recurrence or progression occurred in 6 patients as follows:3,5,12,24,27 1 patient developed distant spinal metastasis,24 2 had local recurrence and distant spinal metastasis,5,12 1 had local re­ currence and cerebellar metastasis,3 and 1 had spinal and intracranial metastases.27 The patient in the present case presented with multiple lesions at diagnosis. Three pa­ tients, including the one in the present case, died of disease progression.5,27 Histologically, 9 ependymomas were classified as WHO Grade II, 1 was described as myxopapillary de­ spite the thoracic location, 4 were anaplastic (Grade III), 3 were “probable” Grade II tumors, and 1 was a probable Grade I ependymoma. The descriptions available were not detailed for the last 4 cases. Higher-grade gliomas are more prevalent in the ce­ rebral parenchyma, whereas lower-grade gliomas pre­ vail in the medulla.22 The present review showed a clear predominance of low-grade ependymomas. Histological grade does not seem to be the major determinant of clini­ cal outcome. Of the 6 cases with poor outcome,3,5,12,24,27 that is, those with recurrence or neuraxis spreading, only 2 had histological features of anaplastic ependymoma.5,27 J Neurosurg: Spine / December 10, 2010

Multifocal intradural extramedullary ependymoma The 3 patients with WHO Grade II tumors with unfavor­ able outcome warrant further evaluation. The patient re­ ported by Robles et al.24 underwent gross-total resection of an anterolateral tumor, yet the authors reported adhe­ sion to the pia mater, which does not rule out the possibil­ ity of neoplastic remnants in that area. The local recur­ rence was located in the posterior region, and histological examination showed a Grade III ependymoma. Taking into account that the lesion was only partially resected, a sampling error might be inferred (the pial portion might be a Grade III ependymoma). The patient reported on by Graça et al.12 presented with recurrence and spinal me­ tastasis, but the tumor remained classified as a Grade II tumor. An “important arachnoid inflammatory reaction” was also described, which might characterize a neoplastic infiltration and actually a partial resection, accounting for the unfavorable outcome. The patient in the present case also had a WHO Grade II ependymoma. The pachymen­ ingitis observed during surgery might in fact have been tumoral infiltration that led to sampling errors. However, the clinical feature of dissemination at presentation was irrefutable and may also have been associated with the unfavorable outcome. The patient described by Benzag­ mout et al.3 also had a poor outcome with cerebellar metastasis and local recurrence. The tumor was initially classified as a “benign ependymoma,” and the authors did not report on the follow-up after recurrence. Two patients with WHO Grade III ependymomas with a favorable outcome were described by Katoh et al.14 and Oliver et al.21 However, the follow-up reported was short (only 26 and 13 weeks, respectively). The origin of intradural extramedullary ependy­ moma has been attributed to the presence of heterotopic glial cells, since the earliest report by Cooper et al.7 This observation implies the occurrence of invagination of the neuraxis into the extramedullary space, evidenced by an encapsulated appearance (encapsulation by pia mater and arachnoid membrane) and absence of medullary connec­ tion. These cells evolve to a tumor within the intradural extramedullary space. The same hypothesis has been pro­ posed to explain the origin of gliomas occurring outside the neuraxis, including nasal and sacral gliomas.1,2,4,8,15,25,26 The presence of a medullary connection does not rule out the hypothesis of an intramedullary tumor extending to the extramedullary compartment. Identification of exclu­ sively extramedullary cases can be biased by subjective interpretation and by the resolution of surgical micro­ scopes, making it difficult to rule out medullary connec­ tion. From a practical standpoint, however, all the cases reported appeared as intradural and extramedullary le­ sions on the images, and the importance of these reports may lie in considering ependymomas, although rare, as a differential diagnosis of tumors at this location.

Conclusions

Intradural extramedullary ependymomas are ex­ tremely rare and predominate in women in the 5th decade of life. Pain is the most frequent initial symptom, akin to other tumors of the medullary canal. Magnetic resonance imaging of the entire neuraxis is essential to rule out in­ tracranial ependymomas with metastasis to the neuraxis. J Neurosurg: Spine / December 10, 2010

The thoracic location is the most common site for ex­ tramedullary ependymomas, unlike intramedullary ep­ endymomas, which are mostly cervical. Multifocal pre­ sentation at diagnosis had not been previously described. The prognosis seems to be related to the extent of resec­ tion and the presence of meningeal infiltration. Disclosure The authors report no conflict of interest concerning the mate­ rials or methods used in this study or the findings specified in this paper. Author contributions to the study and manuscript prepara­ tion include the following. Conception and design: Malheiros. Acquisition of data: Iunes, Stávale, Pessoa. Analysis and interpreta­ tion of data: Iunes, Stávale, Pessoa, Neto. Drafting the article: Iunes, Neto, Malheiros. Critically revising the article: Neto, Malheiros. Reviewed final version of the manuscript and approved it for sub­mission: all authors. Administrative/technical/material support: Ansai, Onishi. Study supervision: Bonatelli, Cavalheiro, Neto, Mal­ heiros. References   1.  Anglade MP: Le gliome des fosses nasales. Étude clinique et anatomo-pathologique. Presse Med 28:464, 1920   2.  Bailey OT: Relation of glioma of the leptomeninges to neuro­ glia nests: report of a case of astrocytoma of the leptomenin­ ges. Arch Path 21:584–600, 1936   3.  Benzagmout M, Boujraf S, Oulali N, Chbani L, Amarti A, Chakour K, et al: Intradural extramedullary ependymoma: is there constantly a hormonal relationship? Surg Neurol 70: 536–538, 2008   4.  Browder J: Encephaloma or the so-called nasal glioma. Ann Otol Rhinol Laryngol 38:395–403, 1929   5.  Cerase A, Venturi C, Oliveri G, De Falco D, Miracco C: In­ tradural extramedullary spinal anaplastic ependymoma. Case illustration. J Neurosurg Spine 5:476, 2006   6.  Cheng CH, Lee TC, Huang HY, Lui CC: Extramedullary tho­ racic myxopapillary ependymoma—a case report of a rare tu­ mour. Ann Acad Med Singapore 25:869–872, 1996   7.  Cooper IS, Craig WM, Kernohan JW: Tumors of the spinal cord; primary extramedullary gliomas. Surg Gynecol Obstet 92:183–190, 1951   8.  Crook M: Congenital ganglio-neuroma of nose, report of a case. J S Carolina Med Assoc 36:159–160, 1940   9.  Duffau H, Gazzaz M, Kujas M, Fohanno D: Primary intradu­ ral extramedullary ependymoma: case report and review of the literature. Spine 25:1993–1995, 2000 10.  Fuentes Rodríguez N, de la Paz Rivero M, Prince López JA, Salas Rubio JH: Ependimoma intradural extramedular prima­ rio. Rev Cuba Med Mil 33, 2004 (http://scielo.sld.cu/scielo. php?script=sci_arttext&pid=S0138-65572004000100009&ln g=en&nrm=iso) [Accessed October 27, 2010] 11.  González Feria L, Fernández Martín F, Ginovés Sierra M, Galera Davidson H: [Giant dorsal extramedullary ependymo­ ma.] Arch Neurobiol (Madr) 34:325–332, 1971 (Spn) 12.  Graça J, Gültasli N, D’Haene N, Brotchi J, Salmon I, Balériaux D: Cystic extramedullary ependymoma. AJNR Am J Neu­­ro­ ra­diol 27:818–821, 2006 13.  Hentschel SJ, McCutcheon IE, Ginsberg L, Weinberg JS: Ex­ o­phytic ependymomas of the spinal cord. Acta Neurochir (Wien) 146:1047–1050, 2004 14.  Katoh S, Ikata T, Inoue A, Takahashi M: Intradural extramedul­ lary ependymoma. A case report. Spine 20:2036–2038, 1995 15.  Kernohan JW, Fletcher-Kernohan EM: Ependymomas: a study of 109 cases. Assoc Res Nerv Ment Dis 16:182–209, 1937 16.  Li MH, Holtås S: MR imaging of spinal intramedullary tu­ mors. Acta Radiol 32:505–513, 1991

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Manuscript submitted December 8, 2009. Accepted September 22, 2010. Please include this information when citing this paper: published online December 10, 2010; DOI: 10.3171/2010.9.SPINE09963. Address correspondence to: Eduardo Augusto Iunes, M.D., Department of Neurology and Neurosurgery, Universidade Federal de São Paulo, Rua Napoleão de Barros, 715/6th floor, São Paulo, SP, Brazil, 04024002. email: [email protected].

J Neurosurg: Spine / December 10, 2010