CC BY-NC-ND 4.0 · Arquivos Brasileiros de Neurocirurgia: Brazilian Neurosurgery 2019; 38(02): 128-136
DOI: 10.1055/s-0039-1685150
Case Report | Relato de Caso
Thieme Revinter Publicações Ltda Rio de Janeiro, Brazil

Oligodendroglioma with Sarcomatous Transformation: Case Report and Literature Review

Oligodendroglioma com transformação sarcomatosa: Caso clínico e revisão da literatura
1   Department of Neurosurgery, Centro Hospitalar do Porto, Porto, Portugal
,
Célia Maria Pinheiro
1   Department of Neurosurgery, Centro Hospitalar do Porto, Porto, Portugal
,
Alfredo Luís Calheiros
1   Department of Neurosurgery, Centro Hospitalar do Porto, Porto, Portugal
› Institutsangaben
Weitere Informationen

Address for correspondence

Gonçalo Cerdeira Figueiredo, MD
Departmento de Neurocirurgia, Centro Hospitalar do Porto, Largo Prof. Abel Salazar
4099-001, Porto
Portugal   

Publikationsverlauf

23. Oktober 2018

19. Februar 2019

Publikationsdatum:
18. April 2019 (online)

 

Abstract

Oligodendrogliomas are infiltrative tumors of the central nervous system considered to be morphologically stable and to offer a better prognosis. Here, we describe the case of a 36-year-old man with an initial diagnosis of oligodendroglioma, World Health Organization (WHO) grade II, who presented transformation to a sarcomatous form, while maintaining the oligodendroglial component as well as the genetic characteristics of the initial tumor without having undergone any complementary treatments previously. Despite the favorable genetic characteristics, the tumor presented poor response to complementary treatments, and rapid progression, including spinal metastasis.


#

Resumo

Oligodendrogliomas são tumores infiltrativos do sistema nervoso central considerados morfologicamente estáveis e com melhor prognóstico. Aqui, descrevemos o caso de um homem de 36 anos com diagnóstico inicial de oligodendroglioma grau II OMS, que apresentou transformação para uma forma sarcomatosa, mantendo as características genéticas do tumor inicial, sem ter sido submetido a tratamento complementar. Apesar das características genéticas favoráveis, o tumor apresentou má resposta aos tratamentos e progressão rápida, incluindo com metastização raquidiana.


#

Introduction

Oligodendrogliomas are infiltrative tumors of the central nervous system (CNS). They constitute between 4 and 5% of the primary CNS tumors and ∼ 4 to 15% of the glial tumors.[1] Among the glial tumors, oligodendrogliomas have always been considered morphologically stable.[2]

Gliosarcomas are rare primary tumors of the CNS, histologically composed of glial and sarcomatous cells, with the glial component being, in most cases, astrocytic.[3]

We describe here a case of an oligosarcoma (World Health Organization [WHO] grade III[4]), originating from an oligodendroglioma (WHO grade II[4]), in a patient not previously submitted to complementary treatments.


#

Case Report

A 36-year-old man presented with an onset of convulsive crisis in 2014. He underwent brain computed tomography (CT) that showed a left frontal intra-axial lesion with calcifications in the interior ([Fig. 1]) and brain magnetic resonance imaging (MRI) that showed a lesion at the same location with hyperintensity T2 and without contrast enhancement, suggestive of low-grade glioma ([Fig. 2]). The patient was submitted to craniotomy and gross total resection (GTR) of the lesion ([Fig. 3]). Histological analysis showed a tumor with round nuclei cells and perinuclear halos, with extensive areas of calcification. It also showed absence of mitoses, necrosis and showed low nuclear proliferation index. The lesion was classified as oligoastrocytoma WHO grade II, according to the WHO tumor classification of 2007[5] ([Figs. 4] and [5]), and the tumor was positive for the presence of 1p/19q co-deletion. The patient remained under clinical and imaging surveillance, without any complementary treatment.

Zoom Image
Fig. 1 Computed tomography scan showed a left frontal lesion with calcification.
Zoom Image
Fig. 2 T2-weighted magnetic resonance imaging showed a hyperintensity left frontal lesion.
Zoom Image
Fig. 3 First surgery postoperative magnetic resonance imaging showed gross total resection of the tumor.
Zoom Image
Fig. 4 HE staining showed round nuclei with a perinuclear halo, and a low proliferation index.
Zoom Image
Fig. 5 HE staining showed round nuclei with a perinuclear halo, and a low proliferation index.

Two years later, in imaging control, tumor growth was recorded in the posterior and medial portion of the surgical site. An MRI showed characteristics similar to the initial lesion, namely without evidence of contrast enhancement, with spontaneous hyperintensity in T2-fluid-attenuated inversion recovery (FLAIR) weighted imaging ([Figs. 6] and [7]). The patient underwent a new surgical procedure with GTR of the recurrent tumor ([Fig. 8]). The neuropathological characteristics confirmed that it was an oligodendroglioma WHO grade II, isocitrate dehydrogenase (IDH-1) positive (according to the WHO classification of 2016 CNS tumors[4]), maintaining the presence of 1p/19q co-deletion and α thalassemia/mental retardation syndrome X-linked (ATRX) mutation positive ([Figs. 9] and [10]), now with a moderate nuclear proliferation index. The patient was once again referred to clinical and imaging surveillance, not considering indications for adjuvant treatments, given the clinical, imaging, anatomopathological and degree of tumor removal obtained.

Zoom Image
Fig. 6 T2-fluid-attenuated inversion recovery (FLAIR) magnetic resonance imaging showed a tumor recurrence in the posterior and medial walls of the surgical site.
Zoom Image
Fig. 7 T2-fluid-attenuated inversion recovery (FLAIR) magnetic resonance imaging showed a tumor recurrence in the posterior and medial walls of the surgical site.
Zoom Image
Fig. 8 Second surgery postoperative magnetic resonance imaging showed gross total resection of the tumor.
Zoom Image
Fig. 9 Hematoxylin & eosin staining with de same initial type of cells, but with a moderate proliferation index.
Zoom Image
Fig. 10 Hematoxylin & eosin staining with de same initial type of cells, but with a moderate proliferation index.

After 12 months, new MRI control showed tumor recurrence, now with a contrast enhancement area, suggesting possible dedifferentiation ([Figs. 11] and [12]). It was operated on with a GTR of the lesion, as evidenced by postoperative brain CT ([Fig. 13]). The histological analysis showed a very cellular tumor, with frequent mitoses, areas of extensive necrosis, with rounded nuclei cells, and an evident cytoplasm and a fasciculated aspect. The immunohistochemistry study showed positivity for glial fibrillary acidic protein (GFAP), and the sarcomatous portion was strongly positive for vimentin. It maintained positivity for IDH-1 and ATRX and presented a very high proliferation index. The neuropathological study now showed the occurrence of sarcomatous transformation, maintaining the oligodendroglial component (oligosarcoma WHO grade III [4]), ([Figs. 14] [15] [16] [17] [18] [19] [20]). With this new histological diagnosis, the patient started complementary treatment according to the Stupp protocol. He completed 30 sessions of radiotherapy (2 Gy/session, totalizing 60 Gy), with concomitant temozolomide 75 mg/m2 for 7 days/week, for 6 weeks. Following this, the patient underwent 1 cycle of adjuvant temozolomide 150 mg/m2 for 5 days.

Zoom Image
Fig. 11 T1-weighted magnetic resonance imaging showed a left frontal lesion with contrast enhancement (12).
Zoom Image
Fig. 12 T1-weighted magnetic resonance imaging showed a left frontal lesion with contrast enhancement (12).
Zoom Image
Fig. 13 Third surgery postoperative computed tomography scan without contrast, showed gross total resection of the tumor.
Zoom Image
Fig. 14 Hematoxylin & eosin staining showed hypercellular tumor with round nuclei, with a perinuclear halo, with frequent mitoses and areas of extensive necrosis.
Zoom Image
Fig. 15 Hematoxylin & eosin staining showed hypercellular tumor with round nuclei, with a perinuclear halo, with frequent mitoses and areas of extensive necrosis.
Zoom Image
Fig. 16 Immunohistochemistry showed positive staining for glial fibrillary acidic protein (GFAP).
Zoom Image
Fig. 17 The tumor showed positive staining for vimentin in the sarcomatous portion.
Zoom Image
Fig. 18 The tumor was positive for IDH-1.
Zoom Image
Fig. 19 The tumor was positive for α thalassemia/mental retardation syndrome X-linked (ATRX).
Zoom Image
Fig. 20 The proliferation index was very high.

During the 2nd cycle of chemotherapy, the patient presented with a new neurological deficit, a motor apraxia of the right upper limb. Another MRI was undertaken, which revealed tumor progression, with a recurrent tumor in the surgical site and still with left hemispheric meningeal dissemination revealing an extra-axial mass with contrast enhancement ([Figs. 21] and [22]). A new surgical intervention with GTR of the various relapsed lesions, as documented by postoperative MRI ([Figs. 23] and [24]), was performed. The parietal lesion corresponded to a mass of hard consistency and was extra-axial ([Figs. 25] and [26]). The neuropathological study of the various lesions was shown to be the same sarcomatous tumor, and complementary treatment with 2nd line chemotherapy (irinotecan with bevacizumab) was initiated. At the end of 2 months of treatment, the patient exhibited severe cervical radiculopathy without relief with analgesics, and was submitted to lumbar puncture, which showed the presence of malignant cells in the cerebrospinal fluid. He underwent a neuro-axis MRI, which showed stability of the disease at the brain but extensive spreading to the medulla with intradural and extramedullary lesions at the cervical and medullary cone levels ([Figs. 27], [28]). He started treatment with 3rd line chemotherapy (lomustina 90 mg/m2 for 6 days/week, for /6 weeks, and bevacizumab 10 mg/kg for 2 days/week for 2 weeks. The patient also performed 5 sessions of radiotherapy directed to the cervical lesion (5 fractional radiotherapy sessions totaling 20 Gy). Currently, the patient has a 4-year overall survival, with Karnofsky performance status of 60% and eastern cooperative oncology group (ECOG) performance status 2.

Zoom Image
Fig. 21 T1-weighted magnetic resonance imaging showed a recurrent tumor in the surgical site and a left hemispheric extra-axial mass with contrast enhancement (22).
Zoom Image
Fig. 22 T1-weighted magnetic resonance imaging showed a recurrent tumor in the surgical site and a left hemispheric extra-axial mass with contrast enhancement (22).
Zoom Image
Fig. 23 Fourth postoperative magnetic resonance imaging showed gross total resection of the tumor.
Zoom Image
Fig. 24 Fourth postoperative magnetic resonance imaging showed gross total resection of the tumor.
Zoom Image
Fig. 25 Intraoperative images showing a lesion of hard consistency, with plane of separation of adjacent brain parenchyma.
Zoom Image
Fig. 26 Intraoperative images showing a lesion of hard consistency, with plane of separation of adjacent brain parenchyma.
Zoom Image
Fig. 27 Cervical T1-weighted magnetic resonance imaging with contrast showed a lesion at C6-C7 level with contrast enhancement.
Zoom Image
Fig. 28 Lumbar T1-weighted magnetic resonance imaging with contrast showed a lesion at T12-L1 level with contrast enhancement.

#

Discussion

Isocitrate dehydrogenase-mutated and 1p/19q-positive co-deletion oligodendrogliomas are considered slow-growing tumors with a better prognosis than the other gliomas.[5] The appearance of sarcomatous tumors at sites of oligodendrogliomas resection in patients not undergoing further chemotherapy and/or radiotherapy treatments is very rare.[6] Although in most cases the glial component of the sarcomatous tumors is astrocytic, the literature describes several cases of gliosarcomas in which the glial component is oligodendrocytic.[2] [3] [6] [7] [8] [9] [10]

Here, we describe the case of an oligodendroglioma WHO grade II with 1p/19q co-deletion, IDH-1 and ATRX mutation, with initial GTR, not subjected to complementary treatments, and which was dedifferentiated to the sarcomatous form. The tumor always maintained the same genetic characteristics. Despite the presence of predictive factors of better prognosis, the tumor displayed poor response to radiotherapy and chemotherapy, and even presented spinal metastasis. Although several cases have been described in the literature of oligodendrogliomas with transformation to the sarcomatous form (oligosarcoma), research performed in PubMed and Google Scholar reveals only one case with spinal metastasis.[8]

Most cases with extracranial dissemination are associated with extensive progression of the brain tumor;[11] yet, in this case, the spread occurred with stability of the brain lesions.

This case describes a patient with a low-grade glioma, with most of the predictive factors of better prognosis (age < 40 years, total initial resection and favorable genetics), in whom progression occurred rapidly and with refractoriness to complementary treatments.


#

Conclusion

Despite all the good prognostic factors present in this clinical case and the absence of previous adjuvant therapies, the tumor was dedifferentiated to a malignant form, quickly and without any warning signs.

This leads us to conclude that there is a need for further studies that may indicate new prognostic factors, such as imaging, anatomopathological and genetic characteristics that help us understand which tumors will dedifferentiate more quickly and which may respond better to complementary treatments.


#
#

Conflicts of Interest

The authors have no conflicts of interest to declare.

  • References

  • 1 Paleologos NA, Cairncross JG. Treatment of oligodendroglioma: an update. Neuro-oncol 1999; 1 (01) 61-68
  • 2 Vajtai I, Vassella E, Hewer E, Kappeler A, Reinert MM. Sarcomatous evolution of oligodendroglioma (“oligosarcoma”): confirmatory report of an uncommon pattern of malignant progression in oligodendroglial tumors. Pathol Res Pract 2012; 208 (12) 750-755
  • 3 Rodriguez FJ, Scheithauer BW, Jenkins R. , et al. Gliosarcoma arising in oligodendroglial tumors (“oligosarcoma”): a clinicopathologic study. Am J Surg Pathol 2007; 31 (03) 351-362
  • 4 Louis DN, Ohgaki H, Wiestler OD, Cavenee WK. 2016. World Health Organization Histological Classification of Tumours of the Central Nervous System. International Agency for Research on Cancer, France
  • 5 Louis DN, Ohgaki H, Wiestler OD, Cavenee WK. 2007. World Health Organization histological classification of tumours of the central nervous system. International Agency for Research on Cancer, Lyon
  • 6 Yasuda T, Nitta M, Komori T. , et al. Gliosarcoma arising from oligodendroglioma, IDH mutant and 1p/19q codeleted. Neuropathology 2017; ••• DOI: 10.1111/ neup.12406.
  • 7 Shoji T, Saito R, Kanamori M, Sonoda Y, Watanabe M, Tominaga T. Sarcoma-like tumor originating from oligodendroglioma. Brain Tumor Pathol 2016; 33 (04) 255-260 . Doi: 10.1007/s10014-016-0268-2
  • 8 Pasquier B, Couderc P, Pasquier D, Panh MH, N'Golet A. Sarcoma arising in oligodendroglioma of the brain: a case with intramedullary and subarachnoid spinal metastases. Cancer 1978; 42 (06) 2753-2758
  • 9 Hiniker A, Hagenkord JM, Powers MP, Aghi MK, Prados MD, Perry A. Gliosarcoma arising from an oligodendroglioma (oligosarcoma). Clin Neuropathol 2013; 32 (03) 165-170
  • 10 Tanaka S, Hitotsumatsu T, Sugita Y. , et al. Gliosarcoma arising from oligodendroglioma (Oligosarcoma): A case report with genetic analyses. Pathol Int 2018; 68 (10) 567-573
  • 11 Choi TM, Cheon YJ, Jung TY, Lee KH. A Stable Secondary Gliosarcoma with Extensive Systemic Metastases: A Case Report. Brain Tumor Res Treat 2016; 4 (02) 133-137

Address for correspondence

Gonçalo Cerdeira Figueiredo, MD
Departmento de Neurocirurgia, Centro Hospitalar do Porto, Largo Prof. Abel Salazar
4099-001, Porto
Portugal   

  • References

  • 1 Paleologos NA, Cairncross JG. Treatment of oligodendroglioma: an update. Neuro-oncol 1999; 1 (01) 61-68
  • 2 Vajtai I, Vassella E, Hewer E, Kappeler A, Reinert MM. Sarcomatous evolution of oligodendroglioma (“oligosarcoma”): confirmatory report of an uncommon pattern of malignant progression in oligodendroglial tumors. Pathol Res Pract 2012; 208 (12) 750-755
  • 3 Rodriguez FJ, Scheithauer BW, Jenkins R. , et al. Gliosarcoma arising in oligodendroglial tumors (“oligosarcoma”): a clinicopathologic study. Am J Surg Pathol 2007; 31 (03) 351-362
  • 4 Louis DN, Ohgaki H, Wiestler OD, Cavenee WK. 2016. World Health Organization Histological Classification of Tumours of the Central Nervous System. International Agency for Research on Cancer, France
  • 5 Louis DN, Ohgaki H, Wiestler OD, Cavenee WK. 2007. World Health Organization histological classification of tumours of the central nervous system. International Agency for Research on Cancer, Lyon
  • 6 Yasuda T, Nitta M, Komori T. , et al. Gliosarcoma arising from oligodendroglioma, IDH mutant and 1p/19q codeleted. Neuropathology 2017; ••• DOI: 10.1111/ neup.12406.
  • 7 Shoji T, Saito R, Kanamori M, Sonoda Y, Watanabe M, Tominaga T. Sarcoma-like tumor originating from oligodendroglioma. Brain Tumor Pathol 2016; 33 (04) 255-260 . Doi: 10.1007/s10014-016-0268-2
  • 8 Pasquier B, Couderc P, Pasquier D, Panh MH, N'Golet A. Sarcoma arising in oligodendroglioma of the brain: a case with intramedullary and subarachnoid spinal metastases. Cancer 1978; 42 (06) 2753-2758
  • 9 Hiniker A, Hagenkord JM, Powers MP, Aghi MK, Prados MD, Perry A. Gliosarcoma arising from an oligodendroglioma (oligosarcoma). Clin Neuropathol 2013; 32 (03) 165-170
  • 10 Tanaka S, Hitotsumatsu T, Sugita Y. , et al. Gliosarcoma arising from oligodendroglioma (Oligosarcoma): A case report with genetic analyses. Pathol Int 2018; 68 (10) 567-573
  • 11 Choi TM, Cheon YJ, Jung TY, Lee KH. A Stable Secondary Gliosarcoma with Extensive Systemic Metastases: A Case Report. Brain Tumor Res Treat 2016; 4 (02) 133-137

Zoom Image
Fig. 1 Computed tomography scan showed a left frontal lesion with calcification.
Zoom Image
Fig. 2 T2-weighted magnetic resonance imaging showed a hyperintensity left frontal lesion.
Zoom Image
Fig. 3 First surgery postoperative magnetic resonance imaging showed gross total resection of the tumor.
Zoom Image
Fig. 4 HE staining showed round nuclei with a perinuclear halo, and a low proliferation index.
Zoom Image
Fig. 5 HE staining showed round nuclei with a perinuclear halo, and a low proliferation index.
Zoom Image
Fig. 6 T2-fluid-attenuated inversion recovery (FLAIR) magnetic resonance imaging showed a tumor recurrence in the posterior and medial walls of the surgical site.
Zoom Image
Fig. 7 T2-fluid-attenuated inversion recovery (FLAIR) magnetic resonance imaging showed a tumor recurrence in the posterior and medial walls of the surgical site.
Zoom Image
Fig. 8 Second surgery postoperative magnetic resonance imaging showed gross total resection of the tumor.
Zoom Image
Fig. 9 Hematoxylin & eosin staining with de same initial type of cells, but with a moderate proliferation index.
Zoom Image
Fig. 10 Hematoxylin & eosin staining with de same initial type of cells, but with a moderate proliferation index.
Zoom Image
Fig. 11 T1-weighted magnetic resonance imaging showed a left frontal lesion with contrast enhancement (12).
Zoom Image
Fig. 12 T1-weighted magnetic resonance imaging showed a left frontal lesion with contrast enhancement (12).
Zoom Image
Fig. 13 Third surgery postoperative computed tomography scan without contrast, showed gross total resection of the tumor.
Zoom Image
Fig. 14 Hematoxylin & eosin staining showed hypercellular tumor with round nuclei, with a perinuclear halo, with frequent mitoses and areas of extensive necrosis.
Zoom Image
Fig. 15 Hematoxylin & eosin staining showed hypercellular tumor with round nuclei, with a perinuclear halo, with frequent mitoses and areas of extensive necrosis.
Zoom Image
Fig. 16 Immunohistochemistry showed positive staining for glial fibrillary acidic protein (GFAP).
Zoom Image
Fig. 17 The tumor showed positive staining for vimentin in the sarcomatous portion.
Zoom Image
Fig. 18 The tumor was positive for IDH-1.
Zoom Image
Fig. 19 The tumor was positive for α thalassemia/mental retardation syndrome X-linked (ATRX).
Zoom Image
Fig. 20 The proliferation index was very high.
Zoom Image
Fig. 21 T1-weighted magnetic resonance imaging showed a recurrent tumor in the surgical site and a left hemispheric extra-axial mass with contrast enhancement (22).
Zoom Image
Fig. 22 T1-weighted magnetic resonance imaging showed a recurrent tumor in the surgical site and a left hemispheric extra-axial mass with contrast enhancement (22).
Zoom Image
Fig. 23 Fourth postoperative magnetic resonance imaging showed gross total resection of the tumor.
Zoom Image
Fig. 24 Fourth postoperative magnetic resonance imaging showed gross total resection of the tumor.
Zoom Image
Fig. 25 Intraoperative images showing a lesion of hard consistency, with plane of separation of adjacent brain parenchyma.
Zoom Image
Fig. 26 Intraoperative images showing a lesion of hard consistency, with plane of separation of adjacent brain parenchyma.
Zoom Image
Fig. 27 Cervical T1-weighted magnetic resonance imaging with contrast showed a lesion at C6-C7 level with contrast enhancement.
Zoom Image
Fig. 28 Lumbar T1-weighted magnetic resonance imaging with contrast showed a lesion at T12-L1 level with contrast enhancement.