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EditorialEDITORIALS

Suprasellar Monomorphous Pilomyxoid Gliomas

Carol K. Petito
American Journal of Neuroradiology November 2003, 24 (10) 1931-1932;
Carol K. Petito
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The proposed cell of origin generally forms the basis for the classification of primary brain tumors, a practice highlighted by Bailey and Cushing in 1926 (1) and continued to the present time (2, 3). Despite the long history of the naming of tumors, “new” tumors continue to be identified when their correct cell of origin is identified by additional studies or modern technology. The cerebral neurocytoma typifies such a tumor whose histogenesis from neuronal lines rather than from oligodendroglial lines was recognized when electron microscopy identified tumor cell synapses. The advent of molecular biology has ushered in a new dimension to tumor classification, or reclassification, most notably in its current potential to distinguish between chemosensitive and chemoresistant infiltrating gliomas.

In 1999, Tihan et al (4) reclassified a subset of previously diagnosed pilocytic astrocytomas of the suprasellar-hypothalamic region on the basis of their more aggressive clinical course, monomorphous histology, myxoid features, and an absence of Rosenthal fibers. They termed these tumors “pediatric astrocytomas with monomorphous pilomyxoid features.” Three additional cases were subsequently described by Fuller et al (5) and included the immunophenotype and electron microscopic appearance of these neoplasms. Because of the ultrastructural appearance was similar to the periventricular tanycyte, Fuller et al suggested a tanycytic origin for these tumors, although they concluded that current studies were insufficient to redefine this unique group of third ventricular gliomas as “tanycytomas.”

In the present issue of the AJNR, Lieberman et al more fully detail the neuroradiologic features of Fuller’s cases and add two additional cases with similar histology, immunophenotype, and ultrastructural features.

Are the available data now sufficient to classify these tumors as tanycytomas? Probably not. Location and ultrastructure are suggestive of tanycytic origin, but as Fuller et al have pointed out, they are insufficient for a definite statement regarding the histogenesis of this neoplasm. Additional immunohistochemical studies to examine other tanycytic antigens such as macrophage migration inhibitory factor (6) or a tanycytic-specific antigen such as P5 (7) would strengthen the hypothesis of a tanycytic origin of this suprasellar pilomyxoid tumor. The potential role of molecular biology in identifying the cell of origin is, or course, uncertain, but it has been helpful in distinguishing among the different glial tumors such as astrocytoma, oligodendroglioma, and ependymoma (2) as well as predicting biologic behavior (8). Classification as a “suprasellar pilomyxoid glioma” might be a compromise term until its cell of origin is established.

Sato et al (9) recently propose a tanycytic origin for the choroid glioma (9), a well-circumscribed third ventricular neoplasm. Its histology and more benign clinical course (10) separate it from the suprasellar pilomyxoid glioma and its molecular profile displays an absence of genetic mutations commonly associated with gliomas (11). Currently, there is insufficient information to determine links between the low grade choroid glioma with the more aggressive suprasellar pilomyxoid glioma.

References

  1. ↵
    Bailey P, Cushing H. A Classification of theTumors of the Glioma Group on a Histogenetic Basis with a Correlated Study of Prognosis. Philadelphia: Lippincott;1926
  2. ↵
    Kleihues P, Cavenee WK, eds. Pathology and Genetics of Tumors of the Nervous System: World Health Organization Classification of Tumors. Lyon: IARC Press;2000
  3. ↵
    Burger PC, Scheithauer PW, Vogel FS. Surgical Pathology of the Nervous System and Its Coverings. 4th ed. New York: Churchill Livingstone;2002
  4. ↵
    Tihan T, Fisher PG, Kepner JL, et al. Pediatric astrocytoma with monomorphous pilomyxoid features and a less favorable outcome. J Neuropathol Exp Neurol 1999;58:1061–1068
    CrossRefPubMed
  5. ↵
    Fuller CE, Frankel B, Smith M, et al. Suprasellar monomorphous pilomyxoid neoplasm: an ultrastructural analysis. Clin Neuropathol 2001;20:256–262
    PubMed
  6. ↵
    Nishibori M, Nakaya N, Mori S, Saeki K. Immunohistochemical localization of macrophage migration inhibitory factor (MIF) in tanycytes, subcommissural organ and choroid plexus in the rat brain. Brain Res 1997;758:259–262
    CrossRefPubMed
  7. ↵
    Blazquez JL, Guerra M, Pastor F, et al. Antibodies obtained by xenotransplantation of organ-cultured median eminence specifically recognize hypothalamic tanycytes. Cell Tiss Res 2002;30:241–253
  8. ↵
    Dyer S, Prebble E, Davison V, et al. Genomic imbalances in pediatric intracranial ependymomas define clinically relevant groups. Am J Pathol 2002;161:2133–2141
    PubMed
  9. ↵
    Sato K, Kubota T, Ishida M, Yoshida K, Takeuchi H, Handa Y. Immunohistochemical and ultrastructural study of choroid glioma of the third ventricle: its tanycytic differentiation. Acta Neuropathol 2003;106:176–180
    PubMed
  10. ↵
    Brat DJ, Scheithauer BW, Staugaitis SM, Cortez SC, Reifenberger G, Burger PC. Third ventricular choroid glioma: a distinct clinicopathological entity. J Neuropathol Exp Neurol 1998;57:283–290
    PubMed
  11. ↵
    Reifenberger G, Weber T, Ruthild G et al. Choroid glioma of the third ventricle: immunohistochemical and molecular genetic characterization of a novel tumor entity. Brain Pathol 1999;9:617–626
    PubMed
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American Journal of Neuroradiology: 24 (10)
American Journal of Neuroradiology
Vol. 24, Issue 10
1 Nov 2003
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Suprasellar Monomorphous Pilomyxoid Gliomas
Carol K. Petito
American Journal of Neuroradiology Nov 2003, 24 (10) 1931-1932;

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Suprasellar Monomorphous Pilomyxoid Gliomas
Carol K. Petito
American Journal of Neuroradiology Nov 2003, 24 (10) 1931-1932;
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