C Dunham1. 1. Division of Anatomic Pathology, Department of Pathology and Laboratory Medicine, Children's and Women's Health Centre of British Columbia, University of British Columbia (UBC), 4500 Oak St., Vancouver, British Columbia, V6H 3N1, Canada. cdunham@cw.bc.ca.
Abstract
INTRODUCTION: Three tumors are commonly encountered in the posterior fossa of children: pilocytic astrocytoma (PA), medulloblastoma (MB), and ependymoma. However, a variety of additional tumors may occasionally be appreciated. Appropriate and successful treatment of these less common cases is predicated upon correct pathologic diagnosis. METHODS/ RESULTS: Reviewed herein are five less common tumors that may affect the posterior fossa of children: (1) "embryonal tumor with multilayered rosettes" (ETMR); (2) "cribriform neuroepithelial tumor" (CRINET); (3) "rosette-forming glioneuronal tumor" (RGNT); (4) "diffuse pilocytic astrocytoma" (dPA); and, (5) "desmoplastic small round cell tumor" (DSRCT). Each of the foregoing has a varying predilection for children and a posterior fossa location. For example, RGNT by definition arises in association with the 4th ventricle; while the mean age of those afflicted is 33, children may also be affected. Likewise, descriptions of dPA are generally restricted to the posterior fossa, and in particular, the cerebellum of children. Alternatively, DSRCT is a form of undifferentiated sarcoma that characteristically originates in the abdomen of children, but on occasion arises from the tentorium of young adults and children. The relevant molecular genetic underpinnings for each of the tumors highlighted herein have been well described and may carry diagnostic utility, not to mention clues as to underlying etiology. CONCLUSION: A number of pediatric brain tumors have a tendency to occur in the posterior fossa. While far less common than PA, MB, or ependymoma, the entities highlighted herein appear to have a degree of proclivity for the posterior fossa of children and as such warrant due consideration in the clinicopathologic workup of these cases.
INTRODUCTION: Three tumors are commonly encountered in the posterior fossa of children: pilocytic astrocytoma (PA), medulloblastoma (MB), and ependymoma. However, a variety of additional tumors may occasionally be appreciated. Appropriate and successful treatment of these less common cases is predicated upon correct pathologic diagnosis. METHODS/ RESULTS: Reviewed herein are five less common tumors that may affect the posterior fossa of children: (1) "embryonal tumor with multilayered rosettes" (ETMR); (2) "cribriform neuroepithelial tumor" (CRINET); (3) "rosette-forming glioneuronal tumor" (RGNT); (4) "diffuse pilocytic astrocytoma" (dPA); and, (5) "desmoplastic small round cell tumor" (DSRCT). Each of the foregoing has a varying predilection for children and a posterior fossa location. For example, RGNT by definition arises in association with the 4th ventricle; while the mean age of those afflicted is 33, children may also be affected. Likewise, descriptions of dPA are generally restricted to the posterior fossa, and in particular, the cerebellum of children. Alternatively, DSRCT is a form of undifferentiated sarcoma that characteristically originates in the abdomen of children, but on occasion arises from the tentorium of young adults and children. The relevant molecular genetic underpinnings for each of the tumors highlighted herein have been well described and may carry diagnostic utility, not to mention clues as to underlying etiology. CONCLUSION: A number of pediatric brain tumors have a tendency to occur in the posterior fossa. While far less common than PA, MB, or ependymoma, the entities highlighted herein appear to have a degree of proclivity for the posterior fossa of children and as such warrant due consideration in the clinicopathologic workup of these cases.
Authors: Quinn T Ostrom; Peter M de Blank; Carol Kruchko; Claire M Petersen; Peter Liao; Jonathan L Finlay; Duncan S Stearns; Johannes E Wolff; Yingli Wolinsky; John J Letterio; Jill S Barnholtz-Sloan Journal: Neuro Oncol Date: 2015-01 Impact factor: 12.300
Authors: Carsten Friedrich; André O von Bueren; Katja von Hoff; Nicolas U Gerber; Holger Ottensmeier; Frank Deinlein; Martin Benesch; Robert Kwiecien; Torsten Pietsch; Monika Warmuth-Metz; Andreas Faldum; Joachim Kuehl; Rolf D Kortmann; Stefan Rutkowski Journal: Neuro Oncol Date: 2012-12-07 Impact factor: 12.300
Authors: Michael A Arnold; Kandi Stallings-Archer; Evan Marlin; Ronald Grondin; Randal Olshefski; Jaclyn A Biegel; Christopher R Pierson Journal: Pediatr Dev Pathol Date: 2013-03-15
Authors: Stefan Pfister; Marc Remke; Mirco Castoldi; Alfa H C Bai; Martina U Muckenthaler; Andreas Kulozik; Andreas von Deimling; Armin Pscherer; Peter Lichter; Andrey Korshunov Journal: Acta Neuropathol Date: 2008-12-05 Impact factor: 17.088
Authors: Luciano Neder; Bernd W Scheithauer; Keki E Turel; Mark A Arnesen; Rhett P Ketterling; Long Jin; Timothy J Moynihan; Caterina Giannini; Fredric B Meyer Journal: Virchows Arch Date: 2009-03-05 Impact factor: 4.064
Authors: Cristiane M Ida; Sally R Lambert; Fausto J Rodriguez; Jesse S Voss; Brooke E Mc Cann; Amber R Seys; Kevin C Halling; V Peter Collins; Caterina Giannini Journal: J Neuropathol Exp Neurol Date: 2012-07 Impact factor: 3.148