Esthesioneuroblastoma pathophysiology: Difference between revisions
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Homer Wright pseudorosettes, which are composed of tumor cells surrounding a center of pink fibrillary material, are seen in one-half of olfactory neuroblastomas; true (Flexner type) rosettes, composed of tumor cells surrounding a central lumen, are best seen in higher grade tumors. Necrosis, dystrophic calcification, and vascular or lymphatic invasion are more common with increasing tumor grade. In rare instances, a few admixed ganglion cells may be present. Electron microscopy of olfactory neuroblastomas demonstrates numerous axonal-type cytoplasmic processes, which contain neurofilaments, neurotubules, and dense-core neurosecretory granules (100 to 200 nm in diameter) [21,22]. The S100 immunoreactivity corresponds to Schwann cells enveloping cell bodies and axonal processes (see 'Differential diagnosis' below). | Homer Wright pseudorosettes, which are composed of tumor cells surrounding a center of pink fibrillary material, are seen in one-half of olfactory neuroblastomas; true (Flexner type) rosettes, composed of tumor cells surrounding a central lumen, are best seen in higher grade tumors. Necrosis, dystrophic calcification, and vascular or lymphatic invasion are more common with increasing tumor grade. In rare instances, a few admixed ganglion cells may be present. Electron microscopy of olfactory neuroblastomas demonstrates numerous axonal-type cytoplasmic processes, which contain neurofilaments, neurotubules, and dense-core neurosecretory granules (100 to 200 nm in diameter) [21,22]. The S100 immunoreactivity corresponds to Schwann cells enveloping cell bodies and axonal processes (see 'Differential diagnosis' below). | ||
Esthesioneuroblastomas stain positive for S-100 protein and/or neuron-specific enolase, while the stain usually is negative for cytokeratin, desmin, vimentin, actin, glial fibrillary acidic protein, UMB 45, and the common leukocytic antigen. For difficult cases, electron microscopy can be useful. Common features are small, round neuroepithelial cells arranged in rosette or pseudorosette patterns, separated by fibrous elements. Rosettes consist of a central space ringed by columnar cells with radially oriented nuclei. | |||
The Hyams histologic grading system grades tumors from I to IV based upon pathologic features such as mitotic activity and necrosis [21]. | The Hyams histologic grading system grades tumors from I to IV based upon pathologic features such as mitotic activity and necrosis [21]. | ||
Revision as of 16:28, 19 January 2016
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Esthesioneuroblastoma Microchapters | |
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Esthesioneuroblastoma pathophysiology On the Web | |
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Risk calculators and risk factors for Esthesioneuroblastoma pathophysiology | |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]Associate Editor(s)-in-Chief: Simrat Sarai, M.D. [2]
Overview
Pathophysiology
Gross Pathology
On gross examination, biopsy material from olfactory neuroblastoma is soft and hemorrhagic. Resection specimens may show a polypoid appearance. Microscopically, the tumor grows beneath the surface respiratory epithelium and may produce focal ulceration. The vascular supply is rich and fragile, accounting for the hemorrhagic gross appearance. Arises from olfactory mucosa-upper nasal cavity. On gross examination, biopsy material from olfactory neuroblastoma is soft and hemorrhagic. Resection specimens may show a polypoid appearance.
Microscopic Pathology
- Small round (blue) cell tumour with:
- Stippled chromatin.
- High NC ratio.
- +/-Flexner-Wintersteiner rosette - rosette with empty centre (donut hole).
- +/-Fibrillary, eosinophilic material (neuropil-like)
Olfactory neuroblastomas are of neural crest cell origin. They are mulilobulated pink-grey tumors. Histology demonstrates variable differentiation, from well formed neural tissue to undifferentiated neuroblasts with pseudorosette formation 2. It has been suggested that olfactory neuroblastoma is actually part of the Ewing sarcoma group of tumors, rather than being related to neuroblastoma.
Olfactory neuroblastomas are of neural crest cell origin 1. They are mulilobulated pink-grey tumours.
Histology demonstrates variable differentiation, from well formed neural tissue to undifferentiated neuroblasts with pseudorosette formation 2. It has been suggested that olfactory neuroblastoma is actually part of the Ewing sarcoma group of tumours, rather than being related to neuroblastoma
Microscopically, the tumor grows beneath the surface respiratory epithelium and may produce focal ulceration. The vascular supply is rich and fragile, accounting for the hemorrhagic gross appearance.
In low-grade (well-differentiated) lesions, the growth pattern is lobulated with transitions into sheets or discrete nests of tumor cells, which are small and round with high nuclear cytoplasmic ratios (picture 1) [21,22]. In well-differentiated tumors, the nuclei show uniform chromatin distribution with small inconspicuous nucleoli. The nuclei become progressively more pleomorphic, with coarse chromatin clumping and prominent nucleoli, with increasing tumor grade. The stroma in well-differentiated tumors is distinctly fibrillary, reflecting the neuronal (axonal) processes made by the tumor cells. This stroma decreases in quantity as the tumor becomes less well-differentiated. Mitoses and areas of necrosis also become more frequent with increasing tumor grade.
Homer Wright pseudorosettes, which are composed of tumor cells surrounding a center of pink fibrillary material, are seen in one-half of olfactory neuroblastomas; true (Flexner type) rosettes, composed of tumor cells surrounding a central lumen, are best seen in higher grade tumors. Necrosis, dystrophic calcification, and vascular or lymphatic invasion are more common with increasing tumor grade. In rare instances, a few admixed ganglion cells may be present. Electron microscopy of olfactory neuroblastomas demonstrates numerous axonal-type cytoplasmic processes, which contain neurofilaments, neurotubules, and dense-core neurosecretory granules (100 to 200 nm in diameter) [21,22]. The S100 immunoreactivity corresponds to Schwann cells enveloping cell bodies and axonal processes (see 'Differential diagnosis' below).
Esthesioneuroblastomas stain positive for S-100 protein and/or neuron-specific enolase, while the stain usually is negative for cytokeratin, desmin, vimentin, actin, glial fibrillary acidic protein, UMB 45, and the common leukocytic antigen. For difficult cases, electron microscopy can be useful. Common features are small, round neuroepithelial cells arranged in rosette or pseudorosette patterns, separated by fibrous elements. Rosettes consist of a central space ringed by columnar cells with radially oriented nuclei. The Hyams histologic grading system grades tumors from I to IV based upon pathologic features such as mitotic activity and necrosis [21].
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Associated Conditions
- Associated with Trisomy 8.