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vol. 56
 
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Case report

Intraspinal intradural nodular fasciitis mimicking glioblastoma metastasis: a case report

Carl Moritz Zipser
,
Lars Füllbier
,
Rudi Beschorner
,
Hans Bösmüller
,
Ulf Ziemann
,
Marcos Soares Tatagiba
,
Ghazaleh Tabatabai
,
Benjamin Bender
,
Felix Behling

Folia Neuropathol 2018; 56 (1): 75-79
Online publish date: 2018/03/28
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- Intraspinal.pdf  [0.37 MB]
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Introduction

Nodular fasciitis (NF) is a rapidly growing but non-malignant lesion. It is self-limiting and usually regresses over a few months but due to its rapid growth and unspecific imaging characteristics it is often misinterpreted as a malignant process, mostly as a sarcomatous lesion. The cause of this fibroblastic/myofibroblastic proliferation is unclear while a possible correlation with local trauma has been suggested. NF preferably develops in the upper extremities, trunk, head and neck, but it can also occur in many other locations [2,4,7]. Only two cases with a intraspinal extradural location have been reported in the literature [5,6] and one case with intracranial intradural manifestation [1]. This case report is the first description of an intraspinal intradural nodular fasciitis. It occurred in a patient with right temporal glioblastoma and radiographic meningeal tumor spread.

Case description

A 77-year-old male patient presented to the Department of Neurology with a two-month history of progressive headache and nausea. The neurologic examination revealed neck stiffness, afferent gait disturbance and neuropsychological deficits (i.e. disorientation in time, psychomotor retardation), but no sensorimotor deficits. Extensive radiologic and cerebrospinal fluid workup was done. Magnetic resonance imaging (MRI) scans showed a right-sided multicentric temporomesial contrast-enhancing lesion (Fig. 1A-B) as well as marked leptomeningeal tumor spread in cranial and spinal images (Fig. 1C-D). A navigated right temporal biopsy was done which led to the diagnosis of glioblastoma, isocitrate dehydrogenase (IDH)-wildtype, WHO grade IV (Fig. 2A-C). The O6-methylguanin-methyltransferase (MGMT) promotor was unmethylated. Treatment was composed of computed tomography (CT)-based whole-brain photon-radiotherapy including cervical vertebra II and concomitant temozolomide chemotherapy (75 mg/m² body surface area). One month after completion of radiotherapy, the patient presented to the department of neurosurgery with acute painless paraplegia and complete loss of sensory sensations of the lower extremities. Spinal MRI indicated a novel intradural lesion at the level of thoracic vertebrae 8/9 with significant compression of the spinal cord (Fig. 1E-F) when compared with previous spinal images 3 months earlier (Fig. 1D). Emergency laminectomy of thoracic vertebrae 7-9 and partial tumor resection was performed (Fig. 1G-H). The detailed histology of this lesion is discussed in the section pathology report (Fig. 2D-F). In the medium term unfortunately no patient recovery was achieved, related to the severe affection of the spinal cord and additional diagnosed critical illness polyneuropathy. Due to the poor condition, further causal therapy was not initiated in a process of shared decision-making.

Pathological findings

The resected tissue of the spinal lesion consisted of several pieces of tissue with a grayish color and a moderate to firm consistency, which in total had a diameter of 1.0 cm.
Histology showed a spindle-shaped lesion with moderate cell density and low to moderate nuclear pleomorphism. Focally microvascular proliferations and an epithelioid-like cell morphology were noted (Fig. 2D). There were only very few mitoses restricted to microvascular proliferations. Numerous thin collagenous fibers and in some areas also numerous reticulin fibers were intermingled. The MIB-1 proliferation index was approximately 10% and MIB1-positive cells were often seen along microvascular proliferations (Fig. 2E). In some areas interspersed CD163-positive macrophages were seen in moderate density and an expression of smooth muscle actin was notable. There was no specific expression of actin (clone HHF35), calponin, glial fibrillary acidic protein (GFAP) (Fig. 2E), STAT6, melan A, cytokeratin pan antibody (pan-CK), epithelial membrane antigen (EMA), progesterone-receptor and neurofilament. S100 was only focally expressed and CD34 staining was restricted to blood vessels. Thus, a metastasis of the known glioblastoma could be excluded. Additionally, a FISH analysis was performed but failed to show a clear USP6 rearrangement. The lesion was considered to be a reactive proliferation, consistent with a nodular fasciitis.

Discussion

This patient with a history of a right temporal glioblastoma developed a reactive intraspinal lesion. Although we could not demonstrate an USP6 rearrangement, a characteristic that is often but not always found in nodular fasciitis [3], we assume nodular fasciitis to be the most likely diagnosis. Another marker that is typically positive in nodular fasciitis is calponin. However, its negativity could not exclude the diagnosis. Importantly, a solitary fibrous tumor was unlikely, given STAT6 negativity. To the best of our knowledge, this is the first report of an intraspinal and intradural nodular fasciitis. The fact that it occurred in a patient who is suffering from a right temporal glioblastoma with radiographic meningeal tumor spread suggests a histopathological connection. However, reviewing the histopathological characteristics of the temporal glioblastoma, no mesenchymal aspects, as found in gliosarcomas, were appreciated. Additionally, the intraspinal intradural lesion showed no signs of glial origin, thus ruling out spinal glioblastoma metastasis. One can only speculate if the formation of an intradural nodular fasciitis was triggered by tumor spread which was radiologically suspected. It is known that NF can arise from many different tissue types that contain fibroblasts, ranging from skeletal muscle and fascia to dermis, subcutaneous tissue and blood vessels. Recent localized trauma has been the only suggested possible factor correlated with NF in 10 to 15% [4]. Even though mechanical or inflammatory irritation of the meninges by meningeal glioblastoma spread seems conceivable, the true pathogenesis in this special case remains unclear.

Conclusions

This is the first reported case of an intraspinal intradural nodular fasciitis. The case illustration emphasizes the difficulties and misinterpretation that can occur with the clinical and radiographic presentation and the importance of a comprehensive and accurate histopathological workup. Regardless of the benign nature of the disease, timely surgical excision of an intraaxial nodular fasciitis is recommended to prevent or alleviate neurological deficits.

Acknowledgments

The authors would like to thank Ulrich Vogel (Department of Pathology, Eberhard-Karls University, Tuebingen, Germany) for the FISH analysis on a USP6 rearrangement.

Disclosure

The authors report no conflict of interest.

References

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Copyright: © 2018 Mossakowski Medical Research Centre Polish Academy of Sciences and the Polish Association of Neuropathologists. This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) License (http://creativecommons.org/licenses/by-nc-sa/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material, provided the original work is properly cited and states its license.
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