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            space distension, comparable to the “golf tee” sign   Cerebrospinal fluid disseminated metastasis
            described for conventional myelography (Figure     Tumors arising within the subarachnoid space or intra­
            3.4.15). 22,23  Using either imaging modality, localizing a   cranial ventricular system will occasionally exfoliate
            meningioma to the intradural–extramedullary compart­  cells that seed the spinal leptomeninges as metastatic
            ment may not be possible when the tumor mass is large.  deposits.  Imaging features of CSF disseminated metas­
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                                                               tases are variable, and their appearance depends on
            Peripheral nerve sheath tumor                      characteristics of the primary neoplasm (Figure 3.4.19).
            The term peripheral nerve sheath tumor (PNST) includes
            neoplasms that originate from Schwann cells, fibroblasts,   Other neoplasms
            or perineural cells.  Because the terminology for this   Neoplasms, such as lymphoma and histiocytic sarcoma,
                             25
            group of tumors has been inconsistent, we choose to use   can be intradural–extramedullary but do not appear to
            the all‐encompassing term PNST. Age of onset in dogs   be as constrained by the meninges and can also simulta­
            is  reported  to  be  bimodal,  peaking  at  2–3  years  and   neously  be  extradural  and/or  intramedullary.   Round
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            7–9 years, with no apparent breed predilection.  Small   cell tumors range from well defined to amorphous but
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            PNSTs  arising  from nerve roots contained within the   usually homogeneously contrast enhance. Other imaging
            meninges and limited to an intradural–extramedullary   features are variable (Figure 3.4.20).
            distribution within the vertebral canal have CT and MR
            imaging features similar to spinal meningiomas and
              cannot be reliably differentiated from other intradural–  Intramedullary neoplasia
            extramedullary  neoplasms  (Figure  3.4.16).  However,   In a report of 53 dogs with intramedullary spinal cord
            PNSTs are more likely to invade spinal cord parenchyma     neoplasia, approximately two thirds of the tumors were of
            and can also extend along peripheral nerves external to   neuroepithelial origin. The remainder were metastatic
            the vertebral canal, taking on a more tubular or lobular   neoplasms, the most common of which were hemangio­
            shape (Figure 3.4.17 and Chapter 3.6).             sarcoma and transitional cell carcinoma.  In this study,
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                                                               ependymoma was the most common neuroepithelial
            Spinal cord nephroblastoma                         tumor, followed by astrocytoma. Dogs with primary
            Spinal cord nephroblastoma (SCN) is an uncommon neo­    neoplasms were significantly younger than dogs with
            plasm of young dogs (6 months to 4 years) that arises from     metastatic disease (5.9 years vs. 10.8 years), and primary
            transformed embryological renal tissue that is entrapped   neoplasms were distributed in the cervical, caudal thoracic,
            within the spinal dura matter during development. 21,27    and lumbar regions, while metastasis occurred predomi­
            German Shepherd Dogs may be overrepresented, although   nantly in the mid to caudal lumbar region. The imaging
            total numbers reported to date are small. Most SCNs are   appearance of intracranial neuroepithelial neoplasms is
            located within the T9–L3 region of the vertebral column   described in Chapter 2.8, and imaging features of primary
            and  are  unencapsulated  and  intradural–extramedullary,   spinal cord neoplasms are similar. Imaging features of
            although invasion into spinal cord parenchyma occurs,     metastatic neoplasms is more variable, and, particularly
            which has been correlated with a poorer prognosis. 21,27  CT   with hemangiosarcoma metastasis, the presence of
            and MR imaging features are similar to those described     hemorrhage may add to the complexity of the MR imaging
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            for other intradural–extramedullary masses. An SCN   characteristics.  A common feature of all intramedullary
            appears as a soft‐tissue attenuating mass on unenhanced   neoplasms is the presence of an intraparenchymal mass
            CT images and as a contrast‐filling defect on CT myelog­  that causes an increase in spinal cord diameter and annular
            raphy. Spinal cord nephroblastomas are T1 iso‐ to mildly   narrowing  of  the  surrounding  subarachnoid  space.  This
            hyperintense,  T2  hyperintense,  and  homogeneously   appears as circumferential attenuation of the subarachnoid
            enhance following intravenous contrast administration   space on CT myelographic or T2 and STIR MR images
            (Figure 3.4.18).                                   (Figures 3.4.21, 3.4.22, 3.4.23).















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