| The reported incidence of nervous system neoplasia in animals varies. However, such tumors are reported more often in dogs than in other domestic animals. In one survey, 2.83% of 6,175 dogs examined at necropsy had intracranial neoplasia. In another report, incidence of intracranial neoplasia was 14.5/100,000 dogs at risk. A retrospective study of young dogs (<6 mo old) indicated that the 3 most common sites for neoplasia (in decreasing order) were the hematopoietic system,
brain, and skin. Brachycephalic breeds are at increased risk for some neuroectodermal tumors. (See below.) |
Brain Tumors:
| In dogs and cats, the brain is a more common site of primary tumors of the nervous system than the spinal cord or peripheral nerves. Meningiomas, gliomas (eg, astrocytomas, oligodendrogliomas), undifferentiated sarcomas, pituitary tumors, and ventricular tumors (eg, choroid plexus papillomas, ependymomas) are commonly reported primary brain tumors in dogs. Neoplastic reticulosis (considered to be the malignant form of granulomatous meningoencephalomyelitis), also described
as gliomatosis and microgliomatosis, is reported sporadically. More recently, the condition has been equated with malignant histiocytosis. Other primary brain tumors (eg, malformation tumors), tumors of nerve cells (eg, neuroblastoma, ganglioneuroblastoma, and ganglioneuroma), pinealomas, craniopharyngiomas (a suprasellar ectodermal tumor that may destroy the pituitary gland), spongioblastomas (embryonal glioma), and medulloblastomas are rare. Adult dogs of several related
brachycephalic breeds—Boxers, English Bulldogs, and Boston Terriers—are often cited as having the highest incidence of brain tumors among domestic animals; glial tumors, including unclassified gliomas, are the most numerous tumors in these breeds. A more recent study of 97 dogs indicated that Golden Retrievers also have a high incidence of brain tumors (especially meningiomas). |
| Primary nasal cavity tumors may extend into the cranial vault. In some cases, the only clinical signs are neurologic abnormalities such as behavioral changes, circling, paresis, seizures, or visual deficits. Respiratory signs such as epistaxis, nasal discharge, sneezing, dyspnea, stertor, or mouth breathing may develop after neurologic signs or may be absent. Nasal tumor types include adenocarcinoma, anaplastic chondrosarcoma, epidermoid carcinoma, esthesioneuroblastoma,
neurofibrosarcoma, neuroendocrine carcinoma, and squamous cell carcinoma. Unlike nasal cavity tumors, those that originate in middle or inner ear structures rarely extend into the brain. Secondary tumors extending into the brain from the nasal sinuses are relatively common in dogs, as are metastatic brain tumors (see below). Middle or inner ear tumors rarely extend into the brain. In cats, metastases most frequently originate from mammary carcinomas and lymphosarcomas. |
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Astrocytomas are probably the most common neuroectodermal brain tumor in dogs. They are usually found in adult dogs, but they have been reported in dogs <6 mo old. They are common in brachycephalic breeds but can be seen in any breed. Astrocytomas are uncommon in cats. In one report of 4 cats, the tumors invaded the third and lateral ventricles. Astrocytomas consist of relatively large, protoplasmic-rich cells, or smaller cells with many processes. The cells
tend to be arranged around blood vessels. There are several variants (eg, anaplastic, fibrillary, gemistocytic, protoplasmic, and pilocytic), most of which stain positively for glial fibrillary acidic protein (GFAP), the chemical subunit of the intracytoplasmic intermediate filaments of astrocytes. Regressive changes found histologically include necrosis, mucinoid degeneration, cyst formation, vascular proliferation (often in the form of glomeruloid nests), and multinucleated
giant cells. Hemorrhage is rare, but is more common in oligodendrogliomas. Malignant astrocytomas display nuclear polymorphism, mitotic figures, and small cells with dense, hyperchromatic nuclei. In one study using computed tomography (CT), astrocytomas and oligodendrogliomas appeared similar to one another because both tumors had ring-like, irregular enhancement and poorly defined margins. Differentiating oligodendrogliomas from malignant astrocytomas with MRI has been
difficult. In some instances, however, MRI is considered superior to CT in defining diffuse leptomeningeal and low-grade cerebral astrocytomas. |
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Choroid plexus papillomas are common tumors in dogs, with reported frequency similar to that of glioblastomas (~12% of neuroglial tumors). Developmentally, the choroid plexus epithelium differentiates from the primitive medullary epithelium and is related to the ependymal cells. These tumors are reddish, papillary growths that may bleed. Histologically, they are well defined, grow by expansion, and have a granular papillary appearance. Tumor papillae consist of
vascular stroma lined by one layer of cuboidal or cylindrical epithelium. Immunocytochemical studies reveal that these tumors express epithelial but not glial differentiation, based on absence of staining with GFAP. Keratin may be expressed from some of these tumors. In both benign and malignant variants of choroid plexus papillomas, dissemination to other areas of the brain or spinal cord via the CSF pathways may occur following exfoliation. Obstructive hydrocephalus may
occur. Meningeal carcinomatosis may follow spread of the tumor in the subarachnoid space. Choroid plexus tumors are seen as well-defined, hyperdense masses with marked, uniform contrast enhancement on CT scans. Marked enhancement, potentially including hemorrhage and mineralization, is also seen with MRI. Choroid plexus papillomas have no apparent predilection for brachycephalic breeds and are rare in cats. |
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Ependymomas originate from the epithelium lining the ventricles and central canal of the spinal cord. They are rare, but have been reported most frequently in brachycephalic breeds. The gray to reddish, soft, lobular masses tend to invade the ventricular system and meninges, which may result in obstructive hydrocephalus. Mestastases within the CSF system may be observed. Ependymomas of the fourth ventricle may encircle the brain stem. Both epithelial and
fibrillary varieties have been described. Histologically, cells are isomorphic with pale or transparent cytoplasm and round, chromatin-rich nuclei. Nucleus-free zones around blood vessels are characteristic. Some ependymomas appear hemorrhagic, with mucinoid degenerative changes and cyst formation. Malignant or anaplastic ependymomas have moderate degrees of pleomorphism and necrosis and may merge into glioblastoma multiforme. In one study, only 1 of 9 ependymomas was
positive for GFAP. In a CT study of brain tumors, ependymomas had no definitive distinguishing features. |
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Gangliocytomas are rare intracranial tumors reported in adult dogs of several breeds. Histologic findings include mature, neuronal-like cells with multiple processes, a central nucleus, and a nucleolus. Neuroblast-like immature cells may also be seen, and occasionally, newly formed myelin sheaths. They seem to be seen most often in the cerebellum. Pure gangliocytomas have no glial elements and do not express GFAP. Mineralization and extensive necrosis accompanied
by edema and capillary proliferation may also develop. |
| Suprasellar
germ cell tumors are located dorsal to the sella turcica at the base of the brain. They are often intimately associated with the pituitary gland, which may be trapped within or replaced by the germ cell tumor. They are thought to result from extensive migration of germ cells during embryogenesis. Neurologic signs may be acute in onset and may include lethargy; depression; bradycardia; dilated, nonresponsive pupils; ptosis; visual deficits; and blindness. Germ
cell tumors may be large—extending from the olfactory peduncles to the pons and pyriform lobes—and may envelop other cranial nerves (eg, nerves III-VII). Histologically, the tumors usually contain a mixture of primitive germ cells, cords resembling hepatocytes, and acini and tubules of tall columnar epithelial cells. They may stain positively for fetoprotein. Affected animals are usually 3-5 yr old; Doberman Pinschers may be at higher risk than other breeds. Some
germ cell tumors have been misdiagnosed as pituitary tumors or craniopharyngiomas. |
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Glioblastoma multiforme, considered to be equated with the more malignant forms of astrocytomas, has been reported with varying frequency in dogs. In one study, the incidence was 12% of 215 neuroglial tumors. Most are large and found in the cerebrum. The tumor cells consist of medium-sized, round or fusiform cells with isomorphic nuclei. Some glioblastomas display considerable pleomorphism, with small and large mononucleated and multinucleated cells. They are
locally invasive and destructive, well vascularized, and often contain necrotic zones. Glioblastomas sometimes express GFAP and are most common in brachycephalic breeds. |
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Hamartomas are formed by disorderly overgrowth of tissues normally present at a site. They are focal malformations resembling neoplasms and have been reported only rarely in dogs, usually as a subclinical finding. |
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Hematogenous metastatic brain tumors commonly originate from extracranial sites. In dogs, they often develop from carcinomas of the mammary glands, thyroid, bronchopulmonary epithelium, kidneys, chemoreceptor cells, nasal mucosa, squamous epithelium of the skin, prostate, pancreas, adrenal cortex, and salivary glands. Brain metastasis from a transmissible venereal tumor has been reported in a 5-yr-old male mixed breed dog. Common sarcoma metastases in dogs
include fibrosarcomas, hemangiosarcomas, lymphosarcomas, and melanoblastomas. Brain metastases may accompany intramedullary spinal cord metastasis in dogs with lymphosarcomas or hemangiosarcomas. In cats, metastases stem most often from mammary carcinomas or lymphosarcomas. Most CNS lymphomas, especially in dogs, are one part of a multicentric disease, with extensive infiltration of the choroid plexus and leptomeninges a common finding. Neoplastic angioendotheliomatosis in
dogs is thought to be an angiotropic lymphoma, possibly of the B-cell line. Extraneural tumor cells sometimes localize in the meninges (eg, meningeal carcinomatosis), often in association with intestinal carcinoma or mammary adenocarcinoma. |
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Intracranial intra-arachnoid cysts have been reported in dogs. These rare malformation tumors seem to develop most often in the quadrigeminal cistern. Of the 6 dogs in one report, 3 were <1 yr old, 4 were males, and 5 of the 6 dogs weighed <11 kg. One dog had additional developmental anomalies (abnormal corpus callosum and block vertebrae). On CT scans and MRI the cysts were extra-axial, had sharply defined margins, contained fluid isodense to CSF, and did
not show contrast enhancement. |
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Malformation tumors, including epidermoid and dermoid cysts and teratomas, originate from heterotopic tissue and are rare tumors in dogs. They typically lie close to embryonal lines of closure. Epidermoid and dermoid cysts result from inclusion of epithelial components of embryonal tissue at the time of closure of the neural tube. They reportedly have a predilection for young dogs (eg, 3-24 mo old), although cysts have been found in older dogs. They usually
involve the cerebellopontine angle, fourth ventricle, or both. Cysts within the fourth ventricle may secondarily compress the medulla oblongata and cerebellum. Some epidermoid cysts are incidental findings at necropsy. |
| Histologically, epidermoid cysts may have a multilocular structure; most are lined by stratified squamous epithelium and contain keratinaceous debris, desquamated epithelial cells, and occasional inflammatory cells. In contrast, dermoid cysts contain adnexal structures such as hair follicles, sebaceous glands, and sweat glands. Cysts may measure up to 2.5 cm in diameter. Because of the tumor’s location, dogs may show signs of a pontomedullary syndrome (eg, trigeminal,
facial, cerebellar, and/or vestibular dysfunction). Teratomas are well-differentiated germ cell tumors (see above) arising from several embryonic germ cell layers. |
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Malignant histiocytosis, which has focal and diffuse forms, is rarely reported in dogs. Proliferation and/or infiltration of neoplastic histiocytes in the basiarachnoidal and ventricular areas (bilateral) is a characteristic feature. These cells may also infiltrate the spinal dura mater, arachnoidal space, leptomeninges, and spinal nerve roots. Histologically, the cells may have characteristic histiocytic morphology but exhibit moderate pleomorphism and numerous
mitotic figures. The pathologic features of malignant histiocytosis appear similar to those seen in the neoplastic form of primary reticulosis. |
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Medulloblastomas are highly malignant, uncommon neuroectodermal canine tumors that almost always develop in the cerebellum. The tumors tend to bulge into the fourth ventricle, often replacing part of the cerebellar vermis and compressing the midbrain rostrally and the brain stem ventrally. They may infiltrate the meninges, metastasize within the CSF pathways, and cause obstructive hydrocephalus. Histologically, these tumors include sheets of densely packed cells
with pale cytoplasm and oval or carrot-shaped nuclei with coarse, granular chromatin. Mitotic figures are common. Regressive changes include pyknosis and karyorrhexis. While most cases are seen in young dogs, a cerebellar medulloblastoma with multiple differentiation was recently noted in a 4-yr-old Border Collie. |
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Meningioangiomatosis is a rare, benign malformation of CNS blood vessels, characterized by proliferation of the vessels and spindle-shaped, perivascular meningothelial cells in the cerebral cortex and brain stem of juvenile and adult dogs. The meningothelial cells stain positively for vimentin, which, along with the presence of mucopolysaccharides and collagen among proliferating cells, suggests a mesenchymal and fibroblastic origin. |
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Meningiomas are extra-axial tumors. They arise from elements of the dura within the cranial and spinal spaces and are the most commonly reported brain tumors in cats. They are also one of the most common intracranial tumors in dogs, with a reported incidence of 30-39%. In most studies, meningiomas are seen in dogs >7 yr old and in cats >9 yr old, although they have been observed in young cats (<3 yr old) with mucopolysaccharidosis type I, and in dogs
<6 mo old. They are often found in dolichocephalic breeds, especially Golden Retrievers. Canine and feline meningiomas have estrogen, progesterone, and androgen receptors. These usually benign tumors tend to grow slowly under the dura mater, although direct brain invasion has been reported. Pathologic findings include globular, irregular, lobulated, nodular, ovoid, or plaque-like masses ranging in diameter from a few millimeters to several centimeters. Meningiomas are
typically discrete and often are firm, rubbery, and encapsulated. They may contain granular calcifications known as psammoma bodies. In addition, there may be focal or massive calcification of the tumor. A substantial proportion of basal and plaque-like meningiomas involve the floor of the cranial cavity, especially when located near the optic chiasm or suprasellar area. They also commonly are found over the convexities of the cerebral hemispheres, less often in the
cerebellopontomedullary region, and infrequently in the retrobulbar space (arising from the optic nerve sheath). In cats, common locations include the tela choroidea of the third ventricle and the supratentorial meninges. Cats also have a high incidence of multiple meningiomas. Hyperostosis, a thickening of bone adjacent to the meningioma, may develop, especially in cats. Meningiomas rarely metastasize outside the brain, but may extend into paranasal regions and lungs or be
seen as primary extracranial masses as a result of embryonic displacement of arachnoid cells or meningocytes. Those in extracranial locations differ from intracranial meningiomas primarily in their more aggressive behavior and anaplastic/malignant nature. Meningiomas may be distinguishable from tumors within the brain parenchyma on contrast CT scans by their appearance as broad-based, peripherally located masses. Cystic and edematous meningiomas have been detected using CT
scans and MRI. When a dural tail (a linear enhancement of thickened dura mater adjacent to an extra-axial mass) is detected by MRI, a meningioma is the most likely cause. The histologic classification of canine meningiomas includes angioblastic, fibroblastic, meningothelial or syncytial, psammomatous, and transitional. Papillary and microcystic forms may also be seen. The tumors usually consist of large meningothelial cells or fusiform cells arranged in whorls, nests,
islands, or stream-like patterns. Cell boundaries are typically ill defined and the nuclei contain little chromatin. Canine meningiomas commonly have vimentin intermediate filaments. Regressive changes may include cavernous vascular formations, hemorrhage, hyalinization of connective tissue, and deposits of fat, lipopigments, or cholesterol. Many have evidence of focal necrosis with suppuration. This is the likely cause of the reported predominance of polymorphonuclear cells
in CSF in many dogs with meningioma. The majority of feline epitheliomas are meningotheliomatous or psammomatous, often with cholesterol deposits. |
| In
meningeal sarcomatosis, sarcomas cause diffuse thickening of the meninges; extensive hemorrhages are common. These rare tumors tend to infiltrate nervous tissue and run along blood vessels. Cell types include lymphoid, plasmacytoid, mature plasma cells, immunoblastic cells, and multinucleate giant cells. |
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Oligodendrogliomas are common tumors in dogs, particularly in brachycephalic breeds. In one report, they comprised 28% of neuroectodermal tumors. These tumors consist of chromatin-rich, densely packed, round cells with perinuclear halos. Most grow by infiltration and destroy invaded tissue. Capillaries tend to proliferate within these tumors, producing glomerulus-like structures. Regressive changes are similar to those seen in astrocytomas (see
above). Necrosis and extensive calcification are uncommon. These tumors do not stain with GFAP; in one study, 3 of 11 oligodendrogliomas reacted with myelin-associated glycoprotein, while none reacted with myelin basic protein. Many canine oligodendrogliomas are mixed tumors with areas of astrocytic and, in some cases, ependymal differentiation. The MRI features are similar to those seen with high-grade (malignant) astrocytomas. Oligodendrogliomas are rare in cats. |
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Pituitary tumors are common in dogs, with an apparent predilection for brachycephalic breeds. They are infrequent in cats. Tumors may be functional or nonfunctional. Either type may cause hypopituitarism by mechanical or functional impairment of remaining pituitary tissue, although this effect is uncommon. Nonfunctional canine pituitary tumors are common and are usually chromophobe adenomas, although adenocarcinomas have also been reported. Functional pituitary
tumors associated with the adenohypophysis are typically characterized by pituitary-dependent hyperadrenocorticism (PDH). (See also
Hyperadrenocorticism.) Of the cases of pituitary Cushing’s disease, ≥80% are reportedly associated with a pituitary tumor. In dogs, these tumors may stem from the pars distalis (80%) or the pars intermedia (20%), because both regions contain cells that can produce adrenocorticotropic hormone. The tumors are generally chromophobic microadenomas (<1 cm in diameter) that do not produce neurologic signs. MRI studies suggest that up to 60% of dogs with PDH and no
neurologic signs have pituitary tumors 4-12 mm in diameter. As many as 50% of dogs with PDH have large chromophobic macroadenomas (<1 cm in diameter), but may not show clinical signs related to an intracranial mass. In 1 study, 7 of 8 dogs with pituitary neoplasia that had been treated for PDH for varying periods of time between 1-2 yr developed neurologic signs, including abnormal behavior (eg, head pressing, lethargy, hiding, wandering, pacing, tight circling, and
trembling), seizures, and positional nystagmus. Most pituitary tumors, especially those derived from the pars distalis, tend to grow dorsocaudally because the diaphragma sella is incomplete. Chromophobic canine tumors from the pars intermedia are smaller and less destructive. Dorsal extension of pituitary tumors may lead to compression and obliteration of the infundibulum, ventral portion of the third ventricle, hypothalamus, and thalamus and may eventually impinge on the
internal capsule and optic tract. Hypothalamic or median eminence involvement may cause central diabetes insipidus (especially in middle-aged and older dogs with neurologic signs), as well as polyuria, polydipsia, and isosthenuria or hyposthenuria. Alteration in water balance results from interference with the synthesis of antidiuretic hormone (ADH) in the supraoptic nucleus or release of ADH into capillaries of the pars nervosa. Although pituitary tumors generally do not
lead to visual impairment, acute blindness and dilated, nonresponsive pupils have been noted in 7 dogs and 1 cat with pituitary masses that compressed the optic chiasm. Approximately 80% of cats diagnosed with Cushing’s disease have PDH; tumor types include pituitary microadenomas, macroadenomas, and adenocarcinomas. Pituitary acidophil adenomas, especially the large variety, have been associated with acromegaly and nervous system signs (eg, circling, seizures) in cats,
accompanied by insulin-resistant diabetes mellitus and high serum growth hormone concentrations. |
| Histologically, pituitary tumors include polygonal, round, and cylindrical cells arranged in close contact with blood vessels or formed into islands of cells divided by connective tissue. The cell pattern may be uniform, resembling normal pituitary tissue. Many pituitary tumors contain both chromophobic and chromophilic cells. Regressive changes include cyst formation, necrosis, and hemorrhage. MRI with contrast enhancement is extremely helpful for visualizing microtumors
(3-10 mm in diameter) and macrotumors (≥24 mm) in dogs with PDH, regardless of neurologic signs. MRI and CT scans of pituitary tumors reveal minimal peritumoral edema, uniform contrast enhancement, and well-defined margins; however, tumors <3 mm in diameter may not be visible. Adrenal and pituitary tumors may coexist in dogs with hyperadrenocorticism, complicating test results and making diagnosis and treatment more difficult. |
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Primary skeletal tumors do not typically cause neurologic signs. Multilobular osteochondroma originates in the flat bones of the skull, usually in older medium- or large-breed dogs and appears as a firm, fixed mass. It may erode the cranium and compress, rather than infiltrate, underlying brain tissues. Radiographically, the tumor contains nodular or stippled areas of mineralization, resulting in a characteristic “popcorn ball” appearance. Microscopically, the
tumor contains multiple lobules of osseous and chondroid tissue. Local recurrence and metastasis are common. Vertebral osteochondroma is the spinal cord counterpart. |
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Vascular malformations are considered developmental lesions rather than true neoplasms and are uncommon in both dogs and cats. They may be located in the cingulate gyrus, pyriform-hippocampal area of the temporal lobe, basal ganglia, cerebellum, occipital lobe, or septum pellucidum and fornix and comprise variable combinations of arteries, veins, and capillaries. The vessels tend to be dilated, sinusoidal in shape, and accompanied by hemorrhages. |
Spinal Cord Tumors:
| Spinal cord tumors are relatively common in cats and dogs. They are generally classified according to their relationship with the spinal cord and meninges as extradural, intradural-extramedullary, or intramedullary. Depending on tumor location, any of the 4 spinal cord syndromes may be anticipated (eg, cervical, cervicothoracic, thoracolumbar, or lumbosacral syndromes). Regardless of type, the mean age of most dogs with spinal tumors is ~6 yr, and tumors appear to be more
common in medium and large breeds. Cats with lymphosarcoma tend to be younger (mean age of ~3.5 yr), possibly due to the infectious etiology of most cases (eg, feline leukemia virus). However, age alone does not preclude a diagnosis of spinal tumor. The clinical course for the various tumor types and locations is not clearly defined. In one study, the rate of progression was fastest with intramedullary tumors (1.7 wk), followed by extradural tumors (3.4 wk), and
intradural-extramedullary tumors (5.7 wk). |
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Extradural tumors are found outside the dura mater and cause spinal cord compression. They are the most common spinal tumors in both cats and dogs. The most frequent types of canine spinal cord tumors are primary, malignant bone tumors (chondrosarcoma, fibrosarcoma, hemangiosarcoma, hemangioendothelioma, multiple myeloma, osteochondromas or multiple cartilaginous exostoses, and osteosarcoma) and tumors metastatic to bone and soft tissue. Reports of secondary
vertebral tumors in dogs include anaplastic tumors, aortic body tumors, bronchogenic carcinoma, chemodectoma, fibrosarcoma, ganglioneuroma, hemangiosarcoma, lymphosarcoma, malignant melanoma, mammary carcinoma, osteosarcoma, pancreatic adenocarcinoma, perianal gland carcinoma, prostatic carcinoma, rhabdomyosarcoma, Sertoli cell carcinoma, squamous cell carcinoma, transitional cell carcinoma, thyroid carcinoma, and tonsillar carcinoma. An extradural ganglioneuroma and its
undifferentiated counterpart, ganglioneuroblastoma, have also been reported in dogs. Primary vertebral tumors are rare in cats, with osteosarcoma being the most frequently reported. Metastatic, extradural spinal cord tumors are unusual in dogs, but extradural lymphosarcoma is the most common feline spinal tumor. In most cases, these tumors are secondary to lymphosarcoma elsewhere in the body, although primary spinal cord lymphosarcomas have been reported sporadically in dogs.
In one study in cats, extraneural involvement was not found in ~50% of the cases, and the tumors were solitary in 22 of 23 cats. A predilection for the thoracic and lumbar vertebral canal was seen, but the tumors may be seen in any spinal region. Three of the tumors affected the brachial plexus cervical roots (see
peripheral nerve tumors, below). Feline spinal lymphomas may extend over multiple vertebral bodies and involve more than 1 level of the spinal cord. Leptomeningeal spinal cord involvement is not common in cats. A tumor termed myxoma-myxosarcoma has been described in 4 dogs. These malignant tumors resembled soft tissue myxomas, with polygonally shaped cells with gray, vacuolated cytoplasm that stained positive for S-100 protein antibody. The masses were
extradural in 3 cases and intradural-extramedullary in the other. |
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Intradural-extramedullary tumors are found in the subarachnoid space and are estimated to account for ~35% of all spinal cord tumors. They are most commonly meningiomas or nerve sheath tumors (eg, neurofibromas, neurilemmomas, and schwannomas) that grow into the vertebral canal and compress the spinal cord. About 14% of CNS meningiomas in dogs (but only 4% in cats) reportedly involve the spinal cord. Tumors may be seen in the cervical, lumbar, or thoracic cord
regions. In a report of spinal cord tumors in 29 dogs, nerve sheath tumors were the second most common type after vertebral tumors. In another review of canine spinal tumors, 39 of 60 nerve sheath tumors involved the spinal cord. Nerve sheath tumors often affect the brachial plexus (see
peripheral nerve tumors, below). |
| A primary intradural-extramedullary tumor with a predilection for T10-L2 spinal cord segments in young dogs, particularly retrievers and German Shepherds, has been variously diagnosed as ependymoma, medulloepithelioma, nephroblastoma, or neuroepithelioma. The origin of this tumor is uncertain, and immunocytochemical studies have not supported a neuroectodermal origin. Monoclonal antibody studies suggest it may be a nephroblastoma. Most cases are seen in dogs 5-36 mo old,
with males and females affected equally. Clinical signs include a thoracolumbar syndrome. CSF is usually normal, although an elevated protein level was found in 1 dog. The extramedullary masses are a tan to grayish white color and 1-3 cm long. They are generally found dorsal and lateral to the spinal cord, may entrap the spinal roots, and may be accompanied by areas of hemorrhage and severe spinal cord compression. Histologic findings include solid sheets of ovoid to fusiform
cells interspersed with areas of acinar and tubular differentiation, rudimentary glomeruli, and focal squamous metaplasia. |
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Intramedullary tumors are the least common of the 3 categories of spinal cord tumors, with a reported frequency of 15-24%. Primary glial tumors (eg, astrocytoma, choroid plexus papilloma, ependymoma, oligodendroglioma, and undifferentiated sarcoma) are the most commonly diagnosed. Intramedullary spinal cord metastasis is an uncommon complication of systemic malignancy in dogs, and neurologic signs may be the first indication of systemic malignancy. The mean age
of affected dogs is ~6 yr, any part of the spinal cord may be involved, and there may be accompanying brain metastasis. Spinal cord malignancy associated with granulomatous meningoencephalomyelitis is reported sporadically. |
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Malformation tumors rarely affect the spinal cord. In one report, a 2-yr-old, female Rottweiler presenting with a thoracolumbar syndrome had an intramedullary epidermoid cyst. The gray to off-white cyst was ~2 cm long, 1 cm in diameter, and extended from T13-L2 spinal cord segments. The empty lumen was lined by simple stratified squamous epithelium or, in a few regions, by desquamating keratinized epithelium containing keratohyaline granules. The spinal cord was
severely compressed. These cysts may arise from growth of primordial epithelial cells entrapped during closure of the neural tube. |
Peripheral Nerve Tumors:
| Tumors of cranial and spinal nerves and nerve roots are common in dogs, cattle, and horses but are rarely seen in cats. In one report, peripheral nerve tumors accounted for ~27% of canine nervous system tumors. Differing opinions on the cell of origin have led to confusion over the terminology used to describe these tumors. While schwannoma, neurilemmoma, and neurofibroma are common, interchangeable designations, the term malignant peripheral nerve sheath tumors (MPNST) is
recommended because many of these tumors are malignant (based on cytologic criteria) and determining the cell of origin is usually impossible. Mid to caudal cervical and/or rostral thoracic nerve roots, especially ventral roots, are the most common sites for MPNST. These tumors frequently involve nerves of the brachial plexus, often appearing as bulbous or fusiform thickenings of one or more nerves. They can spread to other nerves once they advance to the common brachial
plexus bundle. The tumors typically result in slow, progressive, unilateral thoracic limb lameness and muscle atrophy, often involving the infraspinatus and supraspinatus muscles. Affected animals may display a unilateral Horner’s syndrome, pain on leg movement, axillary pain on palpation (an axillary mass may be palpable), and may lick or chew at the foot or carpus of the affected limb. Intradural-extramedullary spinal cord compression is most common with tumors located at
the spinal nerve roots, although more peripherally located tumors occasionally may invade the vertebral canal. The trigeminal is the cranial nerve most often affected by MPNST, producing signs of unilateral trigeminal nerve dysfunction (eg, unilateral atrophy of the masseter and temporalis muscles). Brain-stem compression and local vertebral erosion have been reported. |
| Peripheral nerves may also be affected by other tumor types (eg, giant cell sarcoma with cervical involvement, a malignant tumor of the apocrine sweat glands, and sarcoma extending into the brachial plexus have been described in dogs). Peripheral tumors of neuronal origin, such as ganglioneuromas and their more undifferentiated counterpart, ganglioneuroblastomas, are extremely rare, but have caused extradural spinal cord compression in dogs. Sympathetic ganglia are thought
to be the source of ganglioneuromas. Lymphosarcomas may involve cranial and spinal nerves and nerve roots in cats and dogs and may extend intracranially. Myelomonocytic neoplasia of the trigeminal nerve and ganglia, leading to a dropped mandible and symmetric atrophy of masticatory muscles, has been reported in dogs. Tumors of the ear canal (eg, ceruminous adenocarcinoma, fibrosarcoma, and squamous cell carcinoma), as well as osteosarcoma of the skull, may affect the facial
nerve or one of its branches. Neurofibromas rarely involve the vestibulocochlear nerve. Cranial nerves may be compressed by meningiomas located on the floor of the cranial vault. The vagosympathetic trunk may be compressed by aortic body tumors. |
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