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Canine intrathoracic sarcoma with ultrastructural characteristics of human synovial sarcoma – case report
BMC Veterinary Research volume 13, Article number: 247 (2017)
Canine joint sarcomas, designated synovial sarcomas, are uncommon malignant mesenchymal neoplasms that occur in the large joints of the extremities of middle-aged, large-breed dogs. We report the diagnosis of an intrathoracic sarcoma with ultrastructural characteristics reminiscent of human synovial sarcoma in a dog.
A 7-year-old female spayed Tibetan terrier crossbred dog was presented for acute severe labored breathing and diagnosed with an intrathoracic neoplastic mass. The neoplasm resulted in the accumulation of substantial amounts of viscous pleural fluid that led to dyspnea. The neoplastic mass consisted of interweaving bundles of large pleomorphic mesenchymal cells, supported by an alcian blue positive myxomatous matrix. The neoplastic cells were immunohistochemically negative for cytokeratin and CD18. Transmission electron microscopy indicated that the neoplastic cells had desmosome junctions, short microvilli-like structures and ample amounts of rough endoplasmic reticulum resembling type B-like synoviocytes and synovial sarcoma as reported in people. Despite complete surgical excision of the neoplastic mass, clinical signs recurred after a month and led to the euthanasia of the dog.
Currently, there are no immunohistochemical markers specific for synovial sarcoma. Canine neoplasms with transmission electron microscopy characteristics resembling type B-like synoviocytes should be considered similar to the human sarcomas that carry the specific translocations between chromosomes X and 18.
The normal synovial membrane consists of two cell types. The spindloid histiocytic type-A synoviocytes are phagocytic round cells that express the histiocytic immunohistochemical marker CD18. The epitheloid type-B synoviocytes produce the synovial fluid. Currently, there are no immunohistochemical markers specific for the epitheloid type-B synoviocytes . Ultrastructurally, the spindloid histiocytic type-A synoviocytes have many lysosomes, large empty vacuoles, pinocytotic vesicles, prominent Golgi apparatus, and small amounts of rough endoplasmic reticulum . In contrast, the epitheloid type-B synoviocytes have an epithelium-like arrangement with desmosome junctions and basement membrane-like structures . The epitheloid type-B synoviocytes have a large indented nucleus, and small amounts of the cellular cytoplasm containing ample amounts of rough endoplasmic reticulum, limited numbers of vacuoles and vesicles, and a less developed Golgi apparatus. The cytoplasm of type-B synoviocytes also contains microfilaments and intermediate filaments. However, these cells do not consistently stain for the immunohistochemical marker cytokeratin .
Pathologists classify synovial sarcomas histologically as monophasic or biphasic if the neoplasms consist of one cell type or both, respectively . However, there is debate as to whether a subset of joint sarcomas are true synovial sarcomas that arise from type-A and type-B synoviocytes. The debate is because of the inability to demonstrate the true origin of the neoplastic cells in the absence of specific immunohistochemical markers for synoviocytes, and also because of the assumption that these neoplasms develop from neoplastic transformation of blood-borne mesenchymal pluripotent cells . To the authors’ knowledge, there are no previous reports of a canine sarcoma with ultrastructural characteristics similar to the human neoplasm designated synovial sarcoma.
The Massey University Pet Emergency Center admitted a 7-year-old female spayed Tibetan terrier crossbred dog in acute respiratory distress (Fig. 1). An emergency thoracocentesis yielded small amounts of highly viscous fluid from the thoracic cavity (Fig. 2a inset). The fluid was thick and sticky, with a nucleated cell count of six cells/μl. The fluid had aggregates of nucleated cells exhibiting ‘windrowing’ in a coarsely stippled magenta background (Fig. 2a). Differential cell count indicated 64% large mononuclear cells, 30% small mononuclear cells, and 6% neutrophils. The high viscosity of the fluid did not permit the determination of the fluid’s protein content. Diagnostic imaging of the chest included thoracic radiographs, thoracic ultrasound, and thoracic computed tomography (Fig. 3). Radiologically, large amounts of pleural fluid expanded the pleural space and severely collapsed the lungs (i.e., pulmonary atelectasis). The left ventral thorax contained a 13 cm long, 7.8 cm tall and 6.4 cm wide complexed cystic mass that extended from the diaphragm to the thoracic inlet and predominantly had peripheral contrast enhancement and variable disorganized contrast enhancing tissue. The mass severely compressed the left caudal lobar bronchus and displaced the trachea. Ultrasonographically, the mass had heterogeneous echogenicity and large amounts of anechoic pleural fluid surrounded the mass. Ultrasound-guided fine needle aspirates were inconclusive. The aspirates contained a few oval cells of a predominantly medium size admixed within a light blue background. The cells had homogenous basophilic cytoplasm and a single large round to oval nucleus with fine chromatin and pin-point sized nucleoli (Fig. 2b). These cells had a high nucleus to cytoplasmic ratio, and moderate anisocytosis and anisokaryosis. To establish a definitive diagnosis, the owner consented to surgery. The thorax was approached via a median sternotomy, and the mass was removed in toto (Fig. 2c, d). The dog recovered uneventfully and was discharged after a week.
Grossly, the mass was pale red to tan, large, firm, and slippery due to copious amounts of viscous fluid that oozed out (Fig. 2d). The cut surface had multifocal depressed soft areas. Histologically, the mass was nonencapsulated and poorly circumscribed, multinodular, densely cellular, and invasive. The neoplastic mesenchymal cells formed interlacing bundles, streams (Fig 4a), occasional large perivascular whorls (Fig. 4b), and lined caverns with empty spaces. A dense collagenous mucinous matrix supported the neoplastic cells. The neoplastic cells were large, oval to spindloid, with poorly defined cytoplasmic borders and small amounts of pale eosinophilic to amphophilic cytoplasm. Most neoplastic cells had a single large, round to oval nucleus with vesicular chromatin and 1–3 small basophilic round nucleoli. Occasionally, there were bi-, tri-, and multinucleated neoplastic cells (Fig. 4c). The neoplastic cells had marked anisocytosis, anisokaryosis, and karyomegaly. There were no mitotic figures in ten, 400× fields. Multifocal blood vessels contained intraluminal fibrin thrombi, and there were multifocal areas of hemorrhage and necrosis. The neoplastic matrix stained light blue-green with the histochemical stain alcian blue (pH 2.5)(Fig. 4d). Immunohistochemistry for cytokeratin and CD18 did not stain any of the neoplastic cells.
Transmission electron microscopy indicated that the neoplastic cells had sharply defined ovoid nuclei, with narrow, dense rims of chromatin, small amounts of cytoplasm (Fig. 5a) with large numbers of rough endoplasmic reticulum (Fig. 5b), microfilaments (5–6 nm in diameter), desmosome junctions (Fig. 5c), short microvilli-like structures on the cytoplasmic membrane (Fig. 5d), and intermittent basal membrane.
Based on the combination of the findings above the final diagnosis was presumptive synovial sarcoma of the thoracic cavity, and the long-term prognosis was poor due to high likelihood of recurrence or regrowth of neoplasia and return of clinical signs. One month after the initial presentation, the dog developed severe dyspnea due to recurrence of pleural effusion and was euthanized. The owners opted not to pursue a necropsy.
To the authors’ knowledge, this report represents the first case of a presumptive synovial sarcoma with ultrastructural characteristics similar to the human neoplasm designated synovial sarcoma. The neoplastic mass developed within the thorax of an adult small breed dog. The authors based this diagnosis on a combination of supportive evidence. The physical characteristics of the pleural fluid resembled synovial fluid. The cytology of the mass revealed mesenchymal cells in a mucinous background. Histopathology indicated a sarcoma. Histochemistry confirmed the presence of mucin production. The immunohistochemistry ruled out a histiocytic sarcoma or poorly differentiated carcinoma that were the top differential diagnoses. Transmission electron microscopy demonstrated cells with ultrastructural features that are consistent with synovial sarcoma in people. These included large numbers of rough endoplasmic reticulum, desmosome junctions, short microvilli-like structures on the cytoplasmic membrane, and a basal membrane (Fig. 5) [4,5,6].
The subset of joint sarcomas, previously designated synovial sarcomas, are malignant mesenchymal neoplasms that typically occur in the stifle, carpus, and tarsus of the extremities of middle-aged, large-breed dogs . In a retrospective study, synovial sarcomas constituted five out of the 35 of canine synovial tumors . Previous cases of synovial sarcomas include the left elbow of a Rottweiler  and the right hindlimb of a cat . To our knowledge, there is only one case report of a synovial sarcoma occurring in non-joint tissue, which was in the subcutaneous region of the left mandible of a dog .
The description of intrathoracic sarcomas, designated as synovial sarcomas, has been well documented in the human medical literature [4,5,6]. Common presenting symptoms include dyspnea, chest pain, cough, and lethargy . The cases from the human medical literature have the same histopathologic and ultrastructural features of the tumor described here [4,5,6].
In the human medical literature, it is postulated that sarcomas, designated synovial sarcomas, originate from pluripotential mesenchymal cells capable of partial or aberrant epithelial differentiation [3, 5]. If the sarcomas, designated synovial sarcomas, originate from pluripotential mesenchymal cells, it would explain how they could arise in areas such as the thoracic cavity. In the veterinary literature, the development of synovial sarcomas from pluripotential mesenchymal cells is uncertain .
In the human pathology literature, sarcomas, designated synovial sarcomas, have monophasic (spindle) and biphasic (spindle and epithelial) forms . The spindle and epithelial components of biphasic synovial sarcomas resemble type A-like and type B-like synoviocytes. In the veterinary field, type A-like synoviocytes are immunohistochemically positive for the CD18 antigen . In contrast, there is no immunohistochemical marker that identifies type B-like synoviocytes . The neoplastic cells, in this case, had ultrastructural characteristics of type B-like synoviocytes and produced viscous fluid with physical characteristics of synovial fluid. Therefore it is plausible that they are derived from pluripotential mesenchymal that differentiated to type B-like synoviocytes.
In people, sarcomas, designated synovial sarcoma, are associated with a specific translocation between chromosomes X and 18 leading to a fusion of the SYT gene on chromosome 18 to the SSX1, SSX2 or SSX4 genes on chromosome X [3, 12]. This translocation occurs in over 90% of synovial sarcomas in people . In situ hybridization detects this specific chromosomal translocation and is considered the gold standard for the diagnosis in people . We did not attempt to perform in situ hybridization in this case, and it remains to be determined if similar translocations occur in dogs.
In conclusion, we describe a spontaneous, aggressive, intrathoracic sarcoma. The neoplasm had cytological, histological and ultrastructural characteristics that are similar to the human sarcomas that carry the specific translocations between chromosomes X and 18. This report contributes to expanding the body of knowledge on these sarcomas in dogs.
Cluster of differentiation
Iwanaga T, Shikichi M, Kitamura H, Yanase H, Nozawa-Inoue K. Morphology and functional roles of synoviocytes in the joint. Arch Histol Cytol. 2000;63(1):17–31.
Fox DB, Cook JL, Kreeger JM, Beissenherz M, Henry CJ. Canine synovial sarcoma: a retrospective assessment of described prognostic criteria in 16 cases (1994-1999). J Am Anim Hosp Assoc. 2002;38(4):347–55.
Thway K, Fisher C. Synovial sarcoma: defining features and diagnostic evolution. Ann Diagn Pathol. 2014;18(6):369–80.
Essary LR, Vargas SO, Fletcher CD. Primary pleuropulmonary synovial sarcoma: reappraisal of a recently described anatomic subset. Cancer. 2002;94(2):459–69.
Suster S, Moran CA. Primary synovial sarcomas of the mediastinum: a clinicopathologic, immunohistochemical, and ultrastructural study of 15 cases. Am J Surg Pathol. 2005;29(5):569–78.
Hirano H, Kizaki T, Sashikata T, Maeda T, Yoshii Y, Mori H. Synovial sarcoma arising from the pleura: a case report with ultrastructural and immunohistological studies. Med Electron Microsc. 2002;35(2):102–8.
Craig LE, Julian ME, Ferracone JD. The diagnosis and prognosis of synovial tumors in dogs: 35 cases. Vet Pathol. 2002;39(1):66–73.
Loukopoulos P, Heng HG, Arshad H. Canine biphasic synovial sarcoma: case report and immunohistochemical characterization. J Vet Sci. 2004;5(2):173–80.
Cazzini P, Frontera-Acevedo K, Garner B, Howerth E, Torres B, Northrup N, Sakamoto K. Morphologic, molecular, and ultrastructural characterization of a feline synovial cell sarcoma and derived cell line. J Vet Diagn Investig. 2015;27(3):369–76.
Takimoto N, Suzuki K, Ogawa T, Segawa R, Hara S, Itahashi M, Kimura M, Iwasaki N, Nishifuji K, Shibutani M. A non-joint tissue biphasic synovial sarcoma in a dog. J Comp Pathol. 2014;150(2–3):204–7.
Craig LE, Dittmer KE, Thompson KG. Bones and joints. In: Maxie MG, editor. Pathology of domestic animals. 6th ed. St. Louis, MO: Elsevier; 2016. p. 159.
Eilber FC, Dry SM. Diagnosis and management of synovial sarcoma. J Surg Oncol. 2008;97(4):314–20.
The authors would like to thank Dr. Sandra Forsyth for the evaluation and interpretation of the cytologic specimens, Dr. Bob Bahr for evaluation of the CT images, Dr. Jon Bray for performing the surgery, and Miss Jordan Taylor who performed the transmission electron microscopy.
The authors declare that any funding did not support this study.
Availability of data and materials
The formalin-fixed paraffin-embedded blocks are archived at Massey University. The data used in the current study is available from the corresponding author on reasonable request.
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All diagnostic and therapeutic procedures were performed by licensed veterinarians in the course of routine veterinary health management.
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Lovell, S., Burchell, R., Roady, P. et al. Canine intrathoracic sarcoma with ultrastructural characteristics of human synovial sarcoma – case report. BMC Vet Res 13, 247 (2017) doi:10.1186/s12917-017-1181-6
- Synovial sarcoma
- Thoracic neoplasm
- Transmission electron microscopy