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seroma or hematoma following microscopically incomplete margins. Complications such as poor wound healing may occur more commonly in irradiated surgical sites than in nonirradiated tissue due to the effects of radiation on fibroblasts and blood vessels (Seguin et al. 2005). Even so, surgery in previously irradiated fields can be quite successful, provided care is taken to ensure minimum tension, careful surgical technique, and appropriate timing (either before or after acute effects have occurred). Consultation with a radiation oncologist prior to surgery can help the surgeon identify those patients who may be good candidates. Considerations such as whether or not preoperative radiation will diminish the surgical dose and what type of reconstruction will be needed to ensure a tension‐free closure in an irradiated surgical field should be discussed at length prior to deciding if neoadjuvant radiation is warranted.

      Source: Illustrated by Molly Borman.

      Source: Illustrated by Molly Borman.

      Because knowing the tumor type is essential in most instances, methods to get a diagnosis are a fine needle aspirate (FNA) or biopsy.

      Fine Needle Aspirate

      Fine needle aspiration is often the most minimally invasive technique for obtaining critical information about a newly identified mass prior to surgery. The accuracy of a FNA is dependent on many factors including the tumor type, location, and amount of inflammation. Overall sensitivity and specificity of cytology have been reported to be 89% and 100%, respectively (Eich et al. 2000; Cohen et al. 2003). Imaging tools such as ultrasound and fluoroscopy can increase the chance of obtaining a diagnostic sample.

      In most patients, an FNA of cutaneous or subcutaneous lesions can be obtained with no sedation and a minimal amount of discomfort. Fine needle aspiration has been compared to histopathologic samples in several studies. In one study of the correlation between cytology generated from fine needle aspiration and histopathology in cutaneous and subcutaneous masses, the diagnosis was in agreement in close to 91% of cases (Ghisleni et al. 2006). Cytology was 89% sensitive and 98% specific for diagnosing neoplasia, and these numbers varied slightly based on tumor type (Ghisleni et al. 2006). For example, both the sensitivity and specificity were 100% for mast cell tumors (Ghisleni et al. 2006). In one study looking at the accuracy of cytology of lymph nodes in dogs and cats, cytology had a sensitivity of 67%, specificity of 92%, and accuracy of 77% for a diagnosis of neoplasia (Ku et al. 2017). In that study, 31% of metastatic lymph nodes secondary to a mast cell tumor were falsely negative (Ku et al. 2017). In another study evaluating the value of cytology of lymph nodes to detect metastasis of solid tumors, the sensitivity of needle aspirates of the lymph node was 67% for sarcomas, 100% for carcinomas, 63% for melanomas, 75% for mast cell tumors, and 100% for other round cell tumors. The specificity varied between 83 and 96%; also, 20% of nondiagnostic samples were metastatic (Fournier et al. 2018).

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Tumor type stage Size location Owner’s goals prognosis Overall health of patient Goal of surgery Dose of surgery
Benign Marginal
Malignant Metastasis present Palliative Marginal
No metastasis Small Trunk Good to excellent Good Curative Wide
Significant