Oil red O histochemistry can be performed to confirm the presence of lipid and the diagnosis of liposarcoma in cases that are not well differentiated. LaDouceur et al. (2017) reported an overlap in the expression of several muscle antigens and UCP1 between liposarcoma, hibernoma (benign soft tissue tumors containing prominent brown adipocytes), and rhabdomyosarcoma.
The presence of a heterogeneous mass on CT, with a multinodular soft tissue component and associated regional lymphadenopathy and mineralization, are features favoring a diagnosis of liposarcoma (Spoldi et al. 2017). All liposarcoma enhance with contrast medium administration, contrary to infiltrative lipomas. Other CT features associated with canine liposarcomas include heterogeneous internal attenuation (81%) and lack of a clearly defined capsule (38%) suggesting infiltration of local structures (Fuerst et al. 2017).
Survival time is strongly correlated to the type of surgery that is performed. Median survival times are reported of 1188, 649, and 183 days for dogs that underwent wide excision, marginal excision, and incisional biopsy, respectively. Apart from wide excision, tumor size, tumor location, and histologic subtype are associated with survival time (Baez et al. 2004).
The effect of chemotherapy and radiation therapy on this tumor type has not been evaluated (Baez et al. 2004).
Lymphangiosarcoma
Lymphangiosarcoma is a highly malignant neoplasm of the lymphatic endothelium. Lymphangiosarcomas are rare in dogs and cats. Lymphangiosarcoma in the majority of human and canine patients is an aggressively malignant tumor, with few patients surviving despite various attempted surgical and adjunctive treatments. The tumor has been reported mostly in medium‐ to large‐breed dogs, slightly more frequently in males than females, with an age range of 8 weeks to 13 years, with the majority of being in the age group of 5 years and older. The tumor commonly arises in the subcutaneous tissues, rapidly invades underlying tissues, and can spread via the hematogenous and lymphatic routes to frequently involve the pleura and chest. Lymphoid oozing of the skin is sometimes observed (Galeotti et al. 2004; Jackson et al. 2011; Mineshige et al. 2015; Thongtharb et al. 2015; Williams 2005).
Early tissue biopsies for histology and immunochemistry are recommended for progressive edematous lesions of unknown origin as cytology consisted of mild inflammation in dogs diagnosed with lymphangiosarcoma (Curran et al. 2016).
The cell‐specific immunohistochemical lymphatic vessel endothelial receptor‐1 (LYVE‐1) has been successfully used as a marker to diagnose lymphangiosarcoma in cats (Galeotti et al. 2004). LYVE‐1 in conjunction with Prospero‐related homeobox gene‐1 (PROX‐1) is recommended by Halsey et al. (2016) to differentiate between lymphangiosarcoma and HSA in dogs.
The prognosis is poor, with reported survival times being only a few months (Lenard et al. 2007; Williams 2005) up to over one year. In case series of 12 dogs, survival ranged from 60 to 876 days for 3 dogs with palliation; 90 days with prednisone in 1; 182 days with chemotherapy in 1; 240–941 days for 5 dogs receiving surgery; and 574 days for 1 receiving surgery, radiation, and chemotherapy. One dog is alive with recurrence at 243 days following surgery and carboplatin chemotherapy (Curran et al. 2016).
A five‐year‐old Giant schnauzer, suffering from chylothorax and a lymphangiosarcoma involving the whole left sublumbar area was treated surgically by mass resection, pleural omentalization, and pericardiectomy followed by mitoxantrone administration. The dog was still alive 10 months after surgery (Sicotte et al. 2012).
Doxorubicin treatment resulted in a six‐month recurrence‐free interval in a five‐year‐old female Boxer after incomplete local resection in the area of the caudal mammary gland. At relapse Toceranib resulted in almost complete regression of a lymphangiosarcoma, leaving just a skin plaque. Metronomic chemotherapy using chlorambucil and meloxicam had failed to adequately control the disease in this dog (Marcinowska et al. 2013).
Leiomyoma and Leiomyosarcoma
Cutaneous smooth muscle is present in three separate locations: arrector pili muscles, blood vessel walls, and genital/areolar skin. Benign or malignant smooth muscle neoplasms may arise from each of these locations. In dogs, leiomyomas of arrector pili muscles have been described (Cooper and Valentine 2002; Goldschmidt and Shofer 1998).
Leiomyosarcoma are malignant tumors of smooth muscle cells. They mainly are associated with the digestive tract, but they can occur in any part of the body as firm lobulated masses (Cohen et al. 2003; Kapatkin et al. 1992; Pierini et al. 2017). Leiomyosarcomas of the skin do not tend to metastasize, in contrast to hepatic leiomyosarcomas (100%). The prognosis in dogs with leiomyosarcoma of the spleen, stomach, small intestine, and especially the cecum is good to excellent if surgery is performed. In dogs with leiomyosarcoma of the liver, the prognosis is poor (Kapatkin et al. 1992).
Surgical removal of the lesions is the treatment of choice (Liu and Mikaelian 2003).
Doxorubicin has been used as adjunctive therapy after surgical removal of a primary leiomyosarcoma involving the jugular vein in a dog. The dog received five doses of intravenous doxorubicin, and there was no recurrence of the tumor 30 months post treatment (Pierini et al. 2017).
Melanoma
Benign melanocytic tumors comprise 3–4% of all skin tumors in dogs and 0.6–1.3% in cats. Malignant melanocytic tumors generally termed melanoma or malignant melanoma (MM), account for 0.8–2% of all cutaneous tumors in dogs and 0.4–2.8% in cats (Gross et al. 2005; Vail and Withrow 2007). MMs are more common in dogs with heavily pigmented skin, whereas cats with black or gray hair coats may be predisposed (Gross et al. 2005). Cutaneous and ocular melanomas in dogs usually behave in a benign manner, whereas amelanotic melanoma arising from mucocutaneous junctions, oral cavity, digits, and the nail bed tends to be malignant, with the tendency to rapidly invade surrounding tissue and to metastasize. Benign melanomas are usually small, pigmented, firm, dome‐shaped tumors of the skin that are freely moveable over deeper tissue structures. MMs tend to grow more rapidly with an invasive growth pattern; more commonly ulcerate, and appear brown, gray, or black, depending on the amount of melanin production (Goldschmidt and Hendrick 2002; Gross et al. 2005). Non‐pigmented or amelanotic melanomas can occur in the skin, but they are more commonly seen in the oral cavity (Vail and Withrow 2007).
In a study of 87 cases, canine cutaneous MM, postsurgery median progression‐free survival time, and median overall survival time have been reported to be 1282 days and 1363 days, respectively. With a post‐surgery metastatic rate of 21.8% and a local recurrence rate of 8%. Increasing mitotic index was predictive of a significantly decreased survival time on multivariable analysis (Laver et al. 2018).
In cats, 42–68% of cutaneous melanocytic tumors show malignant behavior (Gross et al. 2005). They more often involve the head (pinna, nose, and eyelids) or the digits and the eye.
Melanomas can be diagnosed easily by FNA cytology, but histologic evaluation is important to evaluate the malignancy and prognosis. Transformation from benign to malignant melanoma often occurs in humans, and the influence of ultraviolet radiation in the pathogenesis is well documented (Leiter and Garbe 2008). Such transformation has sporadically been reported in dogs. The treatment of choice for local cutaneous melanoma in both the cat and dog is surgical excision.
In cats, prognosis after surgical resection of non‐ocular cutaneous MMs is reasonable, with reported metastatic rates of 5–25% (Luna et al. 2000).
The prognosis for malignant‐behaving melanomas, especially located on the lip or oral cavity, is guarded to poor. In a study of Bostock (1979) 38 of 42 (90%) dogs with a histologically malignant melanoma of the lip or oral cavity died because of the tumor, compared to only 15 of 33 (45%) of malignant skin melanomas. A total of 6 of 59 (10%) dogs with a tumor of mitotic index of 2 or less died from tumor‐associated disease 2 years after surgery compared to 19 of 26 (73%) of dogs having a tumor with a mitotic index of 3 or more (Bostock 1979). WHO’s staging scheme for dogs with oral melanoma is based on diameter size: less than 2 cm tumor