- Case report
- Open Access
Metastatic sweat gland adenocarcinoma: A clinico-pathological dilemma
© Chintamani et al; licensee BioMed Central Ltd. 2003
- Received: 19 January 2003
- Accepted: 01 August 2003
- Published: 01 August 2003
Sweat gland adenocarcinoma is a rare malignancy with high metastatic potential seen more commonly in later years of life. Scalp is the most common site of occurrence and it usually spreads to lymph nodes. Liver, lung and bones are the distant sites of metastasis with fatal results. The differentiation between apocrine and eccrine metastatic sweat gland carcinoma is often difficult. The criteria's are inadequate to be of any practical utility.
Two cases of metastatic sweat gland adenocarcinoma (one of eccrine and the other one of apocrine origin) are being reported on account of the rarity and different outcome.
Sweat gland carcinomas are rare cancers with a poor prognosis often presenting as histological surprises. Surgery in the form of wide local excision and lymph node dissection is the mainstay of treatment. Chemotherapy and/or radiotherapy has limited role.
- Sweat gland
- lymph node
Sweat gland neoplasms (microcystic adenexal carcinoma) are rare with approximately 200 cases of eccrine sweat gland and 38 cases of apocrine gland carcinoma being reported in the world literature [1, 2]. It is often not diagnosed clinically or incorrectly and is encountered as a histological surprise i.e. as an incidental finding at histology of resected specimen. A wide surgical excision is the treatment of choice with clearance of draining lymph nodes. The role of adjuvant chemotherapy and radiotherapy is not established. We report here two cases of sweat gland adenocarcinoma one each of eccrine and apocrine origin.
Sweat gland carcinoma represent a rare group of tumors with potential for destructive local tissue infiltration and regional as well as distant metastasis. The management of these neoplasms is both complex and cumbersome, mainly due to limited availability of literature. Histological resemblance to the mature gland in biopsy specimen too contributes. The diagnosis is primarily based on histochemical, immunochemical, or ultrastructural features. These tumors therefore can be considered as clinico-pathological dilemmas with an unpredictable biological behavior. Rarely diagnosed clinically, they are often encountered as operative and histological surprises [1–5].
The two basic types of sweat glands in the humans are eccrine and apocrine. The eccrine glands are present everywhere, except the lips, glans penis, inner surface of the prepuce, clitoris and labia minora. They are most dense on palms and soles and respond primarily to cholinergic stimuli, thereby playing an important role in regulating the body temperature.
The apocrine sweat glands are limited to ear canal, the eyelids, the axilla, the anogenital region and the mammary areola and are under the control of sexual hormones [2, 5–7]. The tumor was first described by Goldstein in 1982  and originates from pleuripotent adenexal cells capable of eccrine and follicular differentiation. There is an orderly progression of spread to regional lymph nodes and distant sites with metastatic adenocarcinomas carrying a poor prognosis.
Division of sweat gland carcinomas into eccrine and apocrine groups, although desirable, is not clinically useful as the existing literature has not adequately subdivided and studied the separate entities well enough to make this distinction worthwhile. Sweat gland carcinomas occur primarily in adult patients, with a peak incidence in fifth and sixth decades of life [2, 6, 7]. Majority occur in the genital skin and perineum (34.5%), followed by trunk (26.4%), head and neck (18.3%) and lower extremities (13.9%) [2, 5, 6, 9].
The two main subtypes of sweat gland carcinomas are apocrine gland carcinomas and eccrine carcinomas. Apocrine carcinomas manifest as non-tender single or multiple, firm, rubbery or cystic masses with red to purple overlying skin [2, 5, 9]. Microscopically they have appearance of an adenocarcinoma with well-developed glandular lumina, showing characteristic evidence of "decapitation secretion". Tumor cells are PAS positive due to glycogen granules and diastase resistant . Other features include glandular lumen, which may be narrow or slightly dilated with the cells of glandular and papillary structures being large, with a strongly eosinophillic cytoplasm containing hemosiderin. Sudan stain for lipids may be either negative or positive with mucin often being present in the lumen of the glandular structures and also around them.
Eccrine gland carcinomas posses no distinctive clinical features making diagnosis by gross appearance virtually impossible. They usually manifest as non-tender, subcutaneous nodules, primarily in elderly individuals. Individual malignant cells are rich in glycogen and stain with PAS and are diastase sensitive with prevalent nuclear changes and propensity for lymphatic invasion [7, 9]. The glandular features show narrow lumen surrounded by a layer of flat or cuboidal cells with no hemosiderin. PAS stain after diastase digestion shows the tubular structures are not surrounded by a basement membrane but rather by a strongly stained cuticle containing amorphous masses in their lumen [5, 7, 9–11].
Tumors bearing resemblance to their benign counterparts are designated accordingly
- 2.Those without or minimal resemblance to their benign counterparts are further classified in to:
Eccrine adenocarcinomas: These generally resemble a moderately to poorly differentiated adenocarcinoma, with regional variation ranging from true ductules in some areas to infiltrative, nonglandular anaplastic cells to glycogenated cellular zones in other areas. Contiguity with benign eccrine structures or with overlying epidermis is not seen.
Mucinous eccrine carcinomas are characterized histologically by solitary and nested anaplastic cells floating in pools of mucin within the dermis. Thin strands of fibrous tissue serve to compartmentalize these "lakes" of mucin.
Adenoid cystic eccrine carcinomas: These are seen as tumors of major and minor salivary glands but rarely may be encountered as primary cutaneous tumors remote from salivary apparatus. These tumors exhibits a population of uniform basaloid cells forming cribriform and tubular structures, usually with evidence of mucin and hyaline surrounding cellular masses. Perineural invasion is prevalent and should be looked for specifically.
Aggressive digital papillary adenoma/carcinoma: These tumors exhibit cystic zones manifesting papillary infoldings and lined with benign cuboidal epithelium, more cellular zones of atypical adenomatous hyperplasia, and areas of overt adenocarcinoma. It is questionable whether aggressive digital papillary adenoma (ADPA) can be distinguished histologically from aggressive digital papillary adenocarcinoma. It is recommended that all aggressive digital papillary (ADP) tumors be designated and managed as "adenocarcinomas" [9, 11, 12]
Sites of sweat gland carcinoma metastasis include nodes, lungs, liver and bone [2, 9, 13]. Metastatic deposits from undiagnosed visceral and breast adenocarcinoma are virtually indistinguishable microscopically from sweat gland carcinoma and must be considered before a diagnosis of metastatic sweat gland carcinoma is made. Breast cancer is differentiated by negative PAS staining and positive estrogen, progesterone receptor staining.
The recommended treatment of all subtypes of sweat gland carcinomas is wide surgical excision along with regional lymph node dissection in the presence of clinically positive nodes. Some authors advocate prophylactic regional lymph node dissection especially in patients with recurrent lesions after wide excision or with highly undifferentiated tumors. Sweat gland carcinomas are radio resistant and chemotherapy has been infrequently employed . Prognostic factors for sweat gland carcinoma are difficult to identify, again owing to the small number of reported cases. The likely prognostic factors include size, histological type, lymph node involvement and distant metastasis. A 10-year disease free survival rate of 56% in the absence of lymph node metastasis is observed which falls to 9% if nodes are involved [2, 12–14].
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