An in-depth look at Leydig cell tumor of the testis.* Leydig cell tumor (LCT) is a rare tumor of the male testicular interstitium. This article provides an overview of the major pathologic manifestations of LCT of the testis; patient characteristics; clinical, radiologic, and laboratory features; prognosis; and management. LCTs of the testis are frequently hormonally active, leading to either feminizing or virilizing syndromes. The tumor is usually benign, but malignant variants can occur. The pathologic diagnosis of LCT is usually made based on morphologic characteristics of the tumor cells. The significance of Reinke crystals in the diagnosis of LCT both cytologically and histologically is underscored. Pathologists have to be familiar with the diagnostic histopathologic features, immunohistochemical panel of this tumor, and its principal differential diagnoses to prevent tumor misdiagnosis. (Arch Pathol Lab Med. 2007;131:311-317) Testicular neoplasms are classified into 2 major groups: germ cell tumors and sex cord-stromal tumors. Sex cord-stromal tumors are derived from 2 types of somatic cells: the Leydig cells, and the Sertoli cells. Leydig cells are designated by the name of the German anatomist Franz Leydig who first described them in 1870. (1) They are interstitial cells located between the seminiferous tubules and they produce testosterone when stimulated by luteinizing hormone. They are thus involved in the development of secondary male characteristics and maintenance of spermatogenesis. (2) Tumors of the Leydig cell are rare. They comprise 1% to 3% of all testicular neoplasms but they are the most common interstitial neoplasms of the testis. (3) The mechanism of Leydig cell oncogenesis is still poorly understood. The disruption of the hypothalamic-pituitary-testicular axis leading to excessive stimulation of Leydig cells by excess luteinizing hormone is thought to play a role. (4) However, structural changes of the luteinizing hormone receptors (5) and G proteins (6) in Leydig cells have been postulated to induce tumorigenesis tumorigenesis /tu·mor·i·gen·e·sis/ (-jen´e-sis) oncogenesis. tu·mor·i·gen·e·sis n. Formation or production of tumors. . There are no known risk factors for this tumor in the human male. In contrast to germ cell tumors, there does not seem to be a definitive association with cryptorchidism cryptorchidism /crypt·or·chid·ism/ (krip-tor´kid-izm) failure of one or both testes to descend into the scrotum.cryptor´chid Cryptorchidism , although the presence or a history of undescended testis in 1 series (7) suggests that cryptorchidism may predispose to the development of this tumor, but this requires further elucidation. In addition, rare examples have been reported in patients with Kline-felter syndrome. Leydig cell tumors (LCTs) can be either pure or mixed with germ cell tumors or other sex cord-stromal tumors. They also can occur in extratesticular sites such as the spermatic cord, (8) adrenal glands, (9) or the ovaries. This article focuses on pure LCTs of the testis. CLINICAL PROFILES Testicular LCTs can occur at any age but they are common in prepubertal prepubertal /pre·pu·ber·tal/ (-pu´ber-tal) before puberty; pertaining to the period of accelerated growth preceding gonadal maturity. boys (most often between 5 and 10 years of age) and in men aged 30 to 60 years. (7,10) Leydig cell tumors are always benign in children, whereas in adults they are malignant in 10% of cases. Leydig cell tumors are hormonally active and considered as one of the steroid-secreting tumors. They produce androgens, mainly testosterone, but can also produce estrogen by either direct production of estradiol or by peripheral aromatization a·ro·ma·tize tr.v. a·ro·ma·tized, a·ro·ma·tiz·ing, a·ro·ma·tiz·es 1. To make aromatic or fragrant: swirled the wine to aromatize it. 2. of the testosterone moiety moiety: see clan. . In androgen-secreting tumors, boys usually present with symptoms of precocious puberty (growth of the penis, pubic hair, accelerated skeletal and muscle growth, advancement of bone age, and skin changes), whereas in adults, most patients are asymptomatic as the excess androgen rarely causes notable effects. In estrogen-secreting tumors, feminizing stigmata predominate: Boys usually present with gynecomastia gynecomastia Breast enlargement in a male. It usually involves only the nipple and nearby tissue of one breast. More rarely, the whole breast grows to a size normal in a female. True gynecomastia is related to an increase in estrogens. and breast tenderness associated with feminine hair distribution and gonadogenital underdevelopment, whereas adults generally present with gynecomastia associated with loss of libido, erectile dysfunction, impotence, and infertility. Physical examination of the testes usually reveals an intratesticular mass on palpation palpation /pal·pa·tion/ (pal-pa´shun) the act of feeling with the hand; the application of the fingers with light pressure to the surface of the body for the purpose of determining the condition of the parts beneath in physical diagnosis. . If the tumor is impalpable impalpable /im·pal·pa·ble/ (im-pal´pah-b'l) not detectable by touch. impalpable not detectable by touch. , ultrasonography is the investigative procedure of choice. Radiologically, LCT of the testis typically has a homogeneous hypoechoic sonographic appearance (Figure 1, arrow) (a heterogeneous pattern should alert one to the possibility of a malignancy). Color Doppler imaging, which detects vascular blood flow, often shows hypervascularity of the tumor with a prominent peripheral and circumferential blood flow (11) (Figure 2). It should be emphasized that when patients present with either feminizing or virilizing symptoms, clinicians should consider LCT in the differential diagnosis and examination of the testis is warranted. Clinicians should be alert to the fact that an LCT should not be excluded if a mass is not palpable as the tumor can be clinically occult (12) and testicular ultrasonography should follow. Laboratory studies in LCTs are nonspecific. The steroid secretion pattern in LCTs is variable. Although serum testosterone level is usually elevated, serum estradiol measurement is increased in cases with feminization feminization /fem·i·ni·za·tion/ (fem?i-ni-za´shun) 1. the normal development of primary and secondary sex characters in females. 2. the induction or development of female secondary sex characters in the male. stigmata. Because hyperandrogenism and hyperestrogenism can also be caused by adrenal hyperplasia or tumor, laboratory evaluation for testicular and adrenal steroids, as well as pituitary gonadotropins and adrenocorticotrophic adrenocorticotrophic /adre·no·cor·ti·co·tro·phic/ (-kor?ti-ko-tro´fik) adrenocorticotropic. adrenocorticotrophic adrenocorticotropic; corticotropic. hormone (ACTH ACTH: see adrenocorticotropic hormone. ACTH in full adrenocorticotropic hormone Polypeptide hormone made in the pituitary gland. ), is important to determine a diagnosis. Importantly, serum tumor markers testing for [alpha]-fetoprotein, [beta]-human chorionic gonadotropin, and placental alkaline phosphatase should be within normal ranges. These markers are often elevated in certain germ cell tumors but not in pure LCTs. [FIGURES 1-2 OMITTED] PATHOLOGIC FEATURES Gross Features Benign LCT classically presents as a small (3-5 cm in diameter), sharply delineated, solid mass embedded within the testicle. The tumor color usually ranges from brown to yellow to gray-white (depending on the lipid content of the tumor). The golden brown appearance (which is usually imparted by the abundant lipofuscin pigment of tumor cells) is very characteristic (Figure 3). Malignant LCTs are usually larger (more than 5 cm in diameter), have infiltrative margins, show areas of hemorrhage and necrosis, replace the testis, and/or extend beyond testicular parenchyma Parenchyma A ground tissue of plants chiefly concerned with the manufacture and storage of food. The primary functions of plants, such as photosynthesis, assimilation, respiration, storage, secretion, and excretion—those associated with living . Leydig cell tumors is usually unilateral. Bilateral tumors are rarely observed (only in 3% of cases). (7) [FIGURE 3 OMITTED] Microscopic Features Growth Pattern.--The most common growth pattern of tumor cells is nests or sheets separated by delicate fibrovascular fibrovascular both fibrous and vascular. fibrovascular papilloma see malignant fibrous histiocytoma. septa (Figure 4). Other growth patterns include small clusters or trabecula separated by a variable amount of fibrous or myxoid myxoid /myx·oid/ (mik´soid) mucoid. myx·oid adj. Containing or resembling mucus; mucoid. myxoid resembling mucus. myxoid adjective 1. stroma. (13) A microcystic growth pattern has also been described. (14) Rare cases of LCT with unusual features such as adipocyte adipocyte /ad·i·po·cyte/ (-sit?) fat cell. ad·i·po·cyte n. See fat cell. adipocyte differentiation, ossification ossification /os·si·fi·ca·tion/ (os?i-fi-ka´shun) formation of or conversion into bone or a bony substance. ectopic ossification , and calcification have been reported. (15) [FIGURE 4 OMITTED] Cell Types.--Four types of cells in LCTs have been described: (1) large polygonal cells with abundant, finely granular, eosinophilic eosinophilic /eo·sin·o·phil·ic/ (-fil´ik) 1. readily stainable with eosin. 2. pertaining to eosinophils. 3. pertaining to or characterized by eosinophilia. cytoplasm, indistinct cell borders, and regular, round to oval nuclei, some with a prominent nucleolus nucleolus: see cell. ; (2) same as in (1) but distinct cell borders and smaller nuclei; (3) small cells with scant, densely eosinophilic cytoplasm and grooved nuclei; and (4) spindle-shaped (sarcomatoid) cells. (16) The tumor can consist predominantly of 1 type or a mixture of the 4 types of cells. Cytologic Features.--In all 4 cell types, the cytoplasm is often eosinophilic but can also be pale to clear because of abundant lipid accumulation. It also contains abundant lipofuscin (also called lipochrome) pigment. The lipofuscin pigment appears on hematoxylin-eosin-stained sections as golden yellow to brown cytoplasmic (mainly perinuclear perinuclear /peri·nu·cle·ar/ (-noo´kle-ar) near or around a nucleus. ) granules. It also can be highlighted by periodic acid-Schiff stain with or without diastase diastase (dī`əstās'): see amylase. (Figure 5). Abundant cytoplasmic lipofuscin pigment is considered as one of the distinctive features of LCT, although it is nonspecific as it also occurs in other steroid-secreting tumors as well as in aging cells. Reinke crystals are also distinctive for LCT. These are pale-staining, refractile, cylindrical, rectangular or rhomboid rhomboid /rhom·boid/ (rom´boid) [Gr. rhombos rhomb +-oid ] having a shape similar to a rectangle that has been skewed to one side so that the angles are oblique. structures (or inclusions) arranged in a linear fashion (Figure 6, arrows). Both intracytoplasmic intracytoplasmic /in·tra·cy·to·plas·mic/ (-si?to-plaz´mik) within the cytoplasm of a cell. and intranuclear in·tra·nu·cle·ar adj. Situated or occurring within the nucleus of an atom or cell. Reinke crystals have been described. (17) The significance of these crystals remains obscure. The crystals can be picked up on hematoxylin-eosin-stained sections. They can be highlighted by Giemsa or Masson trichrome stains. Reinke crystals are identified in less than half of all LCTs. Mitoses in benign LCT are generally rare and nuclear atypia is absent or minimal. Microscopic features that indicate malignancy include marked cytologic and nuclear atypia, necrosis, lymphovascular invasion, increased mitotic rate (more than 3 to 5 per 10 high-power fields) with atypical mitotic mitotic pertaining to mitosis. mitotic activity degree to which a cell population is proliferating; used as an index of tumor aggression. figures, DNA aneuploidy aneuploidy /an·eu·ploi·dy/ (an?u-ploi´de) any deviation from an exact multiple of the haploid number of chromosomes, whether fewer or more. an·eu·ploi·dy n. , and increased expression of proliferative markers (Ki-67/MIB-1 and p53 protein). (18) [FIGURES 5-6 OMITTED] Cytology Leydig cells on smears can occur singly or in clusters. They can be identified with their aforementioned characteristic histomorphologic features. All reports on cytodiagnosis of LCTs describe the diagnostic significance of Reinke crystals. Identification of the crystals on cytologic examination serves to clinch the diagnosis. The crystals are best appreciated on air-dried, Giemsa-stained smears than in fixed smears or tissue sections on light microscopy. Gupta et al (19) suggest that some of the crystals dissolve during fixation and processing used for histopathologic preparation and staining, making them more difficult to identify in paraffin sections than cytologic smears. Interestingly, scrape cytologic preparation was found by Hribar et al (20) to be helpful for revealing the crystals. This was explained by the fact that scraping disrupts the cytoplasm of the Leydig cells and releases the crystals causing them to assume an extracellular location, thus aiding in their identification. The scrape cytologic testing can thus be a useful adjunct for intraoperative diagnosis of LCT. Ultrastructural Features Electron microscopy of LCTs reveals ultrastructural features of steroid-secreting cells. These features are (1) abundance of smooth endoplasmic reticulum, (2) mitochondria with tubulovesicular cristae, and (3) numerous lipid droplets. Collectively, these features distinguish tumors of steroid-secreting cells, including LCT, from all others. In addition, electron microscopy of LCT shows numerous lipofuscin granules. They appear as rounded or irregularly shaped electron-dense bodies, which consist of lipid droplets accumulating in lysosomes. Reinke crystals can appear in various patterns including prismatics, hexagonal lattices, or hexagonal microtubules with parallel lines. (21) Immunohistochemistry The immunohistochemical markers that have been proved to be of the greatest utility for the evaluation of LCT are [alpha]-inhibin, calretinin, and Melan-A. [alpha]-Inhibin is a characteristic marker for sex cord-stromal tumors including LCT (22) and, therefore, it is considered as the best marker to differentiate sex cord-stromal tumors from germ cell tumors (Figure 7). Calretinin is reported to be a valuable marker for LCT. (23) Melan-A (Mart-1) is also considered as a good marker for steroid-secreting tumors including LCTs (24) (once melanoma is excluded). Tumor cells, in most reported studies, show positive reactivity for vimentin but negative reactivity for cytokeratins. (25) Occasional reports about positive reactivity to S100 protein (26) and synaptophysin (27) are also available. Of note, the positive staining with vimentin and negative staining with cytokeratin combined with the presence of spindle cell morphology (as mentioned earlier) supports the mesenchymal origin of LCT. This immunophenotype of LCT is identical to that of adrenocortical adrenocortical /adre·no·cor·ti·cal/ (-kor´ti-k'l) pertaining to or arising from the adrenal cortex. ad·re·no·cor·ti·cal adj. Of, relating to, or derived from the adrenal cortex. tumors. This finding supports the postulation that both Leydig cells and adrenocortical cells share the same mesodermal origin. The existence of Leydig cells in the adrenal glands and the existence of adrenal rests in the testicles provide additional evidence for the common origin of the two. [FIGURE 7 OMITTED] DIFFERENTIAL DIAGNOSIS To facilitate the discussion of its differential diagnosis, LCT can be divided into 2 major types depending on the histologic morphology: (1) conventional LCT and (2) unconventional LCT. The distinction should be between these 2 types and their mimickers. Differential Diagnosis of Conventional LCT Conventional LCT (ie, tumors in which the cells are round to polygonal with eosinophilic cytoplasm, arranged in sheets, nests, or trabecula) must be differentiated from Leydig cell hyperplasia Leydig cell hyperplasia Endocrinology Autonomous hyperplasia and hyperfunction of Leydig cells Etiology Activating mutation of LH receptor gene Clinical Precocious puberty Management Orchidectomy , granular cell tumor granular cell tumor n. A slow-growing benign tumor that often involves the peripheral nerves in skin, mucosa, or connective tissue. Also called granular cell myoblastoma. , malakoplakia, the testicular nodules of adrenogenital syndrome, and other tumors of the testis (Table). Leydig cell tumor differs from Leydig cell hyperplasia by being solitary, whereas nodular Leydig cell hyperplasia is characteristically multifocal. In addition, LCT is larger (more than 0.5 cm in diameter), whereas the foci of Leydig cell hyperplasia are smaller (less than 0.5 cm in diameter). Granular cell tumor enters the differential diagnosis by having sheets of cells with abundant eosinophilic cytoplasm and central small nuclei. Because S100 protein can be positive in LCT, it might not be helpful in this situation. Using the distinctive immunopanel of LCT ([alpha]-inhibin, calretinin, and Melan-A) with the identification of Reinke crystals and lipofuscin pigment helps secure the diagnosis for LCT. Excessive secretion of ACTH in some hypothalamic-pituitary-adrenal axis conditions (such as ACTH-secreting pituitary adenoma after bilateral adrenalectomy Adrenalectomy Definition Adrenalectomy is the surgical removal of one or both of the adrenal glands. The adrenal glands are paired endocrine glands, one located above each kidney, that produce hormones such as epinephrine, norepinephrine, androgens, ) may lead to hyperplasia of the interstitial ACTH-dependent adrenal rests that exist in the testis. These hyperplastic adrenal rests are referred to as testicular "tumors" of adrenogenital syndrome (TTAGS). These cells are hormonally active in secreting androgens. They can be confused macroscopically with LCT because of their brown color (as they contain abundant lipofuscin pigment similar to Leydig cells), but they are almost invariably multifocal and bilateral, whereas LCT is usually solitary and unilateral. Microscopically, cells of TTAGS have abundant eosinophilic and finely granular cytoplasm and centrally located nuclei with single prominent nucleoli nucleoli plural form of nucleolus. and thus closely mimic Leydig cells. Identification of Reinke crystals, which is characteristic of LCT (but not TTAGS), is very helpful. Clinically, serum ACTH is elevated in TTAGS but normal to low in LCT (the steroid hormones secreted by LCT exert negative feedback on ACTH secretion from the pituitary). The importance of the distinction between LCT and TTAGS relies on the fact that metastases have never been reported in TTAGS and orchiectomy orchiectomy /or·chi·ec·to·my/ (or?ke-ek´tah-me) excision of one or both testes. If bilateral it is called also castration. or·chi·ec·to·my or or·chi·dec·to·my n. is unnecessary with this diagnosis as regression of TTAGS with glucocorticoid therapy is possible. (28) Malakoplakia of the testis can also look similar to LCT grossly as it may form a single, homogeneous, yellow or brown mass. The eosinophilic histiocytes of malakoplakia may be misconstrued as Leydig cells, but they typically involve tubules as well as interstitium in the background of xanthogranulomatous inflammation. Michaelis-Gutmann bodies (rounded, lamellar lamellar /la·mel·lar/ (lah-mel´ar) 1. pertaining to or resembling lamellae. 2. lamellated (1). lamellar pertaining to or emanating from lamella. , basophilic basophilic /ba·so·phil·ic/ (-fil´ik) 1. pertaining to basophils. 2. staining readily with basic dyes. basophilic staining readily with basic dyes. , calcific calcific /cal·cif·ic/ (-ik) forming lime. calcific forming lime. bodies inside and outside histiocytes) are pathognomonic pathognomonic /pa·thog·no·mon·ic/ (path?ug-no-mon´ik) specifically distinctive or characteristic of a disease or pathologic condition; denoting a sign or symptom on which a diagnosis can be made. of malakoplakia. LCT can be easily distinguished from Sertoli cell tumor Sertoli cell tumor n. See androblastoma. and other testicular tumors in the sex cord-stromal category with the exception of the large cell calcifying variant of Sertoli cell tumor, which resembles LCT by having sheets of cells with large eosinophilic cytoplasm. However, areas of calcification discriminate this tumor from LCT (except LCT with unusual calcification). Testicular germ cell tumors can be easily distinguished from conventional LCT by their characteristic histomorphologic features. Other differential diagnoses include malignant melanoma and metastatic carcinoma (particularly from the prostate). Bilaterality; common involvement of the epididymis epididymis /ep·i·did·y·mis/ (-did´i-mis) pl. epididy´mides [Gr.] an elongated cordlike structure along the posterior border of the testis; its coiled duct provides for storage, transit, and maturation of spermatozoa and is and spermatic cord; intertubular infiltration of tumor cells with invasion of the tubules; and the malignant cytologic features such as nuclear and cellular pleomorphism pleomorphism /pleo·mor·phism/ (-mor´fizm) the occurrence of various distinct forms by a single organism or within a species.pleomor´phicpleomor´phous ple·o·mor·phism n. 1. , high mitotic activity, and necrosis can differentiate these tumors from LCT. Appropriate immunostains will also help exclude these diagnoses. Differential Diagnosis of Unconventional LCT LCTs lacking the microscopic features of conventional LCT, as described earlier, should be distinguished from their mimicking lesions. LCT With Sarcomatoid Pattern.--Sarcomas enter the differential diagnosis of sarcomatoid LCT. Because sarcomatoid LCT is usually associated with areas displaying the conventional patterns of LCT, careful search for this conventional component is very helpful to settle the diagnosis. Therefore, thorough sampling of the tumor can be necessary to identify these components and resolve this differential. Additionally, the eosinophilic cytoplasm and the typical nuclear appearance of Leydig cells as well as their Reinke crystals are maintained in many cases of sarcomatoid LCT. Immunoreactivity for LCT markers ([alpha]-inhibin, calretinin, and Melan-A) may not be helpful in the differential because these markers are all reported to be negative in the sarcomatoid LCT. (16) LCT With Microcystic Pattern.--The primary differential diagnostic consideration for this variant is yolk sac tumor (YST). The key to the correct interpretation is finding a component of conventional LCT. Other features can also be of help. The lack of [alpha]-fetoprotein elevation is an important clinical indicator against YST because nearly all testicular YSTs are accompanied by such elevations. In addition, pure YSTs are rare in adults, so the absence of other types of germ cell tumor components provides additional evidence against YSTs. Lack of cytologic and nuclear atypia and low mitotic activity favor a diagnosis of LCT over YST. Lipofuscin pigment and Reinke crystals may prove helpful in the differential. Immunohistochemically, YSTs are positive for [alpha]-fetoprotein and cytokeratin but negative for [alpha]-inhibin. Conversely, LCTs are positive for [alpha]-inhibin but negative for [alpha]-fetoprotein and cytokeratin. (14) PROGNOSIS AND MANAGEMENT Benign LCTs are classically treated by orchiectomy, although testis-sparing surgery by tumor enucleation enucleation /enu·cle·a·tion/ (e-noo?kle-a´shun) removal of an organ or other mass intact from its supporting tissues, as of the eyeball from the orbit. Enucleation Surgical removal of the eyeball. with clear margins has recently been considered especially in boys and young men, to maintain their fertility. (29) Malignant LCTs are treated by orchiectomy with retroperitoneal retroperitoneal /ret·ro·peri·to·ne·al/ (-per?i-to-ne´al) posterior to the peritoneum. ret·ro·per·i·to·ne·al adj. Situated behind the peritoneum. lymphadenectomy as metastasis frequently involves retroperitoneal nodes. Other metastatic sites are liver (45%), lungs (40%), and bone (25%). (7) Malignant LCT does not respond favorably to chemotherapy and irradiation. Survival time has ranged from 2 months to 17 years (median, 2 years). (30) Although benign LCTs can be cured by resection, testicular dysfunction and infertility can be a serious sequel in patients with estrogen-secreting LCTs. Long-term excess of estrogen can cause impairment of spermatogenesis, most likely because of hypothalamic-pituitary inhibition as well as direct blockade at the testicular level. (31) This calls for early detection and management of these tumors to preserve the reproductive capacity. SUMMARY Leydig cell tumor of the testis is a rare, benign, interstitial tumor of the sex cord-stromal category. Awareness of the constellation of its clinical, radiographic, and pathologic features aids in establishing the correct diagnosis and distinguishing this neoplasm from other lesions of the testis. Leydig cell tumor is a steroid-secreting tumor. Clinicians have to consider LCT in either virilizing or feminizing syndromes. Testicular ultrasound is a useful means for tumor detection, especially if the tumor is not palpable. A careful search for the characteristic cytologic features of tumor cells is very important for diagnosis. LCTs may infrequently have unusual features. Immunohistochemistry can help confirm the diagnosis in challenging cases. The diagnostic immunopanel of LCT is diffuse cytoplasmic positivity for [alpha]-inhibin, calretinin, Melan-A, and vimentin and negative immunostaining with cytokeratin. References (1.) Ober WB, Sciagura C. Leydig, Sertoli and Reinke: three anatomists who were on the ball. Pathol Annu. 1981;16:1-13. (2.) Greenspan FS, Gardner DG. Basic and Clinical Endocrinology. 7th ed. New York, NY: McGraw-Hill; 2004. (3.) Rich MA, Keating MA. Leydig cell tumors and tumors associated with congenital adrenal hyperplasia Congenital Adrenal Hyperplasia Definition CAH is a genetic disorder characterized by a deficiency in the hormones cortisol and aldosterone and an over-production of the hormone androgen, which is present at birth and affects sexual development. . Urol Clin North Am. 2000;27:519-528. (4.) Holm M, Rajpert-De Meyts E, Andersson A-M, Skakkebk NE. Leydig cell micronodules are a common finding in testicular biopsies from men with impaired spermatogenesis and are associated with decreased testosterone/LH ratio. J Pathol. 2003;199:378-386. (5.) Liu G, Duranteau L, Carel JC, Monroe J, Doyle DA, Shenker A. Leydig-cell tumors caused by an activating mutation of the gene encoding the luteinizing hormone receptor. N Engl J Med. 1999;341:173-176. (6.) Fragoso MC, Latronico AC, Carvalho FM, et al. Activating mutation of the stimulatory G protein (gsp) as a putative cause of ovarian and testicular human stromal Leydig cell tumors. J Clin Endocrinol Metab. 1998;83:2074-2081. (7.) Kim I, Young RH, Scully RE. Leydig cell tumors of the testis. A clinicopathological analysis of 40 cases and review of the literature. Am J Surg Pathol. 1985; 9:177-192. (8.) Lanzafame S, Leonardi R, Torrisi A. Extratesticular Leydig cell tumor of the spermatic cord. J Urol. 2004;171:1238-1239. (9.) Pollock WJ, McConnell CF, Hilton C, Lavine RL. Virilizing Leydig cell adenoma of adrenal gland. Am J Surg Pathol. 1986;10:816-822. (10.) Dilworth JP, Farrow GM, Oesterling JE. Non-germ cell tumors of the testis. Urology. 1991;37:399-417. (11.) Maizlin ZV, Belenky A, Kunichezky M, Sandbank J, Strauss S. Leydig cell tumors of the testis: gray scale and color Doppler sonographic appearance. J Ultrasound Med. 2004;23:959-964. (12.) Haas GP, Pittaluga S, Gomella L, et al. Clinically occult Leydig cell tumor presenting with gynecomastia. J Urol. 1989;142:1325-1327. (13.) Ulbright TM, Amin MB, Young RH. Tumors of the Testis, Adnexa adnexa /ad·nexa/ (ad-nek´sah) [L., pl.] appendages or accessory structures of an organ, as the appendages of the eye (a. o´culi), including the eyelids and lacrimal apparatus, or of the uterus (a. , Spermatic Cord, and Scrotum. Washington, DC: Armed Forces Institute of Pathology; 1999. Atlas of Tumor Pathology; 3rd series, fascicle fascicle /fas·ci·cle/ (fas´i-k'l) 1. a small bundle or cluster, especially of nerve, tendon, or muscle fibers. 2. a tract, bundle, or group of nerve fibers that are more or less associated functionally. 25. (14.) Billings SD, Roth L, Ulbright T. Microcystic Leydig cell tumors mimicking yolk sac tumor: a report of four cases. Am J Surg Pathol. 1999;23:546-551. (15.) Ulbright TM, Srigley JR, Hatzianastassiou DK, Young RH. Leydig cell tumors of the testis with unusual features: adipose differentiation, calcification with ossification, and spindle-shaped tumor cells. Am J Surg Pathol. 2002;26:1424-1433. (16.) Richmond I, Banerjee SS, Eyden BP, et al. Sarcomatoid Leydig cell tumor of the testis. Histopathology. 1995;27:578-580. (17.) Jain M, Aiyer HM, Bajaj P, Dhar S. Intracytoplasmic and intranuclear Reinke crystals in a testicular Leydig-cell tumor diagnosed by fine-needle aspiration cytology: a case report with review of the literature. Diagn Cytopathol. 2001;25: 162-164. (18.) Cheville JC, Sebo TJ, Lager DJ, Bostwick DG, Farrow GM. Leydig cell tumor of the testis: a clinicopathologic, DNA content, and MIB-1 comparison of nonmetastasizing and metastasizing tumors. Am J Surg Pathol. 1998;22:1361-1367. (19.) Gupta SK, Francis IM, Al-Rubah NA, Das DK. Intranuclear Reinke's crystals in a testicular Leydig cell tumor diagnosed by aspiration cytology: a case report. Acta Cytol. 1994;38:252-256. (20.) Hribar KP,Warner NE, Sherrod AE. Cytologic identification of Reinke crystalloids in scrapings and imprints of fresh testicular tumors: a simple and rapid technique for intraoperative use. Arch Pathol Lab Med. 2005;129:e65-e66. (21.) Ghadially FN. Ultrastructural Pathology of the Cell and Matrix. 4th ed. Boston, Mass: Butterworth-Heinemann; 1997. (22.) Iczkowski KA, Bostwick DC, Roche PC, et al. Inhibin in·hib·in n. A peptide hormone secreted by the follicular cells of the ovary and the Sertoli cells of the testis that inhibits secretion of follicle stimulating hormone from the anterior pituitary. A is a sensitive and specific marker to testicular sex cord-stromal tumors. Mod Pathol. 1998;11:774. (23.) Augusto D, Leteurtre E, De La Taille A, Gosselin B, Leroy X. Calretinin: a valuable marker of normal and neoplastic Leydig cells of the testis. Appl Immunohistochem Mol Morphol. 2002;10:159-162. (24.) Busam KJ, Iversen K, Coplan KA, et al. Immunoreactivity for A103, an antibody to Melan-A (Mart-1), in adrenocortical and other steroid tumors. Am J Surg Pathol. 1998;22:57-63. (25.) McCluggage WG, Shanks JH, Whiteside C, Maxwell P, Banerjee SS, Biggart JD. Immunohistochemical study of testicular sex cord-stromal tumors, including staining with anti-inhibin antibody. Am J Surg Pathol. 1998;22:615-619. (26.) Tanaka Y, Carney JA, Ijiri R, et al. Utility of immunostaining for S-100 protein subunits in gonadal gonadal pertaining to or arising from a gonad. See also testicular, ovarian. gonadal cords cords formed by epithelial cells which migrate from the mesonephric tubules in the embryo to the gonadal ridge and establish the indifferent sex cord-stromal tumors with emphasis on the large-cell calcifying Sertoli cell tumor of the testis. Hum Pathol. 2002;33:285-289. (27.) Midendorff R, Davidoff MS, Mayer B, Holstein AF. Neuroendocrine characteristics of human Leydig cell tumours. Andrologia. 1995;27:351-355. (28.) Knudsen JL, Savage A, Mobb GE. The testicular 'tumour' of adrenogenital syndrome: a persistent diagnostic pitfall. Histopathology. 1991;19:468-470. (29.) Chandak P, Shah A, Taghizadeh A, Tiptaft R, Dasgupta P. Testis-sparing surgery for benign and malignant testicular tumours. Int J Clin Pract. 2003;57: 912-913. (30.) Bertram KA, Bratlof B, Hodges GF, Davidson H. Treatment of malignant Leydig cell tumor. Cancer. 1991;68:2324-2329. (31.) Mineur P, De Cooman S, Hustin J, et al. Feminizing testicular Leydig cell tumor: hormonal profile before and after unilateral orchidectomy orchidectomy /or·chi·dec·to·my/ (or?ki-dek´tah-me) orchiectomy. orchidectomy see orchiectomy. . J Clin Endocrinol Metab. 1987;64:686-691. Accepted for publication September 6, 2006. Osama M. Al-Agha, MD; Constantine A. Axiotis, MD From the Department of Pathology, State University of New York (body) State University of New York - (SUNY) The public university system of New York State, USA, with campuses throughout the state. , Downstate Medical Center at Brooklyn. The authors have no relevant financial interest in the products or companies described in this article. Reprints: Osama M. Al-Agha, MD, Department of Pathology, State University of New York Downstate Medical Center, 450 Clarkson Ave, Box 25, Brooklyn, NY 11203 (e-mail: osama.al-agha@downstate.edu, droalagha@yahoo.com).
Distinction Between Leydig Cell Tumor of the Testis and Other
Testicular Neoplasms *
Seminoma Yolk Sac Tumor
Average age 30-40 Pure: Infants/
range, y children <3
Mixed: 20-30
Characteristic Homogenous, Nonencapsulated,
gross features grey-white (tan or homogenous, tan,
cream colored), yellow-white mass.
devoid of Usually smaller
hemorrhage or than seminoma. If
necrosis (if pure mixed, areas of
seminoma). usually hemorrhage and
replaces the entire necrosis can be
testicular present.
parenchyma.
Histopathology Uniformly round cells, Cuboidal or elongated
clear abundant cells in reticular,
cytoplasm with microcystic,
"squaring," large papillary patterns.
central nucleus with Schiller-Duval bodies
single or multiple are pathognomonic.
nucleoli. Cells are
arranged in sheet or
multinodular growth
pattern with
intervening fibrous
septa infiltrated by
lymphocytes.
Syncytiotrophoblasts
can be present.
Laboratory tests Serum PLAP can be Serum AFP is elevated.
elevated. Serum hCG
can be elevated (if
trophoblasts are
present).
Immunopanel
Positive PLAP Cytokeratin
CD117 (c-Kit) AFP
OCT-4
hCG (if trophoblastic
component is present)
Negative Cytokeratin EMA
EMA CD30
AFP Inhibin
CD30 Melan-A
Inhibin Calretinin
Calretinin
Melan-A
Testicular Tumor of
Adrenogential
Syndrome Leydig Cell Tumor
Average age Any age. Usually occurs Any age. Peaks in age
range, y in conditions with range of 5-10 and
ACTH elevation. 30-50
Characteristic Nodules with brown cut Homogenous,
gross features surface. Bilateral well-circumscribed
and multifocal. mass (3-5 cm) with
white to yellow to
brown cut surface.
Unilateral and
solitary.
Histopathology Polygonal cells in nest Polygonal cells with
or sheet growth eosiniphilic
pattern with cytoplasm, round
eosinophilic, finely nuclei with prominent
granular, abundant nucleoli. Cells can
cytoplasm and central be sarcomatoid.
round nuclei with Intracytoplasmic
prominent nucleoli. lipofuscin pigment
Tumor nodules are and Reinke crystals.
separated by fibrous The cells are
bands. Cells contain arranged in nests,
abundant lipofuscin sheets, or trabecula.
pigment. Reinke Microcystic growth
crystals are pattern had been
characteristically described.
absent.
Laboratory tests Serum ACTH and Androgens OR estrogens
androgens are are elevated.
elevated. Serum ACTH is low.
Immunopanel
Positive Inhibin ([dagger]) Inhibin
Calretinin ([dagger]) Calretinin
Melan-A ([dagger]) Melan-A
Vimentin ([dagger]) Vimentin
S100 (+/-)
Synaptophysin (+/-)
Negative Cytokeratin ([dagger]) Cytokeratin
AFP ([dagger]) AFP
PLAP ([dagger]) PLAP
hCG ([dagger]) hCG
Sertoli Cell Tumor
Average age 15-85, peaks in age of
range, y 45
Characteristic Homogenous,
gross features well-circumscribed,
mass with grey-white
to yellow cut
surface.
Histopathology Tubles or cords in
nested or diffuse
arrangement lined by
monolayer of low
columnar cells with
oval nuclei. Can be
either pure or
intermixed with
Leydig cell tumor
(Sertoli-Leydig cell
tumor).
Laboratory tests Androgens OR estrogens
are elevated.
Immunopanel
Positive Inhibin
Vimentin
EMA
Cytokeratin (+/-)
Negative AFP
PLAP
hCG
* ACTH indicates adrenocorticotrophic hormone; PLAP, placental
alkaline phosphatase; hCG, human chorionic gonadotropin; AFP,
[alpha]-fetoprotein; and EMA, epithelial membrane antigen.
([dagger]) Similar to the immunopanel of Leydig cell tumor.
Immunohistochemistry is not helpful in the distinction.
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