Summary
Granulosa cell tumors (GCTs) constitute 70% of all sex-cord stromal tumors of the ovary and 1-2% of all ovarian cancers. A 19-year-old gravida 1, para 1 woman was admitted to our institution with abdominal distension. No ovarian mass had been detected during routine ultrasonographic examinations in our institution throughout her pregnancy, and one year had passed since her delivery by cesarean section. On admission, a painless ovarian mass was detected in the left ovary measuring 7x7x5 cm. Left salpingo-oophorectomy was performed during staging surgery. The case was stage-IIIB according to the FIGO staging system. Pathological examination revealed the diagnosis of juvenile GCT. We report this rare case with the aim of pointing out the possibility of unexpected aggressive behavior of juvenile GCT of the ovary over an approximately one-year period.Introduction
Granulosa cell tumors (GCTs) are uncommon, accounting for about 1-2% of all ovarian malignancies. Two distinct types exist, known respectively as adult and juvenile.[1] Juvenile granulosa cell tumor (JGCT) is one of the rare sex cord stromal tumors of the ovary usually occurring in the first two decades of life.[1] It is different from the adult granulosa cell tumor seen in older women with regard to clinical and pathological features as well as biological behavior.[2] Most patients with FIGO stage I JGCT have a favorable prognosis when treated with surgery alone. However, the prognosis for advanced-stage JGCT is poor. Few reports have been published related with an agressive bahavior and rapid progression of juvenile GCT, although many series of early stage GCTs have been reported in the literature. Our objective is to describe the clinical and pathological findings of one case of advanced stage juvenile granulosa cell tumor in a woman following shortly after term pregnancy, whose antenatal period was free of any sonographically detectable tumor.Case Presentation
A 19-year-old woman presented with a onemonth history of abdominal swelling and pain. She was gravida 1, parity 1 with a 1 year-old child. She delivered by cesarean section at 38th weeks of gestation. During her antenatal period, we did not observe any ovarian mass on ultrasonographic examinations. Upon admission to the emergency unit, she was referred to the radiology for an abdominal ultrasound examination which revealed 73x60 mm in diameter, heterogeneous, ill-defined bordered mass with solid and cystic components located in the left ovary (Figure 1, 2). Also massive intraabdominal ascite and heterojenity on major omentum were found during abdominal tomography (Figure 3). CA-125 was slightly elevated to 39.9 U/mL (normal 35 U/mL). While inhibin was not ordered in pre-operative period, other tumor markers (CA19-9, CA15-3, AFP, CEA) were in normal limits. The patient underwent an exploratory laparotomy. At the surgical staging, eight liters of ascites was aspirated and a 10x9x9 cm in diameter, lobular, with papillary projections on surface and white-qray in color, heterogenous mass with solid and cystic components in the left ovary was found. Left salpingooophorectomy, partial omentectomy, removal of implants on peritoneal surfaces and peritoneal cytology were performed. Also during exploration, multicystic and firm nature of the right ovary was detected and wedge resection was performed. The rest of the abdomen, including all peritoneum was explored. Multiple intraabdominal metastases with <2 cm in diameter, on the peritoneal surfaces of bladder and douglas were excised. Partial omentectomy was also performed due to suspicious omental metastatic implants. The uterus and bilateral tubes were normal. The cell block on the ascitic fluid was positive for atypical cells. Pathological report confirmed the diagnosis of JGCT with all excised peritoneal materials were invaded by the tumor in addition to the mature adipose tissue observed on omentum. On microscopic examination, the neoplastic granulosa cells were lining cystic follicles and on immunohistochemical staining, inhibin activity was found to be positive. She was placed in FIGO stage IIIB. Six cycles of chemotherapy was planned as adjuvant theraphy and she is still under regular follow-up.;){kind=link}
;){kind=link}
;){kind=link}
Discussion
Juvenile granulosa cell tumors (JGCTs), found in only 5% of all granulosa cell neoplasms, are rare ovarian tumors and it is important that all gynecologic oncologists should be aware of this rare tumor, its clinical presentation, and appropriate surgery.Adnexal masses during pregnancy are relatively rare, with a reported incidence of 1/81 to 1/8,000 pregnancies.[3] Most of these adnexal masses disappear as the pregnancy progresses. Ultrasonography is often useful in detecting pelvic masses and distinguishing cystic and solid features. The ultrasonographic detection rate for adnexal masses during pregnancy is approximately 1%.[4] However, some adnexal masses are relatively difficult to diagnosed due to the mass itself, the imaging quality, or the experience of the sonographer.
Generally GCTs are characterized by a low malignant potential, local spread, late recurrences and a high survival rate. About 80% JGCTs occurring in children result in isosexual precocity. After puberty, the JGCTs usually present with abdominal pain or swelling. Likewise abdominal distension, as in our patient, due to the tumoral mass and ascite was the presenting symptom without any endocrinological abnormality.
The majority of JGCTs are unilateral and early stage tumors, whereas advanced stage JGCTs are not commonly encountered. Our patient was diagnosed in stage IIIB and the disease was progressed or occured during the last one year of period. Since we performed routine ultrasonographic evaluations several times in antenatal period, we know that our case did not have any adnexial mass during her pregnancy. Advanced stage JGCTs reported in the literature were diagnosed after the beginning of symptoms so in these cases we do not have any knowledge regarding how long these tumors had been present. However we can consider that, in our patient the tumoral mass has been present or progressed or occured for last one year of period, since it is now one year that the woman has delivered.
The primary management of JGCTs is surgical[5] and in young girls with stage IA disease, a unilateral salpingooophorectomy is performed, as the majority of the JGCTs are unilateral. At laparotomy, a careful inspection of the contralateral tube, intraabdominal organs, and peritoneal surfaces, along with the sampling of pelvic plus paraaortic lymph nodes is recommended.[6] Since contralateral ovarian involvement is uncommon, wedge biopsy is not necessary if the ovary appears grossly normal. Complete primary surgical staging included at least a unilateral salpingooophorectomy with pelvic washings, peritoneal assessment, partial omentectomy, and pelvic and paraaortic lymph node sampling performed at initial surgery or within 3 months from the initial surgery were also recommended.[6] In the present patient, left salpingooophorectomy, partial omentectomy, wedge resection of right ovary, removal of implants on peritoneal surfaces and peritoneal cytology were performed and retroperitoneal lymph node sampling, though not performed, would have been appropriate.
Chemotherapy should be initiated promptly for women with stage IC to IV JGCTs after surgery. And the most commonly used regimen is a combination of bleomycin, etoposide, and cisplatin (BEP). Etoposide and cisplatin (EP); cyclophosphamide, doxorubicin, and cisplatin (CAP); platinum agent alone or taxanes also seem to be effective in sex cord stromal tumors of the ovary. [7] Radiotherapy, though not very effective, may be used for patients with advanced or recurrent JGCTs.[8] In the present case, she underwent BEP chemotherapy in our oncology department and she did not complete her planned chemotheraphy, yet.
Although not reported in JGCTs, a limited number of recent studies have demonstrated a response to hormonal treatment in adult GCTs. For example, Freeman and Modesitt[9] reported two patients with recurrent adult GCTs responding to the aromatase inhibitor, anastrozole. Hardy et al.[10] also reported a patient with estrogen receptor-negative and progesterone receptor-positive GCT responding to megestrol and tamoxifen. Although these results are encouraging, all are limited number of studies in adult GCTs and we can not consider these reported treated cases as routine regimens.
GCTs are considered to be of low malignant potential and are characterized by their slow growth and late recurrence. Stage is clearly the most important prognostic factor. The reported 5-year survival rate for patients with stage I disease ranges from 75% to 90%. However advanced FIGO stages are associated with early relapses and poor outcome.[9]
A number of recent studies have evaluated the significancy of prognostic factors in GCTs. In this regard, gsp oncogene (derived from Gs protein) and its products, activating the cAMP-dependent signalling and leading to abnormal cell proliferation, were demonstrated in 30% juvenile GCT cases.[10] In these gsp-positive patients, a more aggressive pattern were observed. Additionally, another predictor factor for JGCT survival was considered as Forkhead box L2 (FOXL2) protein.[11] In agressive JGCTs, FOXL2 expression was found to be absent or decreased.[11] Unfortunately, we did not have any opportunity in our patient for evaluating the presence of these gene products and by this way for yielding the very agressive and rapid progression of the mentioned tumor.
As a result, we can conclude that; although these tumors are seen in early stages and agressive pattern is generally not expected, our patient was diagnosed at advanced stage and the disease can be accepted as occured or progressed in only last one year. Due to this feature, as long as our knowledge, it was the first reported case regarding the occurence history of the juvenile granulosa cell tumor in adult.
References
1) Rosai J, Ackerman LV. Female reproductive system.
Surgical pathology. Edinburgh' Mosby 2004. p. 1692-5.
2) Hines JF, Khalifa MA, Moore JL, Fine KP, Lage JM,
Barnes WA. Recurrent granulosa cell tumor of the ovary
37 years after initial diagnosis: a case report and review
of the literature. Gynecol Oncol 1996;60(3):484-8.
3) Whitecar MP, Turner S, Higby MK. Adnexal masses in
pregnancy: a review of 130 cases undergoing surgical
management. Am J Obstet Gynecol 1999;181(1):19-24.
4) Bromley B, Benacerraf B. Adnexal masses during
pregnancy: accuracy of sonographic diagnosis and outcome.
J Ultrasound Med 1997;16(7):447-54.
5) Young RH, Scully RE. Sex cord stromal, steroid cell
and other ovarian tumors. In: Kurman RJ, editor.
Blaustein's pathology of female genital tract. 5th ed.
New York: Springer; 2002. p. 917-21.
6) Abu-Rustum NR, Restivo A, Ivy J, Soslow R, Sabbatini
P, Sonoda Y, et al. Retroperitoneal nodal metastasis
in primary and recurrent granulosa cell tumors of the
ovary. Gynecol Oncol 2006;103(1):31-4.
7) Brown J, Shvartsman HS, Deavers MT, Burke TW,
Munsell MF, Gershenson DM. The activity of taxanes
in the treatment of sex cord-stromal ovarian tumors. J
Clin Oncol 2004;22(17):3517-23.
8) Wolf JK, Mullen J, Eifel PJ, Burke TW, Levenback C,
Gershenson DM. Radiation treatment of advanced or
recurrent granulosa cell tumor of the ovary. Gynecol
Oncol 1999;73(1):35-41.
9) Calaminus G, Wessalowski R, Harms D, Göbel U. Juvenile
granulosa cell tumors of the ovary in children
and adolescents: results from 33 patients registered
in a prospective cooperative study. Gynecol Oncol
1997;65(3):447-52.