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Pancreatoblastoma in an Adult Woman: Sonography, CT, and Dynamic Gadolinium-Enhanced MRI Features

¹ Division of Abdominal Imaging and Intervention, Department of Radiology, Brigham and Women's Hospital, Harvard Medical School, 75 Francis St., Boston, MA 02115.
² Department of Pathology, Brigham and Women's Hospital, Harvard Medical School, Boston, MA 02115.

Received April 15, 2004; accepted after revision June 30, 2004.

 
Address correspondence to J.L. Rosebrook, MD.

Introduction

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Pancreatoblastoma is a rare primary pancreatic neoplasm that predominantly affects young children, with approximately 100 pediatric cases reported in the medical literature. The tumor also has been reported in 16 adults. In 2000, Montemarano et al. [1] described the multimodality imaging features of pancreatoblastoma in a 10-patient series, including one of the two adult cases from radiology literature. We report the sonographic, contrast-enhanced CT, and dynamic gadolinium-enhanced MRI correlative findings of a histologically proven pancreatoblastoma in a 29-year-old woman. To our knowledge, this is the third adult case presented in the radiology literature and the first report of dynamic gadolinium-enhanced MRI features.

Case Report

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A 29-year-old asymptomatic African American woman was seen after a newly converted positive purified protein derivative skin test for tuberculosis. Results from a screening chest X-ray were normal. The patient's medical history and physical examination were unremarkable. Before standard treatment with isoniazid was administered, screening tests were performed that showed slightly elevated liver aminotransferases. Total and direct bilirubin, complete blood count, blood chemistries, and pancreatic enzymes were normal. Serum -fetoprotein level was not obtained. The patient denied previous episodes of pancreatitis; however, during the course of the examinations, the patient developed abdominal pain that kept her awake at night.

A contrast-enhanced abdominal and pelvic CT was performed to evaluate the findings and symptoms. A well-defined, heterogeneously dense 2.0 x 1.8 cm enhancing mass with solid and cystic components was identified within the body of the pancreas (Fig. 1A). No significant surrounding inflammatory stranding or visible connection to the normal pancreatic duct was found. No evidence of vascular invasion, distant metastasis, or associated lymphadenopathy was present. Given the imaging characteristics, age, history, and sex of the patient, a solid pseudopapillary tumor of the pancreas was the most likely presumptive diagnosis.

View larger version (112K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1A. —29-year-old woman with pancreatoblastoma. Contrast-enhanced axial CT image shows a well-defined mass (white arrow) with cystic and enhancing solid components in the body of the pancreas.

Subsequent abdominal sonography revealed a similar sized, well-circumscribed mass in the body of the pancreas with internal echoes and a hyperechoic rim demonstrating Doppler flow (Fig. 1B).

View larger version (42K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1B. —29-year-old woman with pancreatoblastoma. Sonographic image of the pancreas body shows a well-defined, hypoechoic mass (white arrow) and hyperechoic rim demonstrating Doppler flow.

MR images showed a well-circumscribed mass within the body of the pancreas with a 3-mm-thick rim that demonstrated intermediate signal intensity on T1-weighted images and low signal intensity T2-weighted images (Figs. 1C and 1D). Centrally, the mass showed low to intermediate signal intensity on T1-weighted sequences and high signal intensity on T2-weighted images, suggesting a cystic component. After IV gadolinium contrast was administered, dynamic imaging showed that the rim displayed rapid arterial phase enhancement and late washout (Figs. 1E, 1F, 1G, 1H). The mass did not enhance centrally, again suggesting a cystic lesion or a component of necrosis. Mild increased T2 signal and contrast enhancement of the surrounding pancreatic parenchyma suggested an element of mild pancreatitis. Again, the MRI characteristics were thought to be most consistent with a solid pseudopapillary tumor of the pancreas. A less likely consideration included an atypical cystic, nonfunctioning pancreatic endocrine tumor.

View larger version (117K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1C. —29-year-old woman with pancreatoblastoma. T2-weighted image shows pancreatic mass with a 3-mm-thick low signal rim (black arrow) and high signal center (white arrow), indicating a cystic component.

View larger version (119K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1D. —29-year-old woman with pancreatoblastoma. Unenhanced fat saturated T1-weighted image shows pancreatic mass with intermediate signal rim (black arrow) and low to intermediate signal intensity centrally (white arrow).

View larger version (106K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1E. —29-year-old woman with pancreatoblastoma. Dynamic contrast-enhanced fat saturated T1-weighted images in arterial (E), portal (F), and equilibrium phases (G) show early and persistent enhancement within rim of pancreatic mass. Central portion of mass does not enhance.

View larger version (113K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1F. —29-year-old woman with pancreatoblastoma. Dynamic contrast-enhanced fat saturated T1-weighted images in arterial (E), portal (F), and equilibrium phases (G) show early and persistent enhancement within rim of pancreatic mass. Central portion of mass does not enhance.

View larger version (106K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1G. —29-year-old woman with pancreatoblastoma. Dynamic contrast-enhanced fat saturated T1-weighted images in arterial (E), portal (F), and equilibrium phases (G) show early and persistent enhancement within rim of pancreatic mass. Central portion of mass does not enhance.

View larger version (29K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1H. —29-year-old woman with pancreatoblastoma. Time-intensity curves of the enhancement pattern show the rim of the mass and demonstrate early and persistent enhancement more than normal pancreatic parenchyma, with little enhancement centrally.

Surgical resection of the pancreatic mass by distal pancreatectomy revealed a 2.5-cm well-circumscribed intrapancreatic mass with extensive central tissue degeneration and necrosis (Fig. 1I). Microscopically, a peripheral rim of residual viable tumor was composed of sheets, nests, and trabeculae of small epithelioid cells, with minimal nuclear pleomorphism and a low mitotic rate (Fig. 1J). Some foci showed cytomorphologic features of acinar differentiation, with polarization and granular cytoplasm; rudimentary ductal structures were present in other areas. Scattered whorled nests of polygonal to spindled cells with abundant eosinophilic cytoplasm or squamoid corpuscles were also noted.

View larger version (102K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1I. —29-year-old woman with pancreatoblastoma. Gross photograph of tumor shows a well-circumscribed solid mass (arrow) with central necrosis.

View larger version (162K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1J. —29-year-old woman with pancreatoblastoma. Photomicrograph of viable portion of tumor shows tumor cells arranged in nests and trabeculae with focal glandular features (arrow). (H and E, x 100)

Immunohistochemistry showed the tumor cells were positive for cytokeratins (CAM5.2, CK19, CK7), neuroendocrine markers (NSE, chromogranin, synaptophysin, and Leu-7), acinar markers (-1-antitrypsin and -1-anti-chymotrypsin) for CEA and ß-catenin. Tumor cells stained negative for CK20, p63, 34BE12, and vimentin.

The morphologic and immunophenotypic features, together with evidence of mixed acinar, ductal, endocrine differentiation, squamoid corpuscles, and focal aberrant nuclear staining for ß-catenin, supported a diagnosis of pancreatoblastoma.

Discussion

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Pancreatoblastoma is a rare primary tumor of the pancreas most commonly seen in patients 1 to 8 years of age; however, rare cases have been reported [1, 2] in neonates and adults. Although most cases are sporadic, a congenital form is associated with Beckwith-Wiedemann syndrome [3, 4]. Pancreatoblastoma is slightly more predominant in men and two-thirds of cases in the medical literature have occurred in patients of Asian descent [2].

Pancreatoblastomas have been well described in the surgical pathology literature. The largest case series was reported by Klimstra et al. [4], with 14 new and 41 previously reported cases. Pancreatoblastomas are typically composed of a mixture of primitive acinar, endocrine, islet cell, and ductal elements, reminiscent of the incompletely differentiated fetal pancreas at 7 weeks' gestation [1, 4]. There is no apparent predilection for the pancreatic head, body, or tail. Grossly, tumors are partially circumscribed with varying consistency, necrosis, and calcification. Many have grossly cystic components [3]. Local extension, vascular, and perineural invasion have been reported [4]. Tumors most often stain positively for pancreatic enzymes, endocrine markers, and carcinoembryonic antigen. The presence of squamoid corpuscles, a loose aggregate of larger epithelioid cells of uncertain lineage, is a consistent morphologic feature [4].

Pancreatoblastomas are often slow growing and relatively asymptomatic. At presentation, the most common complaints are the presence of an abdominal mass (50%) and abdominal pain (43%) [2]. Other presenting signs and symptoms are usually a result of secondary mass effects on adjacent organs.

Elevated -fetoprotein is the most common abnormal serological marker, seen in up to one-third of pediatric cases [2]. Elevated lactate dehydrogenase, -1 antitrypsin, and CA 19-9 have also been associated with pancreatoblastoma [2, 4].

Surgical resection is the treatment of choice for localized tumors and survival in pediatric cases without metastases is excellent; however, 37% of cases present with metastatic disease, and treatment is supplemented by chemotherapy and radiation [4]. In one series, the median survival of patients who died of tumor was 17 months [4]. The liver is the most common site for metastasis; however, bone, pulmonary, peritoneal, and mediastinal metastases have also been described. Overall, adults with pancreatoblastoma have a poorer prognosis than children, with a 3-year survival in less than 50% of patients [2]. In cases with metastases, pediatric tumors appear less aggressive microscopically and respond better to treatment than pancreatoblastomas in adults.

Imaging features of pancreatoblastoma have been infrequently described, with 13 cases reported in the radiology literature. The majority of these describe findings in children, except Montemarano et al. [1] and Gruppioni et al. [5]. Montemarano et al.'s 10-patient series included the first adult case, a 20-year-old woman with a large, well-circumscribed, heterogeneous mass in the head of the pancreas with pancreatic ductal and intrahepatic biliary dilatation. Gruppioni et al. [5] report the second adult case in a 30-year-old man whose CT showed a well-defined, 8-cm mass in the head of the pancreas that was heterogeneous on sonography and showed local vascular invasion by conventional angiography.

Montemarano et al.'s series is the largest reported in the radiology literature and their findings suggest that the majority of pancreatoblastomas are large, well defined, at least partially circumscribed, and heterogeneous masses with low to intermediate signal intensity on T1-weighted images and high signal intensity on T2-weighted images. Enhancement is a common feature on contrast-enhanced CT and MR images. Lee et al. [6] review findings in four pediatric patients and described well or partially defined tumors with low attenuation multiloculated elements and enhancing septa on CT and mixed echotexture with sonography. Roebuck et al. [7] describe similar primary tumor findings using CT and unenhanced MRI in four children. No studies suggest significant differences in the imaging findings of adult versus pediatric patients.

Our case displayed some typical and atypical features of pancreatoblastoma. Its small size was atypical given that more than 85% of pancreatoblastomas reported measure 8 cm or more at presentation [4]. In addition, this tumor possessed a well-defined rim of soft tissue demonstrating Doppler flow and contrast enhancement by CT. On dynamic gadolinium-enhanced MRI sequences, the rim showed rapid arterial phase enhancement with late washout, indicating its vascular nature. In contrast, the mass contained central areas of high T2 signal that showed no enhancement. These findings correlated well with the pathology report that described vascular and viable tumor peripherally with areas of cystic necrosis centrally.

Although this case report primarily documents the imaging findings of a rare neoplasm, it also expands the pathologic considerations of primary solid and cystic neoplasms in the adult pancreas. Pancreatoblastoma is at the forefront of the differential diagnosis for primary pancreatic neoplasms in the pediatric population because of its relative frequency in this age group. In adults, however, more common etiologies for a solid and cystic pancreatic mass include a solid pseudopapillary tumor, microcystic serous adenoma, mucinous cystic tumor, intraductal papillary mucinous tumor, or a nonfunctioning islet cell tumor of the pancreas [8]. Although the relative prevalence, sex, age distribution, and clinical presentation may provide additional clues, overlap remains in the spectrum of radiologic findings. It is clear that, although rare, pancreatoblastoma falls within this spectrum and its inclusion in the differential diagnosis of solid and cystic pancreatic neoplasms in an adult should be considered.

References

Top Introduction Case Report Discussion References

 

1. Montemarano H, Lonergan G, Bulas D, Selby D. Pancreaticoblastoma: imaging findings in 10 patients and review of the literature. Radiology2000; 214:476 -482[Abstract/Free Full Text]
2. Du E, Katz M, Weidner N, Yoder S, Moosa AR, Shabaik A. Ampullary pancreatoblastoma in an elderly patient: a case report and review of the literature. Arch Pathol Lab Med2003; 127:1501 -1505[Medline]
3. Kohda E, Iseki M, Ikawa H, et al. Pancreatoblastoma: three original cases and review of the literature. Acta Radiol2000; 41:334 -337[Medline]
4. Klimstra DS, Wenig BM, Adair CF, Hefess CS. Pancreatoblastoma: a clinicopathologic study and review of the literature. Am J Surg Pathol 1995;12:1371 -1389
5. Gruppioni F, Casadei R, Fusco F, Calculli L, Marrano D, Gavelli G. Adult pancreatoblastoma. A case report. Radiol Med (Torino) 2002;103:119 -122
6. Lee JY, Kim IO, Kim WS, et al. CT and US findings of pancreatoblastoma. J Comput Assis Tomogr1996; 20:370 -374
7. Roebuck DJ, Yuen MK, Wong YC, Shing MK, Lee CW, Li CK. Imaging features of pancreatoblastoma. Pediatr Radiol2001; 31:501 -506[Medline]
8. Cantisani V, Mortele KJ, Levy A, et al. MR imaging features of solid and pseudopapillary tumor of the pancreas in adult and pediatric patients. AJR2003; 181:395 -401[Abstract/Free Full Text]

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This Article Figures Only Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via Google Scholar Google Scholar Articles by Rosebrook, J. L. Articles by Mortele, K. J. Search for Related Content PubMed PubMed Citation Articles by Rosebrook, J. L. Articles by Mortele, K. J. Social Bookmarking                      What's this?