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Intraductal Papillary Mucinous Tumors of the Pancreas

¹ All authors: Department of Radiology, Beth Israel Deaconess Medical Center, 330 Brookline Ave., Boston, MA 02215.

Received May 11, 2000; accepted after revision June 28, 2000.

 
Address correspondence to M. T. Keogan.

Introduction

Top Introduction Clinical Features Pathology Imaging Conclusion References

 
The term "intraductal papillary mucinous tumor of the pancreas" has been introduced as a unifying label for mucin-producing pancreatic neoplasms previously referred to as papillary and villous adenomas, mucinous duct ectasia, and mucin-producing adenomas and carcinomas with or without invasion. Unique clinical, radiologic, and pathologic characteristics of intraductal papillary mucinous tumors of the pancreas have been described [1]. Radiologic examination is necessary for treatment planning because imaging features may indicate the site of tumor origin in the pancreas in addition to extent of spread.

Clinical Features

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Intraductal papillary mucinous tumors of the pancreas are observed predominantly in men between 60 and 80 years old and occur most often in the pancreatic head [2]. Small intraductal tumors are typically discovered incidentally at cross-sectional imaging performed for other indications. The nonspecific and indolent nature of presentation often delays accurate diagnosis [2, 3]. Presenting symptoms of larger tumors mimic those of chronic pancreatitis, particularly episodic epigastric pain occasionally radiating to the back. Additional signs and symptoms of advanced disease include abdominal mass, diarrhea, diabetes, and weight loss. Intraductal papillary mucinous tumors have a low potential for malignancy, and multiple clinicopathologic reviews of these tumors reveal slow growth rates, rare parenchymal invasion, and low rates of metastatic spread and recurrence after resection [4]. Preoperative diagnosis is based on clinical presentation and characteristic imaging findings. The role of cytologic analysis has not been defined. The low but definite potential for malignancy of these lesions implies that surgical resection is the preferred method of treatment [2].

Pathology

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Intraductal papillary mucinous tumors (IPMTs) of the pancreas arise in the pancreatic ducts and have been described in all pancreatic duct segments [5]. Tall mucin-producing columnar epithelial cells lining the pancreatic ducts become hyperplastic and subsequently dysplastic. The dysplastic cells proliferate and form papillary projections that protrude into and expand the pancreatic duct, remaining isolated in either the main pancreatic duct or branch ducts or extending from one portion of the pancreatic ductal tree to another [3]. Duct obstruction may be a result of tenacious mucin plugs or ductal compression by cystic masses (Fig. 1). Long-term obstruction of the main pancreatic duct leads to atrophy and fibrosis mimicking chronic pancreatitis.

View larger version (101K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1. —77-year-old man with epigastric pain. Coronal MR cholangiopancreatogram (TR/TE, 2800/1100) shows cystic dilatation of side-branch duct within uncinate process. Note large filling defect that represents mucin plug (arrow).

IPMT is classified into main and branch duct types [6] (Fig. 2A,2B,2C,2D). Side-branch duct involvement alone (Fig. 3) is typically associated with benign adenomas manifesting as localized cystic parenchymal lesions. Main pancreatic duct involvement alone presents as diffuse ductal dilatation, gross mucin production, and micropapillary studding (Fig. 4A,4B), and is typically associated with malignancy [7].

View larger version (97K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2A. —70-year-old man with chronic abdominal pain. Axial contrast-enhanced CT scans show dilated main pancreatic duct (MPD) and cystic dilatation of side-branch ducts (SB) in pancreatic head.

View larger version (96K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2B. —70-year-old man with chronic abdominal pain. Axial contrast-enhanced CT scans show dilated main pancreatic duct (MPD) and cystic dilatation of side-branch ducts (SB) in pancreatic head.

View larger version (120K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2C. —70-year-old man with chronic abdominal pain. Coronal oblique CT reconstruction reveals dilated side-branch duct (arrowhead) and main pancreatic duct (arrow).

View larger version (134K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2D. —70-year-old man with chronic abdominal pain. Endoscopic retrograde cholangiopancreatogram reveals diffuse involvement both main and side-branch ducts.

View larger version (149K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 3. —53-year-old woman with weight loss. Endoscopic retrograde cholangiopancreatogram shows normal-caliber main pancreatic duct with innumerable dilated side-branch ducts (arrows).

View larger version (128K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 4A. —77-year-old man with jaundice. Axial contrast-enhanced CT scan shows complete replacement of pancreatic head by cystic lesion (arrow).

View larger version (145K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 4B. —77-year-old man with jaundice. Endoscopic retrograde cholangiopancreatogram corresponding to A reveals narrowed main pancreatic duct with upstream duct dilatation and filling of single cystic lesion. Large cystic lesion visualized on CT scan is not opacified. Note malignant transformation was seen in resected specimen but could not be inferred from pre-operative imaging findings.

The presence of malignancy and degree of invasion cannot be reliably determined pre-operatively by imaging (Fig. 4A,4B) or cytologic analyses. However, MR imaging features of malignancy, including filling defects, diffuse main duct dilatation larger than 15 mm (main duct type), or segmental duct dilatation (branch duct type) have been suggested [6]. Intraoperative diagnosis of malignancy and determination of surgical margins is achieved by frozen section analysis.

Imaging

Top Introduction Clinical Features Pathology Imaging Conclusion References

 
CT
CT is often the initial modality with which IPMT is suspected or diagnosed, although clinical and imaging findings of chronic pancreatitis may obscure the correct diagnosis. Dysmorphic calcifications may be seen in mucinous collections in the dilated main pancreatic duct. Grapelike clusters of involved side-branch ducts may also be revealed. Thin-section contrast-enhanced CT and multiplanar reconstructions may best reveal communications between cystic dilated segments and the main pancreatic duct (Fig. 5A,5B,5C). Mucin globs and gaping papillae may be seen as filling defects within the dilated ducts and duodenal lumen, respectively (Fig. 6). Septa and excrescent nodules seen along the dilated duct have been described as a feature of the main pancreatic duct type of IPMT on CT.

View larger version (136K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 5A. —43-year-old man with symptoms of pancreatitis. Axial high-resolution contrast-enhanced CT scan (A) and CT oblique reconstruction (B) show cystic lesion contiguous with prominent main pancreatic duct.

View larger version (118K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 5B. —43-year-old man with symptoms of pancreatitis. Axial high-resolution contrast-enhanced CT scan (A) and CT oblique reconstruction (B) show cystic lesion contiguous with prominent main pancreatic duct.

View larger version (160K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 5C. —43-year-old man with symptoms of pancreatitis. Endoscopic retrograde cholangiopancreatogram reveals intraductal mucinous tumor (arrow).

View larger version (98K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 6. —Axial contrast-enhanced CT scan of 70-year-old man with abdominal pain reveals bulging ampulla (arrow) at duodenal sweep.

Endoscopic Retrograde Cholangiopancreatography
Endoscopic retrograde cholangiopancreatography (ERCP) was previously considered the gold standard for evaluation and diagnosis of IPMT lesions [3], although in contrast with MR imaging, the entire pancreatic ductal system may not be visualized with ERCP [6] (Fig. 7A,7B,7C,7D). On ERCP, real-time visualization of the patulous ampulla of Vater and abundant mucus production is diagnostic of this condition. Additionally, main pancreatic duct dilatation in the absence of proximal stricture and filling defects caused by mucus plugs in the pancreatic duct and communicating cystic lesions may be revealed on ERCP [6].

View larger version (129K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 7A. —72-year-old man with chronic pancreatitis. Endoscopic retrograde cholangiopancreatogram reveals dilated distal main pancreatic duct with communicating cystic lesion (arrow). Proximal main pancreatic duct is not seen.

View larger version (105K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 7B. —72-year-old man with chronic pancreatitis. T2-weighted axial MR image (TR/TE, 4.4/64) shows cysts in pancreatic head (arrow).

View larger version (98K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 7C. —72-year-old man with chronic pancreatitis. T2-weighted MR image at same level as B reveals extensive side-branch disease in body and tail (arrows).

View larger version (81K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 7D. —72-year-old man with chronic pancreatitis. MR cholangiopancreatogram (2800/1100) shows full extent of diffuse disease involving distal main pancreatic duct (wavy arrows) and side-branch ducts (straight arrows).

MR Imaging and MR Cholangiopancreatography
The high sensitivity to soft-tissue contrast and the multiplanar capability inherent in MR imaging enables visualization of the bile and pancreatic duct systems, thereby allowing identification of small clusters of dilated lateral side branches as well as the entire main pancreatic duct. MR imaging can reveal areas of ductal stenosis and dilatation, extent of associated cystic lesions, and communications between these cystic lesions and the ductal system. MR imaging is now considered superior to ERCP given the ability of MR imaging to reveal the full extent of ductal involvement, particularly when obstructing mucus prevents diagnostic opacification of the entire duct (Fig. 7A,7B,7C,7D). Filling defects caused by mucin and papillary projections may be shown [8] (Fig. 8). Standard anatomic imaging (T1- or T2-weighted) may also be performed to look for evidence of local spread (Fig. 9A,9B).

View larger version (104K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 8. —Axial T2-weighted MR image (TR/TE, 4.4/64) shows papillary excrescence (arrow) in cystic lesion in pancreatic head of 78-year-old woman with abdominal pain.

View larger version (111K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 9A. —77-year-old woman with weight loss. Axial T1-weighted MR image (TR/TE, 128/4.1) reveals low-signal-intensity side-branch duct cysts (arrows).

View larger version (101K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 9B. —77-year-old woman with weight loss. Axial T2-weighted MR image (4.4/64)at same level as A shows high signal of innumerable dilated side-branch duct cysts (arrows) emanating from normal-caliber proximal main pancreatic duct. No surrounding adenopathy is seen.

CT and MR imaging serve as adjuncts to the more invasive ERCP by revealing pancreatic masses and associated inflammatory changes, adenopathy, and metastatic disease, in addition to any associated vascular stenoses, thromboses, and occlusions.

Sonography and Intraoperative Sonography
Sonography may readily reveal one or multiple cystic pancreatic masses or ductal dilatations; however, echogenic mucin may make the tumor indistinguishable from the surrounding pancreatic parenchyma (Fig. 10A,10B,10C). Intraoperative sonography affords superior visualization of the pancreaticobiliary system and facilitates identification of cystic lesions and mural nodules (Fig. 11A,11B).

View larger version (125K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 10A. —77-year-old woman with weight loss. Sonograms show multiple cystic masses in region of pancreatic head (arrows, A) and tail (arrow, B).

View larger version (111K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 10B. —77-year-old woman with weight loss. Sonograms show multiple cystic masses in region of pancreatic head (arrows, A) and tail (arrow, B).

View larger version (86K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 10C. —77-year-old woman with weight loss. MR cholangiopancreatogram (TR/TE, 2800/1100) shows same findings as A and B.

View larger version (121K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 11A. —62-year-old woman with chronic epigastric pain. Intraoperative sonogram shows hypoechoic region (arrows) in head of pancreas.

View larger version (140K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 11B. —62-year-old woman with chronic epigastric pain. Axial contrast-enhanced CT scan reveals multicystic nature of abnormality in pancreatic head (arrow) better than A.

Conclusion

Top Introduction Clinical Features Pathology Imaging Conclusion References

 
IPMTs of the pancreas should be considered in the differential diagnosis of cystic pancreatic tumors with or without ductal dilatation and in the differential diagnosis of chronic pancreatitis. The diagnosis is suggested primarily by ERCP and MR imaging findings, although imaging may not reliably reveal the presence of malignancy. Because these tumors have malignant potential, surgical excision with frozen section analysis is advocated, followed by surveillance imaging.

References

Top Introduction Clinical Features Pathology Imaging Conclusion References

 

1. Warshaw AL, Compton CC, Lewandrowshi K, et al. Cystic tumors of the pancreas: new clinical, radiologic and pathologic observations in 67 patients. Ann Surg 1990;212:423 -445
2. Sugiyama M, Atomi Y. Intraductal papillary mucinous tumors of the pancreas: imaging studies and treatment strategies. Ann Surg 1998;228:685 -691[Medline]
3. Loftus EV, Olivares-Pakzad BA, Batts KP, et al. Intraductal papillary-mucinous tumors of the pancreas: clinicopathologic features, outcome, and nomenclature. Gastroenterology 1996;110:1909 -1918[Medline]
4. Itai Y, Kobuko T, Atoni Y, et al. Mucin-hypersecreting carcinoma of the pancreas. Radiology 1987;165:51 -55[Abstract/Free Full Text]
5. Agostini S, Choux R, Payon M-R, et al. Mucinous pancreatic duct ectasia in the body of the pancreas. Radiology 1989;170:815 -816[Abstract/Free Full Text]
6. Irie H, Honda H, Aibe H, et al. MR cholangiopancreatographic differentiation of benign and malignant intraductal mucin-producing tumors of the pancreas. AJR 2000;174:1403 -1408[Abstract/Free Full Text]
7. Traverso LW, Peralta EA, Ryan JA, et al. Intraductal neoplasms of the pancreas. Am J Surg 1998;175:426 -432[Medline]
8. Fukkura Y, Fugiyoshi R, Sasaki M, et al. HASTE MR cholangiopancreatography in the evaluation of the intraductal papillary-mucinous tumors of the pancreas. J Comput Assist Tomogr 1999;23:301 -305[Medline]

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