News Release

Cysts hold clues to pancreatic cancer

Detection and removal may lower cancer risk

Peer-Reviewed Publication

Van Andel Research Institute

Grand Rapids, Mich. (June 3, 2010) – Working with researchers from the University of Michigan and Indiana University, Van Andel Research Institute (VARI) investigators have developed a method that could be used to predict whether pancreatic cysts are benign or are precursors to invasive cancer.

More pancreatic cysts are being detected due to the widespread use of high resolution abdominal imaging. These advances in early detection, when coupled with the new findings, could result in fewer deaths from pancreatic cancer, which struck more than 42,000 Americans in 2009 and killed more than 35,000, according to the National Cancer Institute.

"Because of the difficulty in detecting pancreatic cancer in its early stages, most cancers are advanced at the time of diagnosis and recur after removal of the tumor," said VARI Senior Scientific Investigator Brian Haab, Ph.D., first author of a study published in the May issue of Annals of Surgery. "The best hope for a long-term cure may be the detection and removal of these pre-cancerous cysts."

"Dr. Haab and his colleagues have sought to address a very challenging clinical management problem regarding cystic lesions of the pancreas," said Peter J. Allen, MD, FACS, a physician and researcher specializing in pancreatic, liver, and stomach cancer at Memorial Sloan-Kettering Cancer Center. "As the use of cross-sectional imaging increases, clinicians are seeing increased numbers of patients with these lesions and it will become imperative to sort out benign from pre-malignant."

The most common and deadly form of pancreatic cancer, pancreatic ductal adenocarcinomas, develops from three types of cysts. Although the most prevalent type is too small to be detected, the other two can be found using CT or ultrasound imaging and account for 10 – 15% of pancreatic cancers. However, current methods can only distinguish pre-cancerous cysts from those that are benign with up to 79% accuracy.

Using fluid from a variety of cyst types, researchers looked for patterns in the variations of carbohydrate structures called glycans to determine if there were any biomarkers that could more accurately distinguish between pre-cancerous and benign cysts. They found several candidates, some of which could be used in combination to determine cyst type.

"Further study will be needed to validate the clinical value of using glycan variations to differentiate cyst types, but it seems like they are more accurate than current methods," said Dr. Haab.

"(Dr. Haab's) identification of variants of MUC-1, MUC-5AC, and MUC-16 (genes) within the cyst fluid of pre-malignant lesions is exciting as our current ability to non-operatively define these lesions is limited," said Dr. Allen. "Hopefully with larger numbers of patients these results can be validated and be put into clinical use."

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The researchers gratefully acknowledge support of this work by the National Institutes of Health (NCI R21 CA122890 and R33 CA122890 to B.B.H.; 1 R03 CA 112629-01A1 to C.M.S.; UO1 1CA117452), the Van Andel Research Institute, and University of Michigan Comprehensive Cancer Center. The contents of the study Glycosylation Variants of Mucins and CEACAMs As Candidate Biomarkers for the Diagnosis of Pancreatic Cystic Neoplasms are solely the responsibility of the authors and do not necessarily represent the official views of the National Institutes of Health or the National Cancer Institute.)

About Van Andel Institute

Established by Jay and Betty Van Andel in 1996, Van Andel Institute (VAI) is an independent research and educational organization based in Grand Rapids, Mich., dedicated to preserving, enhancing and expanding the frontiers of medical science, and to achieving excellence in education by probing fundamental issues of education and the learning process. VARI, the research arm of VAI, is dedicated to probing the genetic, cellular and molecular origins of cancer, Parkinson and other diseases and working to translate those findings into effective therapies. This is accomplished through the work of over 200 researchers in 18 on-site laboratories and in collaborative partnerships that span the globe.

www.vai.org


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