“One promising strategy to reduce the number of people affected by pancreatic cancer is to identify and treat premalignant pancreatic lesions,” said first author Jennifer Permuth-Wey, Ph.D., M.S., assistant member in the Departments of Cancer Epidemiology and Gastrointestinal Oncology at Moffitt. “IPMNs are established precursor lesions to pancreatic cancer that account for approximately half of all asymptomatic pancreatic cysts incidentally detected by computerized tomography (CT) scans or magnetic resonance imaging (MRI) in the U.S. each year.”
IPMNs can be characterized as either low- or high-risk for the development of pancreatic cancer; however, the only way to accurately characterize the severity of IPMNs is by their surgical removal that is in itself associated with a risk of complications, such as long-term diabetes and death. Alternatively, not removing the IPMN(s) could lead to a missed opportunity to prevent high-risk lesions from developing into invasive pancreatic cancer.
Moffitt researchers want to develop a fast, cost-effective blood test that can accurately differentiate low-risk IPMNs that can be monitored from high-risk IPMNs that need to be surgically removed by studying microRNAs (miRNAs), a class of small molecules that regulate key genes involved in the development and progression of cancer. “Using new digital technology, we compared the expression patterns of miRNAs in the blood and discovered a set of 30 miRNAs that differentiated between IPMN patients and healthy volunteers. We also identified five miRNAs that could distinguish between high-risk IPMNs and low-risk IPMNs,” said senior author Mokenge Malafa, M.D, F.A.C.S., department chair and program leader for Moffitt’s Gastrointestinal Oncology Program. “We are excited about our preliminary findings, but much more research is needed before such a blood test could be made available in the clinical setting.”
“The hope is that in the not-so-distant future a miRNA-based blood test can be used in conjunction with imaging features and other factors to aid the medical team in accurately predicting disease severity of IPMNs and other pancreatic cysts at the time of diagnosis or follow-up so that more informed personalized medical management decisions can be made,” explained Permuth-Wey.
The authors believe that the incorporation of such a blood test into routine clinical practice could provide a prime opportunity for intervention during the pre-cancerous phase before the development of pancreatic malignancy.
Through funding from the State of Florida and the newly established Florida Academic Cancer Center Alliance, Moffitt researchers plan to further their research on IPMNs by partnering with researchers from the University of Florida Health Cancer Center and the University of Miami/Sylvester Comprehensive Cancer Center. This new partnership, called the Florida Pancreas Collaborative, represents the first state-wide multi-cancer center collaboration dedicated to conducting research on IPMNs with the ultimate goal of promoting the prevention and early detection of pancreatic cancer. “Considering that Florida ranks second in the number of pancreatic cancer deaths that occur each year and the fact that pancreatic cancer is projected to surpass breast, prostate, and colorectal cancer and become the second leading cause of cancer deaths by 2030, we are thrilled that our state is committed to investing in pancreatic cancer research now,” said Permuth-Wey.
“Early detection and screening are the most effective ways for ‘at-risk’ individuals to minimize the potential for developing pancreatic cancer,” said Malafa. Screening and diagnostic procedures for pancreatic cysts and other gastrointestinal conditions can be performed at Moffitt’s state-of-the-art endoscopy clinic.
This research was made possible by patients who were treated at Moffitt and generously donated blood and tissue samples to the Total Cancer Care® Program and was supported in part by grants from the American Cancer Society (93-032-16) and the National Cancer Institute.