Prospective, Multi-Institutional, Real-Time Next-Generation Sequencing of Pancreatic Cyst Fluid Reveals Diverse Genomic Alterations That Improve the Clinical Management of Pancreatic Cysts

Alessandro Paniccia, Patricio M. Polanco, Brian A. Boone, Abigail I. Wald, Kevin McGrath, Randall E. Brand, Asif Khalid, Nisa Kubiliun, Anne Marie O'Broin-Lennon, Walter G. Park, Jason Klapman, Benjamin Tharian, Sumant Inamdar, Kenneth Fasanella, John Nasr, Jennifer Chennat, Rohit Das, John DeWitt, Jeffrey J. Easler, Benjamin BickHarkirat Singh, Kimberly J. Fairley, Savreet Sarkaria, Tarek Sawas, Wasseem Skef, Adam Slivka, Anna Tavakkoli, Shyam Thakkar, Victoria Kim, Hendrikus Dutch Vanderveldt, Allyson Richardson, Michael B. Wallace, Bhaumik Brahmbhatt, Megan Engels, Charles Gabbert, Mohannad Dugum, Samer El-Dika, Yasser Bhat, Sanjay Ramrakhiani, Gennadiy Bakis, Daniil Rolshud, Gordon Millspaugh, Thomas Tielleman, Carl Schmidt, John Mansour, Wallis Marsh, Melanie Ongchin, Barbara Centeno, Sara E. Monaco, N. Paul Ohori, Sigfred Lajara, Elizabeth D. Thompson, Ralph H. Hruban, Phoenix D. Bell, Katelyn Smith, Jennifer B. Permuth, Christopher Vandenbussche, Wayne Ernst, Maria Grupillo, Cihan Kaya, Melissa Hogg, Jin He, Christopher L. Wolfgang, Kenneth K. Lee, Herbert Zeh, Amer Zureikat, Marina N. Nikiforova, Aatur D. Singhi

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Prospective, Multi-Institutional, Real-Time Next-Generation Sequencing of Pancreatic Cyst Fluid Reveals Diverse Genomic Alterations That Improve the Clinical Management of Pancreatic Cysts

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