Clinical Impact of KRAS and GNAS Analysis Added to CEA and Cytology in Pancreatic Cystic Fluid Obtained by EUS-FNA.

Background: Pancreatic cysts are common incidental findings with malignant potential, raising diagnostic and treatment dilemmas.

Aims: To determine the added value of KRAS and GNAS mutation analysis on cyst classification and decision making.

Methods: We analyzed 52 frozen samples of pancreatic cystic fluid obtained by EUS-FNA between 2008 and 2014. In addition to cytology and CEA, mutations of GNAS (exons 8 and 9) and KRAS (exons 2 and 3) genes were analyzed using Sanger sequencing.

Results: There were 52 patients, 67% females, with a mean age of 59 ± 15 years (29-91). Cysts were classified as mucinous in 21 patients (40%) (14 low-risk, seven malignant) and non-mucinous in 31 patients (60%). After EUS-FNA, 11 patients had surgery, six had chemotherapy or palliation, one had endoscopic drainage, and 34 are on follow-up after a mean of 57 months. KRAS mutation was detected in nine and GNAS in two samples. Patients harboring cysts with KRAS mutations were older (p = 0.01), cysts were more commonly mucinous (p = 0.001) and malignant (p = 0.01). KRAS mutations were present in both low-risk and malignant mucinous lesions. For identifying mucinous lesions, CEA > 192 ng/mL performed better (AUC ROC = 93%), whereas for malignant/high-risk mucinous lesions, EUS imaging had the best accuracy (AUC ROC = 88%). After molecular analysis, a modification in cyst classification occurred in ten patients, but was correct in only two, a pseudocyst re-classified as IPMN and a malignant cyst as a non-mucinous cyst.

Conclusions: In this cohort of patients with pancreatic cysts, KRAS and GNAS mutations had no significant diagnostic benefit in comparison with conventional testing.