Long-term Yield of Pancreatic Cancer Surveillance in High-risk Individuals

Overview

Journal Gut

Specialty Gastroenterology

Date 2021 Apr 6

PMID 33820756

Citations 60

Authors

Kasper A Overbeek

Iris J M Levink

Brechtje D M Koopmann

Femme Harinck

Ingrid C A W Konings

Margreet G E M Ausems

Anja Wagner

Paul Fockens

Casper H Van Eijck

Bas Groot Koerkamp

Olivier R C Busch

Marc G Besselink

Barbara A J Bastiaansen

Lydi M J W van Driel

Nicole S Erler

Frank P Vleggaar

Jan-Werner Poley

Djuna L Cahen

Jeanin E van Hooft

Marco J Bruno

Affiliations

Soon will be listed here.

Abstract

Objective: We aimed to determine the long-term yield of pancreatic cancer surveillance in hereditary predisposed high-risk individuals.

Design: From 2006 to 2019, we prospectively enrolled asymptomatic individuals with an estimated 10% or greater lifetime risk of pancreatic ductal adenocarcinoma (PDAC) after obligatory evaluation by a clinical geneticist and genetic testing, and subjected them to annual surveillance with both endoscopic ultrasonography (EUS) and MRI/cholangiopancreatography (MRI/MRCP) at each visit.

Results: 366 individuals (201 mutation-negative familial pancreatic cancer (FPC) kindreds and 165 PDAC susceptibility gene mutation carriers; mean age 54 years, SD 9.9) were followed for 63 months on average (SD 43.2). Ten individuals developed PDAC, of which four presented with a symptomatic interval carcinoma and six underwent resection. The cumulative PDAC incidence was 9.3% in the mutation carriers and 0% in the FPC kindreds (p<0.001). Median PDAC survival was 18 months (range 1-32). Surgery was performed in 17 individuals (4.6%), whose pathology revealed 6 PDACs (3 T1N0M0), 7 low-grade precursor lesions, 2 neuroendocrine tumours <2 cm, 1 autoimmune pancreatitis and in 1 individual no abnormality. There was no surgery-related mortality. EUS detected more solid lesions than MRI/MRCP (100% vs 22%, p<0.001), but less cystic lesions (42% vs 83%, p<0.001).

Conclusion: The diagnostic yield of PDAC was substantial in established high-risk mutation carriers, but non-existent in the mutation-negative proven FPC kindreds. Nevertheless, timely identification of resectable lesions proved challenging despite the concurrent use of two imaging modalities, with EUS outperforming MRI/MRCP. Overall, surveillance by imaging yields suboptimal results with a clear need for more sensitive diagnostic markers, including biomarkers.

Citing Articles

Current Approaches of Pancreatic Cancer Surveillance in High-Risk Individuals.

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The global, regional burden of pancreatic cancer and its attributable risk factors from 1990 to 2021.

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Hereditary Pancreatic Cancer: Advances in Genetic Testing, Early Detection Strategies, and Personalized Management.

Blanco Abad C, Pons P, Campos Ramirez S, Alvarez Alejandro M, Torres Ramon M, Miramar Gallart M J Clin Med. 2025; 14(2).

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Informatics strategies for early detection and risk mitigation in pancreatic cancer patients.

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A Blood-based Metabolite Signature for Personalized Risk Assessment of Pancreatic Cancer.

Leon-Letelier R, Chen Y, Ballaro R, Irajizad E, Do K, Maitra A J Cancer Immunol (Wilmington). 2024; 6(4):148-153.

PMID: 39713022 PMC: 11661815. DOI: 10.33696/cancerimmunol.6.095.

References

Corral J, Mareth K, Riegert-Johnson D, Das A, Wallace M . Diagnostic Yield From Screening Asymptomatic Individuals at High Risk for Pancreatic Cancer: A Meta-analysis of Cohort Studies. Clin Gastroenterol Hepatol. 2018; 17(1):41-53. DOI: 10.1016/j.cgh.2018.04.065. View

Vasen H, Ibrahim I, Guillen Ponce C, Slater E, Matthai E, Carrato A . Benefit of Surveillance for Pancreatic Cancer in High-Risk Individuals: Outcome of Long-Term Prospective Follow-Up Studies From Three European Expert Centers. J Clin Oncol. 2016; 34(17):2010-9. DOI: 10.1200/JCO.2015.64.0730. View

Barnes C, Krzywda E, Lahiff S, McDowell D, Christians K, Knechtges P . Development of a high risk pancreatic screening clinic using 3.0 T MRI. Fam Cancer. 2017; 17(1):101-111. DOI: 10.1007/s10689-017-0057-z. View

Abe T, Blackford A, Tamura K, Ford M, McCormick P, Chuidian M . Deleterious Germline Mutations Are a Risk Factor for Neoplastic Progression Among High-Risk Individuals Undergoing Pancreatic Surveillance. J Clin Oncol. 2019; 37(13):1070-1080. PMC: 6494358. DOI: 10.1200/JCO.18.01512. View

Ludwig E, Olson S, Bayuga S, Simon J, Schattner M, Gerdes H . Feasibility and yield of screening in relatives from familial pancreatic cancer families. Am J Gastroenterol. 2011; 106(5):946-54. PMC: 3683863. DOI: 10.1038/ajg.2011.65. View

Molina-Montes E, Gomez-Rubio P, Marquez M, Rava M, Lohr M, Michalski C . Risk of pancreatic cancer associated with family history of cancer and other medical conditions by accounting for smoking among relatives. Int J Epidemiol. 2018; 47(2):473-483. DOI: 10.1093/ije/dyx269. View

Corral J, Das A, Bruno M, Wallace M . Cost-effectiveness of Pancreatic Cancer Surveillance in High-Risk Individuals: An Economic Analysis. Pancreas. 2019; 48(4):526-536. DOI: 10.1097/MPA.0000000000001268. View

Bartsch D, Slater E, Carrato A, Ibrahim I, Guillen-Ponce C, Vasen H . Refinement of screening for familial pancreatic cancer. Gut. 2016; 65(8):1314-21. DOI: 10.1136/gutjnl-2015-311098. View

Sheel A, Harrison S, Sarantitis I, Nicholson J, Hanna T, Grocock C . Identification of Cystic Lesions by Secondary Screening of Familial Pancreatic Cancer (FPC) Kindreds Is Not Associated with the Stratified Risk of Cancer. Am J Gastroenterol. 2018; 114(1):155-164. DOI: 10.1038/s41395-018-0395-y. View

10.

Schneider R, Slater E, Sina M, Habbe N, Fendrich V, Matthai E . German national case collection for familial pancreatic cancer (FaPaCa): ten years experience. Fam Cancer. 2011; 10(2):323-30. DOI: 10.1007/s10689-010-9414-x. View

11.

Overbeek K, Cahen D, Canto M, Bruno M . Surveillance for neoplasia in the pancreas. Best Pract Res Clin Gastroenterol. 2016; 30(6):971-986. PMC: 5552042. DOI: 10.1016/j.bpg.2016.10.013. View

12.

Canto M, Almario J, Schulick R, Yeo C, Klein A, Blackford A . Risk of Neoplastic Progression in Individuals at High Risk for Pancreatic Cancer Undergoing Long-term Surveillance. Gastroenterology. 2018; 155(3):740-751.e2. PMC: 6120797. DOI: 10.1053/j.gastro.2018.05.035. View

13.

Chang M, Wu C, Yang S, Liang P, Chen B, Jan I . Pancreatic cancer screening in different risk individuals with family history of pancreatic cancer-a prospective cohort study in Taiwan. Am J Cancer Res. 2017; 7(2):357-369. PMC: 5336508. View

14.

Mocci E, Guillen-Ponce C, Earl J, Marquez M, Solera J, Salazar-Lopez M . PanGen-Fam: Spanish registry of hereditary pancreatic cancer. Eur J Cancer. 2015; 51(14):1911-7. DOI: 10.1016/j.ejca.2015.07.004. View

15.

Verna E, Hwang C, Stevens P, Rotterdam H, Stavropoulos S, Sy C . Pancreatic cancer screening in a prospective cohort of high-risk patients: a comprehensive strategy of imaging and genetics. Clin Cancer Res. 2010; 16(20):5028-37. DOI: 10.1158/1078-0432.CCR-09-3209. View

16.

Zubarik R, Gordon S, Lidofsky S, Anderson S, Pipas J, Badger G . Screening for pancreatic cancer in a high-risk population with serum CA 19-9 and targeted EUS: a feasibility study. Gastrointest Endosc. 2011; 74(1):87-95. DOI: 10.1016/j.gie.2011.03.1235. View

17.

Tanaka M, Fernandez-Del Castillo C, Kamisawa T, Jang J, Levy P, Ohtsuka T . Revisions of international consensus Fukuoka guidelines for the management of IPMN of the pancreas. Pancreatology. 2017; 17(5):738-753. DOI: 10.1016/j.pan.2017.07.007. View

18.

Huang L, Jansen L, Balavarca Y, Molina-Montes E, Babaei M, van der Geest L . Resection of pancreatic cancer in Europe and USA: an international large-scale study highlighting large variations. Gut. 2017; 68(1):130-139. DOI: 10.1136/gutjnl-2017-314828. View

19.

Canto M, Hruban R, Fishman E, Kamel I, Schulick R, Zhang Z . Frequent detection of pancreatic lesions in asymptomatic high-risk individuals. Gastroenterology. 2012; 142(4):796-804. PMC: 3321068. DOI: 10.1053/j.gastro.2012.01.005. View

20.

Earl J, Galindo-Pumarino C, Encinas J, Barreto E, Castillo M, Pachon V . A comprehensive analysis of candidate genes in familial pancreatic cancer families reveals a high frequency of potentially pathogenic germline variants. EBioMedicine. 2020; 53:102675. PMC: 7100610. DOI: 10.1016/j.ebiom.2020.102675. View