Comparison of ultraSound, Abbreviated MRI witH and Without HBP aS mOdalities for HCC suRveillance in patienTs With High Risk

Overview

Active surveillance in high-risk hepatocellular carcinoma (HCC) populations enables early detection of tumors. The currently recommended monitoring protocol involves biannual serum alpha-fetoprotein (AFP) testing combined with liver ultrasound (US) examinations. However, conventional US demonstrates limited sensitivity in detecting early-stage HCC lesions. MRI demonstrates high sensitivity in monitoring cirrhotic patients, but prolonged scanning time limits its routine clinical application. Several abbreviated MRI protocols have been developed for HCC detection, aiming to reduce acquisition time while improving early-stage HCC diagnostic accuracy. The main question this clinical trial aims to answer is: Can non-contrast abbreviated MRI (NC-AMRI) and enhanced abbreviated MRI (E-AMRI) detect more early-stage HCC lesions compared to US-based screening? Researchers will randomly divide the participants into three groups in a 1:1:1 ratio, with different surveillance strategies, focused on early HCC detection rates.

Active surveillance in high-risk hepatocellular carcinoma (HCC) populations enables early detection of tumors. Current guidelines recommend biannual AFP testing with liver ultrasound (US), but US has suboptimal sensitivity for early HCC detection. MRI, while highly sensitive for monitoring cirrhotic patients, is limited in routine use due to long scan times.. Several abbreviated MRI protocols have been developed for HCC detection, aiming to reduce acquisition time while improving early-stage HCC diagnostic accuracy. This is a multicenter, randomized controlled, open-label clinical trial targeting individuals at high risk for HCC, with a planned enrollment of 1,389 participants. This trial aims to evaluate the effectiveness of three surveillance strategies-US, non-contrast abbreviated MRI (NC-AMRI; T2WI/DW sequences ) and enhanced abbreviated MRI (E-AMRI; using gadoxetic acid disodium with T2WI/DWI/HBP sequences)-in the active monitoring of HCC in high-risk populations. Researchers will randomly assign participants (1:1:1) to three surveillance arms, followed by a 24-month long-term follow-up after the initial 18-month monitoring. The study includes 18 months of active surveillance and 24 months of extended follow-up. The surveillance protocols of three groups: 1. Control: Biannual US + AFP; 2. NC-AMRI: Alternating NC-AMRI (T2WI/DWI) and US at 6/18 months; 3. E-AMRI: Alternating E-AMRI (T2WI/DWI/HBP with gadoxetic acid) and US at 6/18 months. All the participants will be followed up every 6 months according to the above-mentioned grouping and follow-up contents. For those participants who are suspected HCC, an enhanced abdominal CT or enhanced MRI will be performed for confirmation. If the imaging suggests HCC, the research subject will be removed from the group and enter the clinical routine diagnosis and treatment process. If there is no evidence of HCC, the subject will continue to be followed up as planned. Finally, at the end of the 18-month follow-up period, a routine enhanced abdominal CT/MRI will be carried out to confirm the presence of HCC. The primary focus of the clinic trial is the the early-stage (BCLC 0+A stage) HCC detection rate at 18th month post-enrollment, with pairwise comparisons among the three strategies. χ² tests will compare detection rates, sensitivity, and specificity; Kaplan-Meier analysis with log-rank tests will evaluate survival. Survival analysis will include all HCC cases diagnosed in the study.