TMM: A comprehensive CAD system for hepatic fibrosis 5‐grade METAVIR staging based on liver MRI

Author:

Liu Hui1,Fu Yaqing1,Guo Dongmei2,Li Shuo2,Jin Yilin1,Zhang Aoran1,Wu Chengjun1

Affiliation:

1. School of Biomedical Engineering Dalian University of Technology & Liaoning Key Laboratory of Integrated Circuit and Biomedical Electronic System Dalian China

2. Department of Radiology Second Affiliated Hospital Dalian Medical University Dalian China

Abstract

AbstractBackgroundPrecise staging of hepatic fibrosis with MRI is necessary as it can assist precision medicine. Computer aided diagnosis (CAD) system with distinguishing radiomics features and radiologists domain knowledge is expected to obtain 5‐grade meta‐analysis of histological data in viral hepatitis (METAVIR) staging.PurposeThis study aims to obtain the precise staging of hepatic fibrosis based on MRI as it predicts the risk of future liver‐related morbidity and the need for treatment, monitoring and surveillance. Based on METAVIR score, fibrosis can be divided into five stages. Most previous researches focus on binary classification, such as cirrhosis versus non‐cirrhosis, early versus advanced fibrosis, and substantial fibrosis or not. In this paper, a comprehensive CAD system TMM is proposed to precisely class hepatic fibrosis into five stages for precision medicine instead of the common binary classification.MethodsWe propose a novel hepatic fibrosis staging CAD system TMM which includes three modules, Two‐level Image Statistical Radiomics Feature (TISRF), Monotonic Error Correcting Output Codes (MECOC) and Monotone Multiclassification with Deep Forest (MMDF). TISRF extracts radiomics features for distinguishing different hepatic fibrosis stages. MECOC is proposed to encode monotonic multiclass by making full use of the progressive severity of hepatic fibrosis and increase the fault tolerance and error correction ability. MMDF combines multiple Deep Forest network to ensure the final five‐class classification, which can achieve more precise classification than the common binary classification. The performance of the proposed hepatic fibrosis CAD system is tested on the hepatic data collected from our rabbits models of fibrosis.ResultsA total of 140 regions of interest (ROI) are selected from MRI T1W of liver fibrosis models in 35 rabbits with F0(n = 16), F1(n = 28), F2(n = 29), F3(n = 44) and F4(n = 23). The performance is evaluated by five‐fold cross‐validation. TMM can achieve the highest total accuracy of 72.14% for five fibrosis stages compared with other popular classifications. To make a comprehensive comparison, a binary classification experiment have been carried out.ConclusionsT1WI can obtain precise staging of hepatic fibrosis with the help of comprehensive CAD including radiomics features extraction inspired by radiologists, monotonic multiclass according to the severity of hepatic fibrosis, and deep learning classification.

Funder

National Natural Science Foundation of China

Fundamental Research Funds for the Central Universities

Natural Science Foundation of Liaoning Province

Publisher

Wiley

Subject

General Medicine

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