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Exploring prognostic indicators in the pathological images of hepatocellular carcinoma based on deep learning

队列 病态的 肝细胞癌 医学 肿瘤科 内科学 病理
作者
Jie-Yi Shi,Xiaodong Wang,Guangyu Ding,Zhou Dong,Jing Han,Zehui Guan,Lijie Ma,Yuxuan Zheng,Lei Zhang,Guanzhen Yu,Xiaoying Wang,Zhen‐Bin Ding,Ai‐Wu Ke,Haoqing Yang,Liming Wang,Lirong Ai,Ya Cao,Jian Zhou,Jia Fan,Xiyang Liu
出处
期刊:Gut [BMJ]
卷期号:70 (5): 951-961 被引量:193
标识
DOI:10.1136/gutjnl-2020-320930
摘要

Objective Tumour pathology contains rich information, including tissue structure and cell morphology, that reflects disease progression and patient survival. However, phenotypic information is subtle and complex, making the discovery of prognostic indicators from pathological images challenging. Design An interpretable, weakly supervised deep learning framework incorporating prior knowledge was proposed to analyse hepatocellular carcinoma (HCC) and explore new prognostic phenotypes on pathological whole-slide images (WSIs) from the Zhongshan cohort of 1125 HCC patients (2451 WSIs) and TCGA cohort of 320 HCC patients (320 WSIs). A ‘tumour risk score (TRS)’ was established to evaluate patient outcomes, and then risk activation mapping (RAM) was applied to visualise the pathological phenotypes of TRS. The multi-omics data of The Cancer Genome Atlas(TCGA) HCC were used to assess the potential pathogenesis underlying TRS. Results Survival analysis revealed that TRS was an independent prognosticator in both the Zhongshan cohort (p<0.0001) and TCGA cohort (p=0.0003). The predictive ability of TRS was superior to and independent of clinical staging systems, and TRS could evenly stratify patients into up to five groups with significantly different prognoses. Notably, sinusoidal capillarisation, prominent nucleoli and karyotheca, the nucleus/cytoplasm ratio and infiltrating inflammatory cells were identified as the main underlying features of TRS. The multi-omics data of TCGA HCC hint at the relevance of TRS to tumour immune infiltration and genetic alterations such as the FAT3 and RYR2 mutations. Conclusion Our deep learning framework is an effective and labour-saving method for decoding pathological images, providing a valuable means for HCC risk stratification and precise patient treatment.
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