期刊论文详细信息
Journal of Translational Medicine 卷:20
Identifying the critical states and dynamic network biomarkers of cancers based on network entropy
Dandan Ding1  Rui Liu2  Jiayuan Zhong2  Juntan Liu2 
[1] Department of Thoracic Surgery, Affiliated Cancer Hospital & Institute of Guangzhou Medical University;
[2] School of Mathematics, South China University of Technology;
关键词: Critical state;    Local network entropy (LNE);    Pre-disease state;    Critical transition;    Dynamic network biomarker (DNB);    Prognostic biomarker;   
DOI  :  10.1186/s12967-022-03445-0
来源: DOAJ
【 摘 要 】

Abstract Background There are sudden deterioration phenomena during the progression of many complex diseases, including most cancers; that is, the biological system may go through a critical transition from one stable state (the normal state) to another (the disease state). It is of great importance to predict this critical transition or the so-called pre-disease state so that patients can receive appropriate and timely medical care. In practice, however, this critical transition is usually difficult to identify due to the high nonlinearity and complexity of biological systems. Methods In this study, we employed a model-free computational method, local network entropy (LNE), to identify the critical transition/pre-disease states of complex diseases. From a network perspective, this method effectively explores the key associations among biomolecules and captures their dynamic abnormalities. Results Based on LNE, the pre-disease states of ten cancers were successfully detected. Two types of new prognostic biomarkers, optimistic LNE (O-LNE) and pessimistic LNE (P-LNE) biomarkers, were identified, enabling identification of the pre-disease state and evaluation of prognosis. In addition, LNE helps to find “dark genes” with nondifferential gene expression but differential LNE values. Conclusions The proposed method effectively identified the critical transition states of complex diseases at the single-sample level. Our study not only identified the critical transition states of ten cancers but also provides two types of new prognostic biomarkers, O-LNE and P-LNE biomarkers, for further practical application. The method in this study therefore has great potential in personalized disease diagnosis.

【 授权许可】

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