The Promise of AI for DILI Prediction

Andreu Vall; Yogesh Sabnis; Jiye Shi; Reiner Class; Sepp Hochreiter; Günter Klambauer

doi:10.3389/frai.2021.638410

The Promise of AI for DILI Prediction

Andreu Vall, Yogesh Sabnis, Jiye Shi, Reiner Class, Sepp Hochreiter, Günter Klambauer

Research output: Contribution to journal › Article › peer-review

Abstract

Drug-induced liver injury (DILI) is a common reason for the withdrawal of a drug from the market. Early assessment of DILI risk is an essential part of drug development, but it is rendered challenging prior to clinical trials by the complex factors that give rise to liver damage. Artificial intelligence (AI) approaches, particularly those building on machine learning, range from random forests to more recent techniques such as deep learning, and provide tools that can analyze chemical compounds and accurately predict some of their properties based purely on their structure. This article reviews existing AI approaches to predicting DILI and elaborates on the challenges that arise from the as yet limited availability of data. Future directions are discussed focusing on rich data modalities, such as 3D spheroids, and the slow but steady increase in drugs annotated with DILI risk labels.

Original language	English
Article number	638410
Number of pages	12
Journal	Frontiers in Artificial Intelligence
DOIs	https://doi.org/10.3389/frai.2021.638410
Publication status	Published - 2021

Fields of science

305907 Medical statistics
202017 Embedded systems
202036 Sensor systems
101004 Biomathematics
101014 Numerical mathematics
101015 Operations research
101016 Optimisation
101017 Game theory
101018 Statistics
101019 Stochastics
101024 Probability theory
101026 Time series analysis
101027 Dynamical systems
101028 Mathematical modelling
101029 Mathematical statistics
101031 Approximation theory
102 Computer Sciences
102001 Artificial intelligence
102003 Image processing
102004 Bioinformatics
102013 Human-computer interaction
102018 Artificial neural networks
102019 Machine learning
102032 Computational intelligence
102033 Data mining
305901 Computer-aided diagnosis and therapy
305905 Medical informatics
202035 Robotics
202037 Signal processing
103029 Statistical physics
106005 Bioinformatics
106007 Biostatistics

JKU Focus areas

Digital Transformation

Access to Document

10.3389/frai.2021.638410

Cite this

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title = "The Promise of AI for DILI Prediction",

abstract = "Drug-induced liver injury (DILI) is a common reason for the withdrawal of a drug from the market. Early assessment of DILI risk is an essential part of drug development, but it is rendered challenging prior to clinical trials by the complex factors that give rise to liver damage. Artificial intelligence (AI) approaches, particularly those building on machine learning, range from random forests to more recent techniques such as deep learning, and provide tools that can analyze chemical compounds and accurately predict some of their properties based purely on their structure. This article reviews existing AI approaches to predicting DILI and elaborates on the challenges that arise from the as yet limited availability of data. Future directions are discussed focusing on rich data modalities, such as 3D spheroids, and the slow but steady increase in drugs annotated with DILI risk labels.",

author = "Andreu Vall and Yogesh Sabnis and Jiye Shi and Reiner Class and Sepp Hochreiter and G{\"u}nter Klambauer",

year = "2021",

doi = "10.3389/frai.2021.638410",

language = "English",

journal = "Frontiers in Artificial Intelligence",

issn = "2624-8212",

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T1 - The Promise of AI for DILI Prediction

AU - Vall, Andreu

AU - Sabnis, Yogesh

AU - Shi, Jiye

AU - Class, Reiner

AU - Hochreiter, Sepp

AU - Klambauer, Günter

PY - 2021

Y1 - 2021

N2 - Drug-induced liver injury (DILI) is a common reason for the withdrawal of a drug from the market. Early assessment of DILI risk is an essential part of drug development, but it is rendered challenging prior to clinical trials by the complex factors that give rise to liver damage. Artificial intelligence (AI) approaches, particularly those building on machine learning, range from random forests to more recent techniques such as deep learning, and provide tools that can analyze chemical compounds and accurately predict some of their properties based purely on their structure. This article reviews existing AI approaches to predicting DILI and elaborates on the challenges that arise from the as yet limited availability of data. Future directions are discussed focusing on rich data modalities, such as 3D spheroids, and the slow but steady increase in drugs annotated with DILI risk labels.

AB - Drug-induced liver injury (DILI) is a common reason for the withdrawal of a drug from the market. Early assessment of DILI risk is an essential part of drug development, but it is rendered challenging prior to clinical trials by the complex factors that give rise to liver damage. Artificial intelligence (AI) approaches, particularly those building on machine learning, range from random forests to more recent techniques such as deep learning, and provide tools that can analyze chemical compounds and accurately predict some of their properties based purely on their structure. This article reviews existing AI approaches to predicting DILI and elaborates on the challenges that arise from the as yet limited availability of data. Future directions are discussed focusing on rich data modalities, such as 3D spheroids, and the slow but steady increase in drugs annotated with DILI risk labels.

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DO - 10.3389/frai.2021.638410

M3 - Article

SN - 2624-8212

JO - Frontiers in Artificial Intelligence

JF - Frontiers in Artificial Intelligence

M1 - 638410

ER -