Generative artificial intelligence empowers digital twins in drug discovery and clinical trials.

IF 6 2区医学 Q1 PHARMACOLOGY & PHARMACY

Expert Opinion on Drug Discovery Pub Date : 2024-01-01 Epub Date: 2024-01-08 DOI:10.1080/17460441.2023.2273839

Maria Bordukova, Nikita Makarov, Raul Rodriguez-Esteban, Fabian Schmich, Michael P Menden

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引用次数: 0

Abstract

Introduction: The concept of Digital Twins (DTs) translated to drug development and clinical trials describes virtual representations of systems of various complexities, ranging from individual cells to entire humans, and enables in silico simulations and experiments. DTs increase the efficiency of drug discovery and development by digitalizing processes associated with high economic, ethical, or social burden. The impact is multifaceted: DT models sharpen disease understanding, support biomarker discovery and accelerate drug development, thus advancing precision medicine. One way to realize DTs is by generative artificial intelligence (AI), a cutting-edge technology that enables the creation of novel, realistic and complex data with desired properties.

Areas covered: The authors provide a brief introduction to generative AI and describe how it facilitates the modeling of DTs. In addition, they compare existing implementations of generative AI for DTs in drug discovery and clinical trials. Finally, they discuss technical and regulatory challenges that should be addressed before DTs can transform drug discovery and clinical trials.

Expert opinion: The current state of DTs in drug discovery and clinical trials does not exploit the entire power of generative AI yet and is limited to simulation of a small number of characteristics. Nonetheless, generative AI has the potential to transform the field by leveraging recent developments in deep learning and customizing models for the needs of scientists, physicians and patients.

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生成型人工智能使数字双胞胎在药物发现和临床试验中发挥作用。

简介：数字双胞胎（DT）的概念被转化为药物开发和临床试验，描述了从单个细胞到整个人类的各种复杂系统的虚拟表示，并实现了计算机模拟和实验。DTs通过数字化与高经济、伦理或社会负担相关的过程来提高药物发现和开发的效率。其影响是多方面的：DT模型提高了对疾病的理解，支持生物标志物的发现，加速了药物开发，从而推进了精准医学。实现DTs的一种方法是通过生成人工智能（AI），这是一种尖端技术，能够创建具有所需特性的新颖、逼真和复杂的数据。涵盖的领域：作者简要介绍了生成人工智能，并描述了它如何促进DT的建模。此外，他们比较了在药物发现和临床试验中DT的生成人工智能的现有实施方式。最后，他们讨论了在DTs改变药物发现和临床试验之前应该解决的技术和监管挑战。专家意见：药物发现和临床试验中DTs的现状还没有充分利用生成人工智能的全部力量，仅限于模拟少数特征。尽管如此，生成人工智能有潜力通过利用深度学习的最新发展，并根据科学家、医生和患者的需求定制模型来改变这一领域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Expert Opinion on Drug Discovery 医学-药学

CiteScore

10.20

自引率

1.60%

发文量

审稿时长

6-12 weeks

期刊介绍： Expert Opinion on Drug Discovery (ISSN 1746-0441 [print], 1746-045X [electronic]) is a MEDLINE-indexed, peer-reviewed, international journal publishing review articles on novel technologies involved in the drug discovery process, leading to new leads and reduced attrition rates. Each article is structured to incorporate the author’s own expert opinion on the scope for future development. The Editors welcome: Reviews covering chemoinformatics; bioinformatics; assay development; novel screening technologies; in vitro/in vivo models; structure-based drug design; systems biology Drug Case Histories examining the steps involved in the preclinical and clinical development of a particular drug The audience consists of scientists and managers in the healthcare and pharmaceutical industry, academic pharmaceutical scientists and other closely related professionals looking to enhance the success of their drug candidates through optimisation at the preclinical level.