Bridging pharmacology and neural networks: A deep dive into neural ordinary differential equations

IF 3.1 3区 医学 Q2 PHARMACOLOGY & PHARMACY CPT: Pharmacometrics & Systems Pharmacology Pub Date : 2024-07-11 DOI:10.1002/psp4.13149
Idris Bachali Losada, Nadia Terranova
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Abstract

The advent of machine learning has led to innovative approaches in dealing with clinical data. Among these, Neural Ordinary Differential Equations (Neural ODEs), hybrid models merging mechanistic with deep learning models have shown promise in accurately modeling continuous dynamical systems. Although initial applications of Neural ODEs in the field of model-informed drug development and clinical pharmacology are becoming evident, applying these models to actual clinical trial datasets—characterized by sparse and irregularly timed measurements—poses several challenges. Traditional models often have limitations with sparse data, highlighting the urgent need to address this issue, potentially through the use of assumptions. This review examines the fundamentals of Neural ODEs, their ability to handle sparse and irregular data, and their applications in model-informed drug development.

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药理学与神经网络的桥梁:深入研究神经常微分方程。
机器学习的出现带来了处理临床数据的创新方法。其中,神经常微分方程(Neural ODEs)这种融合了机理模型和深度学习模型的混合模型在准确模拟连续动态系统方面大有可为。尽管神经 ODEs 在以模型为依据的药物开发和临床药理学领域的初步应用正变得越来越明显,但将这些模型应用于实际临床试验数据集却面临着一些挑战,这些数据集的特点是测量数据稀疏且时间不规则。在数据稀少的情况下,传统模型往往存在局限性,这就凸显了解决这一问题的迫切性,有可能通过使用假设来解决。本综述探讨了神经 ODE 的基本原理、其处理稀疏和不规则数据的能力及其在模型指导药物开发中的应用。
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来源期刊
CiteScore
5.00
自引率
11.40%
发文量
146
审稿时长
8 weeks
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