释放人工智能的潜力:预测化学品致癌性的机器学习和深度学习模型。

IF 1.2 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Wenjing Guo, Jie Liu, Fan Dong, Huixiao Hong
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引用次数: 0

摘要

围绕化学品致癌潜力的忧虑不断升级,这突出表明迫切需要高效的致癌评估方法。体外和体内检测等传统实验方法虽然有效,但成本高、耗时长。为应对这一挑战,新的替代方法,特别是机器学习和深度学习技术,因其在开发致癌性预测模型方面的潜力而备受关注。本文回顾了利用各种机器学习和深度学习算法预测致癌性的进展。对这些已开发模型的比较分析表明,支持向量机、随机森林和集合学习因其在预测化学品致癌性方面的稳健性和有效性而受到普遍青睐。相反,基于深度学习算法的模型,如前馈神经网络、卷积神经网络、图卷积神经网络、胶囊神经网络和混合神经网络,则表现出良好的性能,但受限于现有致癌数据集的规模。本综述全面分析了当前用于致癌性预测的机器学习和深度学习模型,强调了高质量和大型数据集的重要性。预计这些观察结果将推动未来在开发用于预测化学品致癌性的有效、可推广的机器学习和深度学习模型方面取得进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unlocking the potential of AI: Machine learning and deep learning models for predicting carcinogenicity of chemicals.

The escalating apprehension surrounding the carcinogenic potential of chemicals emphasizes the imperative need for efficient methods of assessing carcinogenicity. Conventional experimental approaches such as in vitro and in vivo assays, albeit effective, suffer from being costly and time-consuming. In response to this challenge, new alternative methodologies, notably machine learning and deep learning techniques, have attracted attention for their potential in developing carcinogenicity prediction models. This article reviews the progress in predicting carcinogenicity using various machine learning and deep learning algorithms. A comparative analysis on these developed models reveals that support vector machine, random forest, and ensemble learning are commonly preferred for their robustness and effectiveness in predicting chemical carcinogenicity. Conversely, models based on deep learning algorithms, such as feedforward neural network, convolutional neural network, graph convolutional neural network, capsule neural network, and hybrid neural networks, exhibit promising capabilities but are limited by the size of available carcinogenicity datasets. This review provides a comprehensive analysis of current machine learning and deep learning models for carcinogenicity prediction, underscoring the importance of high-quality and large datasets. These observations are anticipated to catalyze future advancements in developing effective and generalizable machine learning and deep learning models for predicting chemical carcinogenicity.

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CiteScore
4.60
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