基于生物启发算法的超参数调整用于医疗保健中药物靶标结合亲和力预测

Pub Date : 2023-07-12 DOI:10.3233/idt-230145
Moolchand Sharma, S. Deswal
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引用次数: 0

摘要

在药物重新定位和发现方面,医疗保健面临的最大挑战是确定已知药物和靶标之间的相互作用。实验方法可以揭示一些药物-靶标相互作用(DTI),但确定所有这些相互作用是一项昂贵且耗时的工作。基于机器学习的算法目前将DTI预测问题作为二值分类问题来处理。然而,由于类分布不平衡,缺乏实验验证的负样本,会对DTI预测的性能产生负面影响。因此,将DTI预测任务重新转换为回归问题可能是解决这个问题的一种方法。本文提出了一种基于注意的双向长短期记忆卷积神经网络(CNN-AttBiLSTM),这是一种预测药物与靶标结合亲和力的新型深度学习混合模型。其次,调整CNN-AttBiLSTM混合模型的超参数以增强其性能是一项艰巨且耗时的工作。为了解决这个问题,我们提出了一种模因粒子群优化(Memetic Particle Swarm Optimization, MPSOA)算法,用于确定所提出模型的最佳设置。实验结果表明,基于mpsoa的CNN- at - bilstm模型在DAVIS数据集上的一致性指数为0.90,均方误差为0.228,在KIBA数据集上的一致性指数为0.97,均方误差为0.010,优于基线技术。
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Bio-inspired algorithm-based hyperparameter tuning for drug-target binding affinity prediction in healthcare
The greatest challenge for healthcare in drug repositioning and discovery is identifying interactions between known drugs and targets. Experimental methods can reveal some drug-target interactions (DTI) but identifying all of them is an expensive and time-consuming endeavor. Machine learning-based algorithms currently cover the DTI prediction problem as a binary classification problem. However, the performance of the DTI prediction is negatively impacted by the lack of experimentally validated negative samples due to an imbalanced class distribution. Hence recasting the DTI prediction task as a regression problem may be one way to solve this problem. This paper proposes a novel convolutional neural network with an attention-based bidirectional long short-term memory (CNN-AttBiLSTM), a new deep-learning hybrid model for predicting drug-target binding affinities. Secondly, it can be arduous and time-intensive to tune the hyperparameters of a CNN-AttBiLSTM hybrid model to augment its performance. To tackle this issue, we suggested a Memetic Particle Swarm Optimization (MPSOA) algorithm, for ascertaining the best settings for the proposed model. According to experimental results, the suggested MPSOA-based CNN- Att-BiLSTM model outperforms baseline techniques with a 0.90 concordance index and 0.228 mean square error in DAVIS dataset, and 0.97 concordance index and 0.010 mean square error in the KIBA dataset.
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