基于多组学分析的机器学习在乳腺癌生存和治疗效果预测中的应用。

Q3 Medicine 遗传 Pub Date : 2024-10-01 DOI:10.16288/j.yczz.24-156
Zi-Yi Zhang, Qi-Lin Wang, Jun-You Zhang, Ying-Ying Duan, Jia-Xin Liu, Zhao-Shuo Liu, Chun-Yan Li
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引用次数: 0

摘要

乳腺癌患者内部和之间的高度异质性使治疗决策和预后评估变得更加复杂。治疗决策受多种因素的影响,如肿瘤亚型、组织学分级和基因型,因此必须采取个性化的治疗策略。根据患者的具体情况,预后结果也大不相同。作为人工智能的一个重要分支,机器学习可有效处理大型数据集,并使决策过程自动化。机器学习的引入为乳腺癌治疗选择和预后评估提供了新的解决方案。在癌症治疗领域,预测治疗和生存结果的传统方法往往依赖于单一或少数几个生物标志物,这限制了其全面捕捉复杂生物过程的能力。机器学习可以分析患者的多组数据以及癌症发生和发展过程中错综复杂的变化模式,从而预测患者的生存和治疗效果。因此,它有助于选择适当的治疗干预措施,对患者实施早期干预并提高疗效。在此,我们首先介绍常见的机器学习方法,然后从乳腺癌患者的生存评估和治疗效果预测两个方面阐述机器学习在生存预测和预后领域的应用。目的是为乳腺癌患者提供精确的治疗策略,提高治疗效果和生活质量。
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Machine learning applications in breast cancer survival and therapeutic outcome prediction based on multi-omic analysis.

The high heterogeneity within and between breast cancer patients complicates treatment determination and prognosis assessment. Treatment decision-making is influenced by various factors, such as tumor subtype, histological grade, and genotype, necessitating personalized treatment strategies. Prognostic outcomes vary significantly depending on patient-specific conditions. As a critical branch of artificial intelligence, machine learning efficiently handles large datasets and automates decision-making processes. The introduction of machine learning offers new solutions for breast cancer treatment selection and prognosis assessment. In the field of cancer therapy, traditional methods for predicting treatment and survival outcomes often rely on single or few biomarkers, limiting their ability to capture the complexity of biological processes comprehensively. Machine learning analyzes patients' multi-omic data and the intricate patterns of variations during cancer initiation and progression to predict patients' survival and treatment outcomes. Consequently, it facilitates the selection of appropriate therapeutic interventions to implement early intervention and improve treatment efficacy for patients. Here, we first introduce common machine learning methods, and then elaborate on the application of machine learning in the field of survival prediction and prognosis from two aspects: evaluating survival and predicting treatment outcomes for breast cancer patients. The aim is to provide breast cancer patients with precise treatment strategies to improve therapeutic outcomes and quality of life.

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来源期刊
遗传
遗传 Medicine-Medicine (all)
CiteScore
2.50
自引率
0.00%
发文量
6699
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Design and practice of educational experiments on genetic epistasis. Drug resistance mechanism of anti-angiogenesis therapy in tumor. Dual-localization signals enhance mitochondrial targeted presentation of engineered proteins. Identification and functional characterization of CD209 homologous genes in zebrafish. Progress on the mining of functional genes of Lonicera japonica.
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