免疫机制的计算建模:从统计方法到可解释的机器学习

María Rodríguez Martínez , Matteo Barberis , Anna Niarakis
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引用次数: 1

摘要

免疫系统是高度复杂的,它的故障会导致许多复杂的疾病。了解其内部工作原理对于设计最佳免疫疗法、开发新疫苗或了解自身免疫性疾病至关重要,这只是其中的几个例子。由于我们对所涉及的复杂分子和细胞相互作用的理解有限,以及可用治疗方案的稀缺性,免疫相关疾病提出了独特的挑战。近年来,研究免疫系统的高通量实验技术不断发展。大量的数据促进了统计和机器学习模型的出现,这些模型的重点是揭示免疫系统的复杂复杂性。带着这一愿景,一个名为“免疫机制的计算建模:从统计方法到可解释的机器学习”的研讨会于2022年9月18日星期日在西班牙锡切斯举行的第21届欧洲计算生物学会议(ECCB)上组织。研讨会由María Rodríguez Martínez、Anna Niarakis和Matteo Barberis领导,探讨了最新的统计模型、高通量数据分析和机器学习模型,以了解免疫机制。超过60名与会者参加了研讨会,包括学生,早期职业和高级研究人员,以及来自不同领域的专业人士,包括免疫学,系统生物学,计算生物学,计算机科学和生物信息学。在讲习班结束时,组织了一次圆桌会议,促进对现有挑战的讨论,并为致力于研究免疫系统基础的细胞和分子功能的下一代计算模型的发展制定路线图。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computational modelling of immunological mechanisms: From statistical approaches to interpretable machine learning

The immune system is highly complex, and its malfunctioning can result in many complex disorders. Understanding its inner workings is crucial to designing optimal immunotherapies, developing new vaccines, or understanding autoimmune diseases, just to name a few. Immune-related diseases present unique challenges due to our limited understanding of the complex molecular and cellular interactions involved, as well as the scarcity of available therapeutic options. Recent years have witnessed the progressive development of high-throughput experimental technologies to probe the immune system. This large amount of data has facilitated the emergence of statistical and machine-learning models focused on unravelling the intricate complexities of the immune system. With this vision in mind, a workshop titled "Computational modelling of immunological mechanisms: From statistical approaches to interpretable machine learning" was organized on Sunday, September 18th, 2022 at the 21st European Conference on Computational Biology (ECCB) in Sitges, Spain. The workshop, led by María Rodríguez Martínez, Anna Niarakis, and Matteo Barberis, explored recent statistical models, high-throughput data analyses, and machine learning models to understand immunological mechanisms. More than 60 participants attended the workshop, comprising students, early-career and senior researchers, as well as professionals from diverse domains including Immunology, Systems Biology, Computational Biology, Computer Science, and Bioinformatics. To conclude the workshop, a round table was organized to foster discussions on the existing challenges and chart a roadmap for the development of the next generation of computational models dedicated to investigating the cellular and molecular functions that underlie the immune system.

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来源期刊
Immunoinformatics (Amsterdam, Netherlands)
Immunoinformatics (Amsterdam, Netherlands) Immunology, Computer Science Applications
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