Advancing Multi-Organ Disease Care: A Hierarchical Multi-Agent Reinforcement Learning Framework

arXiv - CS - Artificial Intelligence Pub Date : 2024-09-06 DOI:arxiv-2409.04224

Daniel J. Tan, Qianyi Xu, Kay Choong See, Dilruk Perera, Mengling Feng

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Abstract

Multi-organ diseases present significant challenges due to their simultaneous impact on multiple organ systems, necessitating complex and adaptive treatment strategies. Despite recent advancements in AI-powered healthcare decision support systems, existing solutions are limited to individual organ systems. They often ignore the intricate dependencies between organ system and thereby fails to provide holistic treatment recommendations that are useful in practice. We propose a novel hierarchical multi-agent reinforcement learning (HMARL) framework to address these challenges. This framework uses dedicated agents for each organ system, and model dynamic through explicit inter-agent communication channels, enabling coordinated treatment strategies across organs. Furthermore, we introduce a dual-layer state representation technique to contextualize patient conditions at various hierarchical levels, enhancing the treatment accuracy and relevance. Through extensive qualitative and quantitative evaluations in managing sepsis (a complex multi-organ disease), our approach demonstrates its ability to learn effective treatment policies that significantly improve patient survival rates. This framework marks a substantial advancement in clinical decision support systems, pioneering a comprehensive approach for multi-organ treatment recommendations.

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推进多器官疾病护理：分层多代理强化学习框架

多器官疾病对多个器官系统同时产生影响，需要复杂的适应性治疗策略，因此带来了巨大的挑战。尽管最近人工智能医疗决策支持系统取得了进步，但现有的解决方案仅限于单个器官系统，它们往往忽略了器官系统之间错综复杂的依赖关系，因此无法提供在实践中有用的整体治疗建议。我们提出了一种新颖的分层多代理强化学习（HMARL）框架来应对这些挑战。该框架为每个器官系统使用专用的代理，并通过明确的代理间通信渠道建立动态模型，从而实现跨器官的协调治疗策略。此外，我们还引入了一种双层状态表示技术，在不同层次上将病人的情况上下文化，从而提高了治疗的准确性和相关性。通过在脓毒症（一种复杂的多器官疾病）治疗中进行广泛的定性和定量评估，我们的方法证明了其学习有效治疗策略的能力，从而显著提高了患者的存活率。这一框架标志着临床决策支持系统取得了实质性进展，开创了多器官治疗建议的综合方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Artificial Intelligence

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