Abstract: To advance the informatization of laboratory animal management and meet the requirements for full lifecycle traceability, this study integrates advanced information technologies to develop a laboratory animal management system based on a B/S architecture. The system fundamentally optimizes the management of laboratory animals by providing a scientifically efficient approach to comprehensively record individual animal information and family lineage. It eliminates the dependency on the physical location of laboratory animal facilities, introducing unprecedented flexibility and precision to animal management. With this system, researchers can efficiently handle the complex tasks of managing genetically modified animals, significantly streamline operational workflows, and focus more on addressing scientific challenges and driving innovation, thereby enhancing research efficiency. The system features robust functionality, ease of use, and a user-friendly interface. It has been successfully implemented in multiple laboratory animal centers, serving as a critical technological foundation for improving the management and service levels of laboratory animal operations.

Key words: B/S architecture, laboratory animal management system, laboratory animal facilities, genetically modified animals, virtualization

摘要： 为推动实验动物管理的信息化升级,满足实验动物全生命周期的可溯源性要求,本研究整合多种先进信息化 技术,开发了一套基于B/S架构的实验动物管理系统。该系统从根本上优化了实验动物的管理方式,以科学高效 的手段全面记录实验动物的个体信息及家族谱系,突破了传统实验动物设施对物理位置的依赖,为实验动物管理 注入了全新的灵活性和精准性。通过该系统,研究人员可以高效处理复杂的基因修饰动物管理任务,大幅简化操 作流程,将更多精力专注于科学问题的研究和创新,从而显著提升科研效率。系统功能设计完善,操作简洁便捷, 兼具专业性与用户友好性,已成功应用于多家实验动物中心,成为提升实验动物管理和服务水平的重要技术支撑。

关键词: B/S架构, 实验动物管理系统, 实验动物设施, 基因修饰动物, 虚拟化