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本文引用的文献

1
Ontology-based configuration of problem-solving methods and generation of knowledge-acquisition tools: application of PROTEGE-II to protocol-based decision support.基于本体的问题解决方法配置与知识获取工具生成:PROTEGE-II在基于协议的决策支持中的应用
Artif Intell Med. 1995 Jun;7(3):257-89. doi: 10.1016/0933-3657(95)00006-r.

识别全局数据和分区方案以对电子病历中的生物数据进行建模。

Identification of global data and partitioning scheme for modeling biological data within the electronic medical record.

作者信息

Doller H, Peterson L L

机构信息

Laboratory of Artificial Intelligence, North Texas Healthcare System, Department of Veterans Affairs, Dallas, Texas.

出版信息

Proc AMIA Symp. 2000:195-9.

PMID:11079872
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2243740/
Abstract

Using "Black Box" theory we analyzed human physiology. The major physiological means of communication are the vascular and nervous systems. The fundamental partitions of physiology are the vascular capillary fields and efferent and afferent fields of the nervous system. These fields are generally associated with organs and organ systems. Such analysis leads to the conclusion that the global biological data are information carried within the vascular and nervous systems. Data elements and processes within organs are important to other organs only through their effects on these global elements. Incorporation of these concepts into medical databases would allow the partitioning of the software around physiological systems. As a result of partitioning the utility of the electronic medical record, software could be greatly expanded.

摘要

运用“黑箱”理论,我们对人体生理学进行了分析。主要的生理通讯方式是血管系统和神经系统。生理学的基本划分是血管毛细血管区域以及神经系统的传出和传入区域。这些区域通常与器官和器官系统相关联。这样的分析得出结论:整体生物数据是血管系统和神经系统所承载的信息。器官内的数据元素和过程仅通过它们对这些整体元素的影响才对其他器官具有重要意义。将这些概念纳入医学数据库将允许围绕生理系统对软件进行划分。由于对电子病历进行了划分,软件功能可以得到极大扩展。