Support for guideline development through error classification and constraint checking.

Proceedings. AMIA Symposium Pub Date : 2002-01-01

Mor Peleg, Vimla L Patel, Vincenza Snow, Samson Tu, Christel Mottur-Pilson, Edward H Shortliffe, Robert A Greenes

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Abstract

Clinical guidelines aim to eliminate clinician errors, reduce practice variation, and promote best medical practices. Computer-interpretable guidelines (CIGs) can deliver patient-specific advice during clinical encounters, which makes them more likely to affect clinician behavior than narrative guidelines. To reduce the number of errors that are introduced while developing narrative guidelines and CIGs, we studied the process used by the ACP-ASIM to develop clinical algorithms from narrative guidelines. We analyzed how changes progressed between subsequent versions of an algorithm and between a narrative guideline and its derived clinical algorithm. We recommend procedures that could limit the number of errors produced when generating clinical algorithms. In addition, we developed a tool for authoring CIGs in GLIF3 format and validating their syntax, data type matches, cardinality constraints, and structural integrity constraints. We used this tool to author guidelines and to check them for errors.

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通过错误分类和约束检查支持指南的制定。

临床指南旨在消除临床医生的错误，减少实践差异，促进最佳医疗实践。计算机可解释指南(CIGs)可以在临床接触中提供针对患者的建议，这使得它们比叙述性指南更有可能影响临床医生的行为。为了减少在制定叙事指南和CIGs时引入的错误数量，我们研究了ACP-ASIM从叙事指南开发临床算法的过程。我们分析了算法的后续版本之间以及叙事指南与其衍生临床算法之间的变化进展情况。我们推荐在生成临床算法时可以限制错误数量的程序。此外，我们还开发了一个工具，用于编写GLIF3格式的CIGs，并验证它们的语法、数据类型匹配、基数约束和结构完整性约束。我们使用这个工具来编写指导方针并检查它们的错误。

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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Proceedings. AMIA Symposium

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