Clinical practice guidelines are expected to promote more consistent, effective, and efficient medical practices and improve health outcomes, especially if provided in the form of clinical decision support. However, most clinical guidelines, especially when expressed in the form of condition-action recommendations, embody different kinds of structural errors that compromise their practical value. With this respect, this paper presents a novel method for verifying the reliability of condition-action clinical recommendations encoded in the form of fuzzy rules, with the final aim of determining inconsistency, redundancy and incompleteness anomalies in a very simple and understandable fashion. The method is based on general definitions of inconsistency, redundancy and incompleteness for fuzzy clinical rules in terms of similarity between antecedents and consequents, bringing them near the imprecise character of fuzzy decision support systems. A key issue relies on the formalization of fuzzy degrees for these anomalies that can be simply interpreted by the final users as measurements suggesting the modifications to be performed to the clinical rules in order to eliminate or mitigate the existing undesired effects. The method has been profitably assessed on two sample sets of clinical rules: the first one identified from the relevant clinical literature and the second one extracted automatically by machine learning techniques from a widely known clinical database. The achieved results prove simplicity and usability of our method in detecting structural anomalies and in adjusting a rule base by exploiting information carried out during the verification phase. © 2012 - IOS Press and the authors. All rights reserved.

Structural verification through similarity measures for fuzzy rule bases representing clinical guidelines

Esposito Massimo;Maisto Domenico
2012

Abstract

Clinical practice guidelines are expected to promote more consistent, effective, and efficient medical practices and improve health outcomes, especially if provided in the form of clinical decision support. However, most clinical guidelines, especially when expressed in the form of condition-action recommendations, embody different kinds of structural errors that compromise their practical value. With this respect, this paper presents a novel method for verifying the reliability of condition-action clinical recommendations encoded in the form of fuzzy rules, with the final aim of determining inconsistency, redundancy and incompleteness anomalies in a very simple and understandable fashion. The method is based on general definitions of inconsistency, redundancy and incompleteness for fuzzy clinical rules in terms of similarity between antecedents and consequents, bringing them near the imprecise character of fuzzy decision support systems. A key issue relies on the formalization of fuzzy degrees for these anomalies that can be simply interpreted by the final users as measurements suggesting the modifications to be performed to the clinical rules in order to eliminate or mitigate the existing undesired effects. The method has been profitably assessed on two sample sets of clinical rules: the first one identified from the relevant clinical literature and the second one extracted automatically by machine learning techniques from a widely known clinical database. The achieved results prove simplicity and usability of our method in detecting structural anomalies and in adjusting a rule base by exploiting information carried out during the verification phase. © 2012 - IOS Press and the authors. All rights reserved.
2012
Istituto di Calcolo e Reti ad Alte Prestazioni - ICAR
clinical guidelines
fuzzy decision support systems
Structural verification
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/261116
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