Title :
Using Bayesian networks for diagnostic reasoning in penetrating injury assessment
Author :
Ogunyemi, Omolola ; Clarke, John R. ; Webber, Bonnie
Author_Institution :
Decision Syst. Group, Brigham & Women´´s Hospital, Boston, MA, USA
Abstract :
Describes a method for diagnostic reasoning under uncertainty that is used in TraumaSCAN, a computer-based system for assessing penetrating trauma. Uncertainty in assessing penetrating injuries arises from two different sources: the actual extent of damage associated with a particular injury mechanism may not be easily discernable, and there may be incomplete information about patient findings (signs, symptoms and test results) which provide clues about the extent of the injury. Bayesian networks are used in TraumaSCAN for diagnostic reasoning because they provide a mathematically sound means of making probabilistic inferences about the injury in the face of uncertainty. We also present a comparison of TraumaSCAN´s results in assessing 26 actual gunshot wound cases with those of TraumAID, a validated rule-based expert system for the diagnosis and treatment of penetrating trauma
Keywords :
belief networks; diagnostic expert systems; diagnostic reasoning; medical diagnostic computing; medical expert systems; uncertainty handling; Bayesian networks; TraumAID; TraumaSCAN; computer-based system; damage extent; diagnostic reasoning; gunshot wounds; incomplete information; medical diagnosis; patient findings; penetrating injury assessment; penetrating trauma; probabilistic inferences; rule-based expert system; uncertainty; Bayesian methods; Diagnostic expert systems; Hospitals; Human anatomy; Informatics; Injuries; Intelligent networks; Testing; Uncertainty; Wounds;
Conference_Titel :
Computer-Based Medical Systems, 2000. CBMS 2000. Proceedings. 13th IEEE Symposium on
Conference_Location :
Houston, TX
Print_ISBN :
0-7695-0484-1
DOI :
10.1109/CBMS.2000.856888
