If you would like to write for this, or any other Emerald publication, then please use our Emerald for Authors service information about how to choose which publication to write for and submission guidelines are available for all. Please visit www.emeraldinsight.com/authors for more information. About Emerald www.emeraldinsight.comEmerald is a global publisher linking research and practice to the benefit of society. The company manages a portfolio of more than 290 journals and over 2,350 books and book series volumes, as well as providing an extensive range of online products and additional customer resources and services.Emerald is both COUNTER 4 and TRANSFER compliant. The organization is a partner of the Committee on Publication Ethics (COPE) and also works with Portico and the LOCKSS initiative for digital archive preservation. AbstractPurpose -An arterial blood gas (ABG) interpretation remains indispensable tool to assess and monitor critically ill patients in the intensive care unit or other critical care settings. This paper proposes a mobile-based interpreter for ABG tests with the aim of providing accurate diagnosis in face of multiple acid-base and oxygenation disorders. The paper aims to discuss these issues. Design/methodology/approach -A rule-based expert system is designed and implemented using interpretation knowledge gathered from specialist physicians and peer-reviewed medical literature. The gathered knowledge of ABG tests are organized into premise-explanation pairs to deliver reliable evaluation with the appropriate differential in a timely manner. Findings -Performance of the developed interpreter prototype was assessed using a dataset of 74 ABG tests gathered from medical literature and clinical practice. The obtained results demonstrated that the identified acid-base and oxygenation disorders and their differential diagnoses are accurately correlated with those assessed manually by consultant specialist physicians. Research limitations/implications -This application is foreseen to be an everyday tool for clinicians at various levels; however, further studies are needed to evaluate its eventual impact on patients' outcomes. Originality/value -The contribution of this paper is the development of a new ABG interpreter which combines both the acid-base and oxygenation disorders in a single application. Unlike existing ABG interpreters, it is comprehensive and capable of accurately identifying all kinds of acid-base disorders and their combinations. In addition, it utilizes urine electrolytes which are useful tools in the differential diagnosis of normal anion gap metabolic acidosis and metabolic alkalosis. The interpretation algorithm is also designed to be flexible for some clinical settings which lack some input test data.
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