The goal of multimodality neuromonitoring is to provide continuous, real-time assessment of brain physiology to prevent, detect, and attenuate secondary brain injury. Clinical informatics deals with biomedical data, information, and knowledge including their acquisition, storage, retrieval, and optimal use for clinical decision-making. An electronic literature search was conducted for English language articles describing the use of informatics in the intensive care unit setting from January 1990 to August 2013. A total of 64 studies were included in this review. Clinical informatics infrastructure should be adopted that enables a wide range of linear and nonlinear analytical methods be applied to patient data. Specific time epochs of clinical interest should be reviewable. Analysis strategies of monitor alarms may help address alarm fatigue. Ergonomic data display that present results from analyses with clinical information in a sensible uncomplicated manner improve clinical decision-making. Collecting and archiving the highest resolution physiologic and phenotypic data in a comprehensive open format data warehouse is a crucial first step toward information management and two-way translational research for multimodality monitoring. The infrastructure required is largely the same as that needed for telemedicine intensive care applications, which under the right circumstances improves care quality while reducing cost.

Schmidt, J., De Georgia, M., Le Roux, P., Menon, D., Vespa, P., Citerio, G., et al. (2014). Multimodality Monitoring: Informatics, Integration Data Display and Analysis. NEUROCRITICAL CARE, 21(2), 229-238 [10.1007/s12028-014-0037-1].

Multimodality Monitoring: Informatics, Integration Data Display and Analysis

Citerio G.;
2014

Abstract

The goal of multimodality neuromonitoring is to provide continuous, real-time assessment of brain physiology to prevent, detect, and attenuate secondary brain injury. Clinical informatics deals with biomedical data, information, and knowledge including their acquisition, storage, retrieval, and optimal use for clinical decision-making. An electronic literature search was conducted for English language articles describing the use of informatics in the intensive care unit setting from January 1990 to August 2013. A total of 64 studies were included in this review. Clinical informatics infrastructure should be adopted that enables a wide range of linear and nonlinear analytical methods be applied to patient data. Specific time epochs of clinical interest should be reviewable. Analysis strategies of monitor alarms may help address alarm fatigue. Ergonomic data display that present results from analyses with clinical information in a sensible uncomplicated manner improve clinical decision-making. Collecting and archiving the highest resolution physiologic and phenotypic data in a comprehensive open format data warehouse is a crucial first step toward information management and two-way translational research for multimodality monitoring. The infrastructure required is largely the same as that needed for telemedicine intensive care applications, which under the right circumstances improves care quality while reducing cost.
Articolo in rivista - Contributo a Forum/Dibattito, Introduzione
Critical care, Data display, Data integration, Decision support, Informatics, Neuromonitoring
English
2014
21
2
229
238
none
Schmidt, J., De Georgia, M., Le Roux, P., Menon, D., Vespa, P., Citerio, G., et al. (2014). Multimodality Monitoring: Informatics, Integration Data Display and Analysis. NEUROCRITICAL CARE, 21(2), 229-238 [10.1007/s12028-014-0037-1].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/284423
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