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dc.contributor.authorKim, Seong-Eun
dc.contributor.authorChing, ShiNung
dc.contributor.authorBrown, Emery N.
dc.contributor.authorWestover, M. Brandon
dc.contributor.authorPurdon, Patrick L.
dc.date.accessioned2016-05-02T17:08:39Z
dc.date.available2016-05-02T17:08:39Z
dc.date.issued2015-05
dc.date.submitted2015-03
dc.identifier.issn1741-2560
dc.identifier.issn1741-2552
dc.identifier.urihttp://hdl.handle.net/1721.1/102355
dc.description.abstractObjective. Medical coma is an anesthetic-induced state of brain inactivation, manifest in the electroencephalogram by burst suppression. Feedback control can be used to regulate burst suppression, however, previous designs have not been robust. Robust control design is critical under real-world operating conditions, subject to substantial pharmacokinetic and pharmacodynamic parameter uncertainty and unpredictable external disturbances. We sought to develop a robust closed-loop anesthesia delivery (CLAD) system to control medical coma. Approach. We developed a robust CLAD system to control the burst suppression probability (BSP). We developed a novel BSP tracking algorithm based on realistic models of propofol pharmacokinetics and pharmacodynamics. We also developed a practical method for estimating patient-specific pharmacodynamics parameters. Finally, we synthesized a robust proportional integral controller. Using a factorial design spanning patient age, mass, height, and gender, we tested whether the system performed within clinically acceptable limits. Throughout all experiments we subjected the system to disturbances, simulating treatment of refractory status epilepticus in a real-world intensive care unit environment. Main results. In 5400 simulations, CLAD behavior remained within specifications. Transient behavior after a step in target BSP from 0.2 to 0.8 exhibited a rise time (the median (min, max)) of 1.4 [1.1, 1.9] min; settling time, 7.8 [4.2, 9.0] min; and percent overshoot of 9.6 [2.3, 10.8]%. Under steady state conditions the CLAD system exhibited a median error of 0.1 [−0.5, 0.9]%; inaccuracy of 1.8 [0.9, 3.4]%; oscillation index of 1.8 [0.9, 3.4]%; and maximum instantaneous propofol dose of 4.3 [2.1, 10.5] mg kg[superscript −1]. The maximum hourly propofol dose was 4.3 [2.1, 10.3] mg kg[superscript −1] h[superscript −1]. Performance fell within clinically acceptable limits for all measures. Significance. A CLAD system designed using robust control theory achieves clinically acceptable performance in the presence of realistic unmodeled disturbances and in spite of realistic model uncertainty, while maintaining infusion rates within acceptable safety limits.en_US
dc.language.isoen_US
dc.publisherIOP Publishingen_US
dc.relation.isversionofhttp://dx.doi.org/10.1088/1741-2560/12/4/046004en_US
dc.rightsCreative Commons Attribution-Noncommercial-Share Alikeen_US
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/4.0/en_US
dc.sourcePMCen_US
dc.titleRobust control of burst suppression for medical comaen_US
dc.typeArticleen_US
dc.identifier.citationWestover, M Brandon, Seong-Eun Kim, ShiNung Ching, Patrick L Purdon, and Emery N Brown. “Robust Control of Burst Suppression for Medical Coma.” Journal of Neural Engineering 12, no. 4 (May 28, 2015): 046004.en_US
dc.contributor.departmentMassachusetts Institute of Technology. Department of Brain and Cognitive Sciencesen_US
dc.contributor.departmentPicower Institute for Learning and Memoryen_US
dc.contributor.mitauthorKim, Seong-Eunen_US
dc.contributor.mitauthorBrown, Emery N.en_US
dc.relation.journalJournal of Neural Engineeringen_US
dc.eprint.versionAuthor's final manuscripten_US
dc.type.urihttp://purl.org/eprint/type/JournalArticleen_US
eprint.statushttp://purl.org/eprint/status/PeerRevieweden_US
dspace.orderedauthorsWestover, M Brandon; Kim, Seong-Eun; Ching, ShiNung; Purdon, Patrick L; Brown, Emery Nen_US
dc.identifier.orcidhttps://orcid.org/0000-0003-2668-7819
dc.identifier.orcidhttps://orcid.org/0000-0002-4518-4208
mit.licenseOPEN_ACCESS_POLICYen_US


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