2017
DOI: 10.1002/acs.2832
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Coordinated semi‐adaptive closed‐loop control for infusion of two interacting medications

Abstract: SummaryThis paper presents a coordinated and semi-adaptive closed-loop control approach to the infusion of 2 interacting medications. The proposed approach consists of an upper-level coordination controller and a lower-level semiadaptive controller. The coordination controller recursively adjusts the reference targets based on the estimated dose-response relationship of a patient to ensure that they can be achieved by the patient. The semi-adaptive controller drives the patient outputs to the reference targets… Show more

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Cited by 5 publications
(5 citation statements)
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“…Time varying input constraints are required for anesthesia as drug infusion during induction (first 10 minutes) is much higher than during maintenance. The following parameters are used here [37]:…”
Section: B Simulation Resultsmentioning
confidence: 99%
“…Time varying input constraints are required for anesthesia as drug infusion during induction (first 10 minutes) is much higher than during maintenance. The following parameters are used here [37]:…”
Section: B Simulation Resultsmentioning
confidence: 99%
“…Computational physiological models have been widely used to design and evaluate closed-loop anesthetic delivery systems. The systems control level of consciousness (Elkfafi et al, 1998; Bibian et al, 2006a,b; Dumont et al, 2009; Hahn et al, 2012; Kharisov et al, 2012; Merigo et al, 2017), analgesia (Gentilini et al, 2002; Ionescu et al, 2014), neuromuscular blockade (Zhusubaliyev et al, 2014; Almeida et al, 2017) or combinations of these goals (Fang et al, 2014; Silva et al, 2014; Jin et al, 2018). Additionally a series of studies designed closed-loop propofol delivery with the specific aim of inducing and maintaining pharmacologic burst suppression based on processed EEG signal (Liberman et al, 2013; Westover et al, 2015).…”
Section: Closed-loop Systems For Anesthetic Deliverymentioning
confidence: 99%
“…PCLC devices intended for control of hypnosis delivered propofol and used feedback variables such as bispectral index (BIS) (Kharisov et al, 2012; Merigo et al, 2017), WAVcns (Dumont et al, 2009; Hahn et al, 2012), or auditory evoked response (Elkfafi et al, 1998) to titrate anesthetic agents including propofol and isoflurane. Some studies combined the closed-loop delivery of hypnosis with analgesia leading to closed-loop co-administration of propofol and remifentanil (Ionescu et al, 2014; Jin et al, 2018). Neuromuscular blockade agents such as rocuronium and atracurium were used and controlled using feedback variables based on muscle movement (Silva et al, 2015; Almeida et al, 2017) and in some studies combined with closed-loop hypnosis delivery (Linkens and Mahfouf, 1992; Fang et al, 2014; Silva et al, 2014).…”
Section: Closed-loop Systems For Anesthetic Deliverymentioning
confidence: 99%
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“…Most prior PCLC systems have been developed with the rather unrealistic assumption that a single PCLC system is recruited in an isolated fashion for patient care, and subsequently, these isolated and independent PCLC systems have been recruited together without much careful account for their interactions [18,21,44,45,47]. In contrast, existing efforts on the development of PCLC systems capable of co-administering multiple treatments simultaneously with explicit account for possible loop-to-loop interactions are relatively rare [62]. More fundamentally, potential adverse events and safety risks associated with the interferences among multiple PCLC systems acting on a patient have been largely neglected, and naturally, innovations to reconcile and harmonize conflicts in therapeutic objectives that can occur during the co-management of multiple PCLC systems (e.g.…”
mentioning
confidence: 99%