Title :
Physiological Modelling and Multivariable SOFLC of Drug Administration for Critically III Patients
Author :
King, O.K. ; Mahfouf, M. ; Ross, Jonathan J. ; Denai, Mouloud
Author_Institution :
Sheffield Univ., Sheffield
Abstract :
A compartmental model is modified to simulate the capillary leak associated with sepsis and cardiopulmonary bypass (CPB). Sepsis refers to a systemic inflammatory response to bacterial infection. This involves continuously updating the oncotic pressures with regard to the flows in and out of each compartment. As a result, it is possible to model the effects of administering fluids with different oncotic pressures on filtration. The model allows for simulated infusions of vasoactive and inotropic drugs with a range of sensitivities to these drugs, giving a comprehensive platform for testing various control strategies. Furthermore, self-organising fuzzy logic control (SOFLC), drug sensitivity estimation, linear decoupling and noise filtering were used to control this system in a multivariable control scheme.
Keywords :
drug delivery systems; fuzzy control; multivariable control systems; physiological models; self-adjusting systems; bacterial infection; capillary leak; compartmental model; critically ill patients; drug administration; drug sensitivity estimation; linear decoupling; multivariable SOFLC; noise filtering; physiological modelling; self-organising fuzzy logic control; systemic inflammatory response; Blood flow; Cardiology; Control systems; Drugs; Equations; Filtration; Heart rate; Medical control systems; Modeling; Systems engineering and theory;
Conference_Titel :
Fuzzy Systems Conference, 2007. FUZZ-IEEE 2007. IEEE International
Conference_Location :
London
Print_ISBN :
1-4244-1209-9
Electronic_ISBN :
1098-7584
DOI :
10.1109/FUZZY.2007.4295568
