Anaesthesia is important for both surgery and intensive care and intravenous anaesthetics are
widely used to provide rapid onset, stable maintenance, and rapid recovery compared with
inhaled anaesthetics. The aim of the project on which this thesis is based was to investigate a
reliable and safe methodology for delivering total intravenous anaesthesia using closed-loop
control technology and bispectral analysis of human electroencephalogram (EEG) waveform.
In comparison with Target Controlled Infusion (TCI), drug effect is measured during drug
infusion in closed loop anaesthesia (CLAN). This may provide superior safety, better patient
care, and better quality of anaesthesia whilst relieving the clinician of the need to make
recurrent and minor alterations to drug administration.
However, the development of a CLAN system has been hindered by the Jack of a 'gold
standard' for anaesthetic states and difficulties with patient variability in pharmacokinetic and
pharmacodynamic modelling, and a new and generic mathematical model of a closed-loop
anaesthesia system was developed for this investigation. By using this CLAN model,
investigations on pharmacokinetic and pharmacodynamic variability existing in patients were
carried out. A new control strategy that combines a Proportional, Integral, Derivative (PID)
controller, bispectral analysis of EEG waveform and pharmacokinetic/ pharmacodynamic
models was investigated.
Based on the mathematical model, a prototype CLAN system, the first CLAN system capable
of delivering both hypnotics and analgesics simultaneously for total intravenous anaesthesia,
was developed. A Bispectral Index (BIS), derived from power spectral and bispectral analysis
on EEG waveform, is used to measure depth of anaesthesia. A supervision system with built-in
digital signal processing techniques was developed to compensate the non-linear
characteristics inherent in the system while providing a comprehensive protection mechanism
for patient safety. The CLAN system was tested in 78125 virtual patients modelled using
published data. Investigations on intravenous anaesthesia induction and maintenance with the
CLAN system were carried out in various clinical settings on 21 healthy volunteers and 15
patients undergoing surgery. Anaesthesia targets were achieved quickly and well maintained
in all volunteers/patients except for 2 patients with clinically satisfactory anaesthesia quality.
Date of Award | 2003 |
---|
Original language | English |
---|
Awarding Institution | |
---|
Supervisor | Emmanuel Ifeachor (Director of Studies (First Supervisor)) & J Robert Sneyd (Other Supervisor) |
---|
CLOSED-LOOP CONTROLLED TOTAL INTRA VENOUS ANAESTHESIA
DONG, C. (Author). 2003
Student thesis: PhD