Use of a model for simulating individual aortic dynamics in man

A simulation model is suggested for the analysis of aortic dynamics in man. The aortic model consists of six segments and is part of a larger model of the closed-loop human circulation. The model is simulated on a special-purpose analogue computer. Three parameters are employed to characterise the arterial system; peripheral resistance, aortic compliance and peripheral damping. Using a method for adapting the model to the individual patient, measurements of aortic pressure, cardiac output and pulse transmission time from 29 patients were used to test the validity of this approach. The model is able to simulate the pressure course along the aorta satisfactorily. The compliance calculated from the transmission properties of the aorta was compared with the complicance calculated from the stroke volume and pressure pulse. An adequate correlation (r=0.98) was found between these two independent methods. The mean compliance of the total aorta was 0.6 ml/mm Hg at a mean pressure of 104 mm Hg. The compliance showed large individual variations and decreasing values with increasing age of the patient. It is concluded that the model enables simulation of the individual aorta.