Modeling a healthy and a person with heart failure conditions using the object-oriented modeling environment Dymola.

Several mathematical models of different physiological systems are spread through literature. They serve as tools which improve the understanding of (patho-) physiological processes, may help to meet clinical decisions and can even enhance medical therapies. These models are typically implemented in a signal-flow-oriented simulation environment and focus on the behavior of one specific subsystem. Neglecting other physiological subsystems and using a technical description of the physiology hinders the exchange with and acceptance of clinicians. By contrast, this paper presents a new model implemented in a physical, object-oriented modeling environment which includes the cardiovascular, respiratory and thermoregulatory system. Simulation results for a healthy subject at rest and at the onset of exercise are given, showing the validity of the model. Finally, simulation results showing the interaction of the cardiovascular system with a ventricular assist device in case of heart failure are presented showing the flexibility and mightiness of the model and the simulation environment. Thus, we present a new model including three important physiological systems and one medical device implemented in an innovative simulation environment.