Simulation of changes in myocardial tissue properties during left ventricular assistance with a rotary blood pump

Autor: Martina, Jerson R., Bovendeerd, Peter H. M., de Jonge, Nicolaas, de Mol, Bas A. J. M., Lahpor, Jaap R., Rutten, Marcel C. M.
Přispěvatelé: Amsterdam Cardiovascular Sciences, Cardiothoracic Surgery
Jazyk: angličtina
Rok vydání: 2013
Předmět:
Zdroj: Artificial organs, 37(6), 531-540. Wiley-Blackwell
ISSN: 0160-564X
Popis: We considered a mathematical model to investigate changes in geometric and hemodynamic indices of left ventricular function in response to changes in myofiber contractility and myocardial tissue stiffness during rotary blood pump support. Left ventricular assistance with a rotary blood pump was simulated based on a previously published biventricular model of the assisted heart and circulation. The ventricles in this model were based on the one-fiber model that relates ventricular function to myofiber contractility and myocardial tissue stiffness. The simulations showed that indices of ventricular geometry, left ventricular shortening fraction, and ejection fraction had the same response to variations in myofiber contractility and myocardial tissue stiffness. Hemodynamic measures showed an inverse relation compared with geometric measures. Particularly, pulse pressure and arterial dP/dtmax increased when myofiber contractility increased, whereas increasing myocardial tissue stiffness decreased these measures. Similarly, the lowest pump speed at which the aortic valve remained closed increased when myofiber contractility increased and decreased when myocardial tissue stiffness increased. Therefore, simultaneous monitoring of hemodynamic parameters and ventricular geometry indirectly reflects the status of the myocardial tissue. The appropriateness of this strategy will be evaluated in the future, based on in vivo studies
Databáze: OpenAIRE