Use of a comprehensive numerical model to improve biventricular pacemaker temporization in patients affected by heart failure undergoing to CRT-D therapy

Cardiac resynchronization therapy by biventricular pacemaker/ICD implantation is a validated therapy for patients affected by heart failure with asynchrony of ventricular contraction. Considering the large number of parameters which play a role in cardiac resynchronization therapy, a comprehensive numerical model of cardiocirculatory system could be a useful tool to support clinical decisions. A variable elastance model of ventricles was updated to model the interventricular septum and to simulate the interventricular and the intraventricular desynchrony, and the effect of the biventricular stimulation. In addition, a numerical model of the biventricular pacemaker, which drives the beginning of the heart chambers and interventricular septum contraction, was also developed. In order to validate the model, five patients affected by dilated cardiomyopathy were analysed by echocardiography and electrocardiography before implantation, 24 h and 3 months after the implantation. The developed numerical model permits to reproduce clinical data and to estimate the trend of parameters that are difficult to measure (i.e. left ventricular systolic elastance). Furthermore, the model permits to study the effect of different biventricular pacemaker temporizations on hemodynamic variables.

[1]  Christophe Leclercq,et al.  Predictors of response to cardiac resynchronization therapy (PROSPECT)--study design. , 2005, American heart journal.

[2]  D. Baudendistel Heart Disease A Textbook of Cardiovascular Medicine , 1993 .

[3]  A. Shoukas,et al.  Load Independence of the Instantaneous Pressure‐Volume Ratio of the Canine Left Ventricle and Effects of Epinephrine and Heart Rate on the Ratio , 1973, Circulation research.

[4]  佐川 喜一,et al.  Cardiac contraction and the pressure-volume relationship , 1988 .

[5]  Catherine Klersy,et al.  Interventricular and intraventricular dyssynchrony are common in heart failure patients, regardless of QRS duration. , 2004, European heart journal.

[6]  G Ferrari,et al.  Computer simulation of coronary flow waveforms during caval occlusion. , 2009, Methods of information in medicine.

[7]  G Ferrari,et al.  Application of a user-friendly comprehensive circulatory model for estimation of hemodynamic and ventricular variables , 2008, The International journal of artificial organs.

[8]  Theodosios Korakianitis,et al.  A concentrated parameter model for the human cardiovascular system including heart valve dynamics and atrioventricular interaction. , 2006, Medical engineering & physics.

[9]  Maciej Kozarski,et al.  Erratum: Application of a user-friendly comprehensive circulatory model for estimation of hemodynamic and ventricular variables (International Journal of Artificial Organs (2008) vol. 31(12) (1043-54)) , 2009 .

[10]  G. Drzewiecki,et al.  A nonlinear model of the arterial system incorporating a pressure-dependent compliance , 1990, IEEE Transactions on Biomedical Engineering.

[11]  Kiichi Sagawa,et al.  Cardiac Contraction and the Pressure-Volume Relationship , 1988 .

[12]  Arthur C. Guyton,et al.  Circulatory physiology : cardiac output and its regulation , 1965 .

[13]  Roy C. P. Kerckhoffs,et al.  Cardiac resynchronization: insight from experimental and computational models. , 2008, Progress in biophysics and molecular biology.

[14]  Albert Meijer,et al.  Effect of optimizing the VV interval on left ventricular contractility in cardiac resynchronization therapy. , 2004, The American journal of cardiology.

[15]  Gianfranco Ferrari,et al.  Biventricular pacemaker synchronization: A numerical cardiocirculatory model application to reproduce in vivo data , 2010 .

[16]  M. Cheitlin,et al.  Beneficial Hemodynamic and Clinical Effects of Surgical Ventricular Restoration in Patients With Ischemic Dilated Cardiomyopathy , 2008 .

[17]  G Ferrari,et al.  A modular numerical model of the cardiovascular system for studying and training in the field of cardiovascular physiopathology. , 1992, Journal of biomedical engineering.

[18]  E. Braunwald Heart Disease: A Textbook of Cardiovascular Medicine , 1992, Annals of Internal Medicine.

[19]  Zoran B Popović,et al.  Comparative value of single-beat load-independent contractility indices in dilated cardiomyopathy and mitral regurgitation. , 2003, Journal of the American Society of Echocardiography : official publication of the American Society of Echocardiography.