Influence of pulsatile catheter pump synchronization on haemodynamic variables

Numerical simulation

L. Fresiello, C. De Lazzari, M. G. Trivella, A. Di Molfetta, G. Ferrari

Research output: Chapter in Book/Report/Conference proceedingConference contribution

1 Citation (Scopus)

Abstract

Severe cardiovascular diseases can be treated using left ventricular assist devices (LVAD). One of the possible LVADs is the Pulsatile Catheter (PUCA) pump that consists of a hydraulically or pneumatically driven membrane pump connected to a valved catheter. In this work a numerical model of the cardiocirculatory system and of the PUCA have been developed in order to study their interaction. In the numerical simulator a pathological condition of the left ventricle has been reproduced and successively the effects of the PUCA on the haemodynamic variables applied were studied. Different functioning modes were tested by changing the ratio between the pump frequency and the heart beat rate (HR) as 1:1, 1:2 or 1:3 and by introducing a delay time between the cardiac and the PUCA cycle. The performance of the pump was evaluated in terms of cardiac output, PUCA and coronary flows and it was studied for different HR values. Results show a good resemblance between the model and literature data and indicate that different synchronization and timing can influence the functioning of the pump. In particular, the frequency ratio and the time delay of the pump cycle can contribute to optimize the performance of the PUCA.

Original languageEnglish
Title of host publicationProceedings of the 7th IASTED International Conference on Biomedical Engineering, BioMED 2010
Pages1-5
Number of pages5
Volume1
Publication statusPublished - 2010
Event7th IASTED International Conference on Biomedical Engineering, BioMED 2010 - Innsbruck, Austria
Duration: Feb 17 2010Feb 19 2010

Other

Other7th IASTED International Conference on Biomedical Engineering, BioMED 2010
CountryAustria
CityInnsbruck
Period2/17/102/19/10

Fingerprint

Catheters
Hemodynamics
Synchronization
Pumps
Computer simulation
Heart Rate
Time delay
Cardiac Catheters
Left ventricular assist devices
Heart-Assist Devices
Cardiac Output
Heart Ventricles
Cardiovascular Diseases
Numerical models
Simulators
Membranes

Keywords

  • Cardiovascular system
  • Haemodynamics
  • Modelling
  • Simulation
  • Ventricular assist device

ASJC Scopus subject areas

  • Biomedical Engineering
  • Medicine (miscellaneous)

Cite this

Fresiello, L., De Lazzari, C., Trivella, M. G., Di Molfetta, A., & Ferrari, G. (2010). Influence of pulsatile catheter pump synchronization on haemodynamic variables: Numerical simulation. In Proceedings of the 7th IASTED International Conference on Biomedical Engineering, BioMED 2010 (Vol. 1, pp. 1-5)

Influence of pulsatile catheter pump synchronization on haemodynamic variables : Numerical simulation. / Fresiello, L.; De Lazzari, C.; Trivella, M. G.; Di Molfetta, A.; Ferrari, G.

Proceedings of the 7th IASTED International Conference on Biomedical Engineering, BioMED 2010. Vol. 1 2010. p. 1-5.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Fresiello, L, De Lazzari, C, Trivella, MG, Di Molfetta, A & Ferrari, G 2010, Influence of pulsatile catheter pump synchronization on haemodynamic variables: Numerical simulation. in Proceedings of the 7th IASTED International Conference on Biomedical Engineering, BioMED 2010. vol. 1, pp. 1-5, 7th IASTED International Conference on Biomedical Engineering, BioMED 2010, Innsbruck, Austria, 2/17/10.
Fresiello L, De Lazzari C, Trivella MG, Di Molfetta A, Ferrari G. Influence of pulsatile catheter pump synchronization on haemodynamic variables: Numerical simulation. In Proceedings of the 7th IASTED International Conference on Biomedical Engineering, BioMED 2010. Vol. 1. 2010. p. 1-5
Fresiello, L. ; De Lazzari, C. ; Trivella, M. G. ; Di Molfetta, A. ; Ferrari, G. / Influence of pulsatile catheter pump synchronization on haemodynamic variables : Numerical simulation. Proceedings of the 7th IASTED International Conference on Biomedical Engineering, BioMED 2010. Vol. 1 2010. pp. 1-5
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