Impact of LVAD Implantation Site on Ventricular Blood Stagnation

Anthony R. Prisco, Alberto Aliseda, Jennifer A. Beckman, Nahush A. Mokadam, Claudius Mahr, Guilherme J.M. Garcia

Research output: Contribution to journalArticlepeer-review

18 Scopus citations


Treatment of end-stage heart failure includes cardiac transplantation or ventricular assist device (VAD) therapy. Although increasingly prevalent, current VAD therapy has inherent complications, including thrombosis. Studies have demonstrated that VAD implantation alters intracardiac blood flow, creating areas of stagnation that predispose to thrombus formation. Two potential surgical configurations exist for VAD implantation: through the apical or diaphragmatic surfaces of the heart. We hypothesized that diaphragmatic implantation causes more stagnation than apical implantation. We also hypothesized that intermittent aortic valve (AV) opening reduces stagnation of blood inside the left ventricle (LV) when compared with a closed AV. To test these hypotheses, a human LV geometry was recreated in silico and a VAD inflow cannula was virtually implanted in each configuration. A computational indicator-dilution study was conducted where "virtually dyed blood" was washed out of the LV by injecting blood with no dye. Simulations demonstrated a substantial reduction in stagnation with intermittent AV opening. In addition, virtual dye was cleared slightly faster in the apical configuration. Simulations from our study demonstrate the clinical importance of VAD management to allow intermittent opening of the AV to prevent subvalvular stagnation, and also suggests that apical configuration might be more hemodynamically favorable.

Original languageEnglish (US)
Pages (from-to)392-400
Number of pages9
JournalASAIO Journal
Issue number4
StatePublished - 2017

Bibliographical note

Funding Information:
This project was supported in part by the National Center for Advancing Translational Sciences, National Institutes of Health, through Grant Numbers 8KL2TR000056 and UL1TR001436. Its contents are solely the responsibility of the authors and do not necessarily represent the official views of the NIH.

Publisher Copyright:
Copyright © 2017 by the ASAIO.


  • blood flow
  • computational fluid dynamics
  • stagnation
  • surgical configuration
  • ventricular assist device


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