A Novel Hybrid Membrane VAD as First Step Toward Hemocompatible Blood Propulsion.

Animals Cells, Cultured Coronary Circulation Endothelial Cells / physiology Equipment Design Heart-Assist Devices Hydrodynamics Membranes, Artificial Sheep

Endothelialization Hyperelastic membrane VAD Wall deformation Wall shear stress

Journal

Annals of biomedical engineering

ISSN: 1573-9686

Titre abrégé: Ann Biomed Eng

Pays: United States

ID NLM: 0361512

Informations de publication

Date de publication:
Feb 2021

Historique:

received: 26 02 2020

accepted: 11 08 2020

pubmed: 10 9 2020

medline: 6 10 2021

entrez: 9 9 2020

Statut: ppublish

Résumé

Heart failure is a raising cause of mortality. Heart transplantation and ventricular assist device (VAD) support represent the only available lifelines for end stage disease. In the context of donor organ shortage, the future role of VAD as destination therapy is emerging. Yet, major drawbacks are connected to the long-term implantation of current devices. Poor VAD hemocompatibility exposes the patient to life-threatening events, including haemorrhagic syndromes and thrombosis. Here, we introduce a new concept of artificial support, the Hybrid Membrane VAD, as a first-of-its-kind pump prototype enabling physiological blood propulsion through the cyclic actuation of a hyperelastic membrane, enabling the protection from the thrombogenic interaction between blood and the implant materials. The centre of the luminal membrane surface displays a rationally-developed surface topography interfering with flow to support a living endothelium. The precast cell layer survives to a range of dynamically changing pump actuating conditions i.e., actuation frequency from 1 to 4 Hz, stroke volume from 12 to 30 mL, and support duration up to 313 min, which are tested both in vitro and in vivo, ensuring the full retention of tissue integrity and connectivity under challenging conditions. In summary, the presented results constitute a proof of principle for the Hybrid Membrane VAD concept and represent the basis for its future development towards clinical validation.

Identifiants

DOI: 10.1007/s10439-020-02590-1 PMID: 32901382 PMC: PMC7851026

pubmed: 32901382

doi: 10.1007/s10439-020-02590-1

pii: 10.1007/s10439-020-02590-1

pmc: PMC7851026

doi:

Substances chimiques

Membranes, Artificial 0

Types de publication

Journal Article

Langues

eng

Sous-ensembles de citation

Pagination

716-731

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