Hemodynamic influence of design parameters of novel venous valve prostheses

Stiehm Michael; Kohse Stefanie; Schümann Kerstin; Kaule Sebastian; Siewert Stefan; Oldenburg Jan; Keiler Jonas; Grabow Niels; Wree Andreas; Schmitz Klaus-Peter

doi:10.1515/cdbme-2018-0037

Current Directions in Biomedical Engineering (Sep 2018)

Hemodynamic influence of design parameters of novel venous valve prostheses

Stiehm Michael,
Kohse Stefanie,
Schümann Kerstin,
Kaule Sebastian,
Siewert Stefan,
Oldenburg Jan,
Keiler Jonas,
Grabow Niels,
Wree Andreas,
Schmitz Klaus-Peter

Affiliations

Stiehm Michael: Institute for ImplantTechnology and Biomaterials e.V., Friedrich- Barnewitz-Str. 4, 18119 Rostock-Warnemünde, Germany
Kohse Stefanie: Institute for Biomedical Engineering, Rostock University Medical Center, Friedrich- Barnewitz-Str. 4, 18119 Rostock-Warnemünde, Germany
Schümann Kerstin: Institute for Biomedical Engineering, Rostock University Medical Center, Friedrich- Barnewitz-Str. 4, 18119 Rostock-Warnemünde, Germany
Kaule Sebastian: Institute for ImplantTechnology and Biomaterials e.V., Friedrich- Barnewitz-Str. 4, 18119 Rostock-Warnemünde, Germany
Siewert Stefan: Institute for ImplantTechnology and Biomaterials e.V., Friedrich- Barnewitz-Str. 4, 18119 Rostock-Warnemünde, Germany
Oldenburg Jan: Institute for Biomedical Engineering, Rostock University Medical Center, Friedrich- Barnewitz-Str. 4, 18119 Rostock-Warnemünde, Germany
Keiler Jonas: Department of Anatomy, Rostock University Medical Center, Gertrudenstr. 9, 18057Rostock, Germany
Grabow Niels: Institute for Biomedical Engineering, Rostock University Medical Center, Friedrich- Barnewitz-Str. 4, 18119 Rostock-Warnemünde, Germany
Wree Andreas: Department of Anatomy, Rostock University Medical Center, Gertrudenstr. 9, 18057Rostock, Germany
Schmitz Klaus-Peter: Institute for Biomedical Engineering, Rostock University Medical Center, Friedrich- Barnewitz-Str. 4, 18119 Rostock-Warnemünde, Germany

DOI: https://doi.org/10.1515/cdbme-2018-0037
Journal volume & issue: Vol. 4, no. 1
pp. 149 – 151

Abstract

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Venous ulcers of the lower limbs are one clinical manifestation of chronic venous insufficiency. Currently, there is no venous valve prosthesis available. This study presents novel venous valve prostheses made of threedimensional electrospun fibrous nonwoven leaflets. The aim of this study was to prove the feasibility of the manufacturing process as well as to investigate design features of the venous valve prostheses from a hemodynamic point of view. An adapted pulse duplicator system (ViVitrolabs, Victoria, BC, CA) was used for characterization of the hydrodynamic performance. For eight different venous valve prototypes flow rate, effective orifice area and regurgitation fraction was investigated in vitro. In particular, tricusp valve designs showed an up to 40% higher effective orifice area as well as 15% higher maximum flowrate compared to bicusp valve designs. However, the regurgitation fraction of the bicusp valve designs is up to 86% lower compared to tricusp valve. Additionally, the hemodynamic performance of the tricuspid valves showed a high sensitivity regarding the leaflet length. Bicuspid valves are less sensitive to changes of design parameters, more sufficient and therefore highly reliable.

Published in Current Directions in Biomedical Engineering

ISSN: 2364-5504 (Online)
Publisher: De Gruyter
Country of publisher: Germany
LCC subjects: Medicine
Website: https://www.degruyter.com/view/j/cdbme

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