Biaxial analysis of synthetic scaffolds for hernia repair demonstrates variability in mechanical anisotropy, non-linearity and hysteresis-Reference-Cited by-同舟云学术

Biaxial analysis of synthetic scaffolds for hernia repair demonstrates variability in mechanical anisotropy, non-linearity and hysteresis

Published:2014-10 Issue: Volume:38 Page:6-16
ISSN:1751-6161
Container-title:Journal of the Mechanical Behavior of Biomedical Materials
language:en
Short-container-title:Journal of the Mechanical Behavior of Biomedical Materials

Author:

Deeken Corey R.,Thompson Dominic M.,Castile Ryan M.,Lake Spencer P.

Funder

Washington University School of Medicine Department of Surgery and the Washington University Department of Mechanical Engineering & Materials Science

Publisher

Elsevier BV

Subject

Mechanics of Materials,Biomedical Engineering,Biomaterials

Reference20 articles.

1. Cobb W., Carbonell A., Novitsky Y., Matthews B., 2009. Central mesh failure with lightweight mesh: a cautionary note. In: Presented at the European Hernia Society Meeting. Berlin, Germany.

2. Characterization of the mechanical strength, resorption properties, and histologic characteristics of a fully absorbable material (Poly-4-hydroxybutyrate-PHASIX Mesh) in a porcine model of hernia repair;Deeken;ISRN Surg.,2013

3. Physicomechanical evaluation of absorbable and nonabsorbable barrier composite meshes for laparoscopic ventral hernia repair;Deeken;Surg. Endosc.,2011

4. Physicomechanical evaluation of polypropylene, polyester, and polytetrafluoroethylene meshes for inguinal hernia repair;Deeken;J. Am. Coll. Surg.,2011

5. Differentiation of biologic scaffold materials through physicomechanical, thermal, and enzymatic degradation techniques;Deeken;Ann. Surg.,2012

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