Axel D. Haubold scite author profile

Hybrid heart valve scaffolds were fabricated from decellularized porcine aortic heart valve matrices and enhanced with bioresorbable polymers using different protocols: (i) dip coating of lyophilized decellularized matrices, and (ii) impregnation of wet decellularized matrices. The following polymers were evaluated: poly(4-hydroxybutyrate) and poly(3-hydroxybutyrate-co4-hydroxybutyrate). Tensile tests were conducted to assess the biomechanical behavior of valve leaflet strips. Suture retention strength was evaluated for the adjacent conduit. A pulse duplicator system was used for functional testing of the valves under physiological systemic load conditions. The properties of the hybrid structures were compared with native, decellularized, and glutaraldehyde-fixed specimens. Mechanisms of the polymer impregnation process were studied with IR spectroscopy, fluorescent microscopic imaging, and SEM. Altogether this study demonstrates the feasibility and improved biomechanical function of a novel hybrid heart valve scaffold for an application in tissue engineering.

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Laser cutting: influence on morphological and physicochemical properties of polyhydroxybutyrate

Lootz

Behrend

Kramer

et al. 2001

Biomaterials

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Pyrolytic Carbon for Long-Term Medical Implants

Haubold²,

Bokros³

2013

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Classes of Materials Used in Medicine

Abramson¹,

Alexander²,

Best³

et al. 1996

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Axel D. Haubold

Biomatrix/Polymer Composite Material for Heart Valve Tissue Engineering

Mechanical and Structural Properties of a Novel Hybrid Heart Valve Scaffold for Tissue Engineering

Laser cutting: influence on morphological and physicochemical properties of polyhydroxybutyrate

Pyrolytic Carbon for Long-Term Medical Implants

Classes of Materials Used in Medicine

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