PEER-REVIEWED PUBLICATION

2023

Xenogeneic Serum-Free Human Cell-Derived Tissue-Engineered Matrices for the Development of Clinical-Grade Biomimetic Cardiovascular Devices

Zaytseva P, Visser VL, et al.

Advanced Therapeutics

University of Zurich, Wyss Zurich, Charité – Universitätsmedizin Berlin, Deutsches Herzzentrum der Charité, ETH Zürich

RESEARCH SUMMARY

This study presents the development of xenogeneic serum-free human cell-derived tissue-engineered matrices (hTEMs) for cardiovascular applications, addressing key translational limitations associated with fetal bovine serum use. The authors demonstrate that xenogeneic serum-free hTEMs exhibit comparable extracellular matrix composition, hemocompatibility, calcification resistance, and mechanical performance to conventional controls. The platform is successfully adapted for the fabrication of tissue-engineered heart valves capable of withstanding systemic pressures, supporting its potential for next-generation regenerative cardiovascular implants.

Biaxial tensile mechanical characterization of decellularized human tissue-engineered matrices was performed using a CellScale BioTester 5000. Samples were mounted using BioRake fixtures and subjected to equibiaxial and non-equibiaxial strain protocols to quantify nonlinear anisotropic mechanical behavior and compare material properties between xenogeneic serum-free and control hTEMs under physiologically relevant loading conditions.

AUTHORS

Polina Zaytseva, Valery L. Visser, Arian Ehterami, Simon P. Hoerstrup, Sarah E. Motta, Maximilian Y. Emmert.

PUBLICATION DETAILS

JOURNAL

Advanced Therapeutics

YEAR

2023

INSTITUTIONS

University of Zurich, Wyss Zurich, Charité – Universitätsmedizin Berlin, Deutsches Herzzentrum der Charité, ETH Zürich

COUNTRIES

Germany, Switzerland

INSTRUMENT USED

BioTester

TESTING METHODS

Biaxial Testing

RESEARCH APPLICATIONS

Cardiac Tissue Engineering & MechanicsECM & Decellularized Matrix MechanicsFibrosis & Tissue RemodelingHeart Valve Tissue Engineering & MechanicsInjectable & Regenerative BiomaterialsVascular Tissue Engineering & Mechanics

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