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Josepha Koehne
Josepha Koehne
University of Cape Town
Biomedical engineering
Electrospinning
Scaffold
Elastic modulus
Fiber
4
Papers
23
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Tissue Ingrowth Markedly Reduces Mechanical Anisotropy and Stiffness in Fibre Direction of Highly Aligned Electrospun Polyurethane Scaffolds
2020
Cardiovascular Engineering and Technology
Hugo Krynauw
Jannik Buescher
Josepha Koehne
Loes Verrijt
Georges Limbert
Neil Davies
Deon Bezuidenhout
Thomas Franz
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Citations (3)
Tissue ingrowth markedly reduces mechanical anisotropy and stiffness in fibre direction of highly aligned electrospun polyurethane scaffolds
2019
bioRxiv
Hugo Krynauw
Jannik Buescher
Josepha Koehne
Loes Verrijt
Georges Limbert
Neil Davies
Deon Bezuidenhout
Thomas Franz
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Electrospun polyester-urethane scaffold preserves mechanical properties and exhibits strain stiffening during in situ tissue ingrowth and degradation
2019
bioRxiv
Hugo Krynauw
Rodaina Omar
Josepha Koehne
Georges Limbert
Neil Davies
Deon Bezuidenhout
Thomas Franz
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Transmural capillary ingrowth is essential for confluent vascular graft healing.
2018
Acta Biomaterialia
Timothy Pennel
Deon Bezuidenhout
Josepha Koehne
Neil Davies
Peter Zilla
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Citations (18)
1