P042 Data 20190923.xlsx (57.16 kB)

Data: Electrospun polyester-urethane scaffold preserves mechanical properties and exhibits strain stiffening during in situ tissue ingrowth and degradation

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posted on 2019-09-29, 13:47 authored by Rodaina Omar, Josepha Koehne, Hugo Krynauw, Georges Limbert, Neil Hamer Davies, Deon Bezuidenhout, Thomas FranzThomas Franz

The provided material represents the data for fibre diameter, fibre alignment, tissue ingrowth and mechanical properties of an tissue-engineering electrospun polymeric scaffold related to the article Krynauw H, Omar R, Koehne J, Limbert G, Davies NH, Bezuidenhout D, Franz T, Electrospun polyester-urethane scaffold preserves mechanical properties and exhibits strain stiffening during in situ tissue ingrowth and degradation. bioRxiv, 2019: 783522

Funding

National Research Foundation, South Africa, Grant: SUR2008051000002

Inter-university Cape Heart Research Unit, South African Medical Research Council

Jahresstipendium S/08/10, Deutsche Herzstiftung

Matching Dissertation Grant, International Society of Biomechanics

History

Department/Unit

Human Biology

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Keywords

Electrospinning Elastic modulus Mechanical properties Soft Tissue Regeneration Degradation Regenerative Medicine (incl. Stem Cells and Tissue Engineering)Biomaterials Biomechanics Biomechanical Engineering

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CC BY 4.0

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