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University of Sheffield

4 ARTICLES PUBLISHED IN JoVE

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Bioengineering

Postproduction Processing of Electrospun Fibres for Tissue Engineering
Frazer J. Bye 1, Linge Wang 2, Anthony J. Bullock 1, Keith A. Blackwood 1, Anthony J. Ryan 3, Sheila MacNeil 1
1Materials Science and Engineering, University of Sheffield , 2Department of Biomedical Science, University of Sheffield , 3Department of Chemistry, University of Sheffield

Electrospun scaffolds can be processed post production for tissue engineering applications. Here we describe methods for spinning complex scaffolds (by consecutive spinning), for making thicker scaffolds (by multi-layering using heat or vapour annealing), for achieving sterility (aseptic production or sterilisation post production) and for achieving appropriate biomechanical properties.

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Bioengineering

Combination of Microstereolithography and Electrospinning to Produce Membranes Equipped with Niches for Corneal Regeneration
Ílida Ortega 1, Farshid Sefat 1, Pallavi Deshpande 1, Thomas Paterson 1, Charanya Ramachandran 3, Anthony J. Ryan 2, Sheila MacNeil 1, Frederik Claeyssens 1
1Department of Materials Science and Engineering, University of Sheffield, 2Department of Chemistry, University of Sheffield, 3L. V. Prasad Eye Institute

We report a technique for the fabrication of micropockets within electrospun membranes in which to study cell behavior. Specifically, we describe a combination of microstereolithography and electrospinning for the production of PLGA (Poly(lactide-co-glycolide)) corneal biomaterial devices equipped with microfeatures.

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Bioengineering

Production, Characterization and Potential Uses of a 3D Tissue-engineered Human Esophageal Mucosal Model
Nicola H. Green 1, Bernard M. Corfe 2, Jonathan P. Bury 3, Sheila MacNeil 1
1Department of Materials Science and Engineering, University of Sheffield, 2Department of Oncology and Insigneo Institute for in silico Medicine, University of Sheffield, 3Department of Histopathology, Sheffield Teaching Hospitals NHS Foundation Trust

This manuscript describes the production, characterization and potential uses of a tissue engineered 3D esophageal construct prepared from normal primary human esophageal fibroblast and squamous epithelial cells seeded within a de-cellularized porcine scaffold. The results demonstrate the formation of a mature stratified epithelium similar to the normal human esophagus.

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Immunology and Infection

Establishing a Porcine Ex Vivo Cornea Model for Studying Drug Treatments against Bacterial Keratitis
Katarzyna Okurowska 1,2, Sanhita Roy 3, Praveen Thokala 4, Lynda Partridge 1,5, Prashant Garg 3, Sheila MacNeil 1,6, Peter N. Monk 1,7, Esther Karunakaran 1,2
1Sheffield Collaboratorium for Antimicrobial Resistance and Biofilms (SCARAB), University of Sheffield, 2Department of Chemical and Biological Engineering, University of Sheffield, 3Hyderabad Eye Research Foundation, L V Prasad Eye Institute, 4Health Economics and Decision Science, School of Health and Related Research, University of Sheffield, 5Department of Molecular Biology and Biotechnology, University of Sheffield, 6Department of Materials Science and Engineering, University of Sheffield, 7Department of Infection, Immunity and Cardiovascular Disease, University of Sheffield

This article describes a step-by-step protocol to set up an ex vivo porcine model of bacterial keratitis. Pseudomonas aeruginosa is used as a prototypic organism. This innovative model mimics in vivo infection as bacterial proliferation is dependent on the ability of the bacterium to damage corneal tissue.

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