Improving skin integration around long‐term percutaneous devices using fibrous scaffolds in a reconstructed human skin equivalent model

Author:

Bolle Eleonore C. L.123ORCID,Bartnikowski Nicole23,Haridas Parvathi1,Parker Tony J.14,Fraser John F.35,Gregory Shaun D.3567,Dargaville Tim R.12

Affiliation:

1. Tissue Repair and Translational Physiology Program Institute of Health and Biomedical Innovation, Queensland University of Technology Brisbane Queensland Australia

2. School of Chemistry, Physics and Mechanical Engineering, Science and Engineering Faculty Queensland University of Technology Brisbane Queensland Australia

3. Innovative Cardiovascular Engineering and Technology Laboratory (ICETLAB) Critical Care Research Group, The Prince Charles Hospital Chermside Queensland Australia

4. School of Biomedical Sciences, Faculty of Health Queensland University of Technology Brisbane Queensland Australia

5. School of Medicine University of Queensland Brisbane Queensland Australia

6. Department of Mechanical and Aerospace Engineering Monash University Melbourne Victoria Australia

7. Baker Heart and Diabetes Institute Melbourne Victoria Australia

Funder

Australian Research Council

National Health and Medical Research Council

National Heart Foundation of Australia

Publisher

Wiley

Subject

Biomedical Engineering,Biomaterials

Reference49 articles.

1. Design and Fabrication of Tubular Scaffolds via Direct Writing in a Melt Electrospinning Mode

2. Wound bed preparation with a dermal substitute (Hyalomatrix® PA) facilitates re‐epithelialization and healing: Results of a Multicenter, prospective, observational study on complex chronic ulcers (the FAST study)|WOUNDS;Caravaggi C.;Wounds,2011

3. Development of an infection-resistant LVAD driveline: a novel approach to the prevention of device-related infections

4. Influence of Human Dermal Fibroblasts on Epidermalization

5. Electrospinning and additive manufacturing: converging technologies

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