Adjunct Associate Professor
Elena Juan Pardo
This person does not currently hold a position at QUT.
Personal details
Keywords
Biomaterials, Melt electrospinning, 3D in vitro models, Mechanobiology, Cell-matrix interactions, Tissue Engineering, Cancer research
Research field
Biomedical engineering, Materials engineering, Other physical sciences
Field of Research code, Australian and New Zealand Standard Research Classification (ANZSRC), 2020
Qualifications
- PhD in Mechanical Engineering (Technical University of Munich)
Publications
- Toosisaidy, N., Wolf, F., Bas, O., Keijdener, H., Hutmacher, D., Mela, P. & Juan Pardo, E. (2019). Biologically inspired scaffolds for heart valve tissue engineering via melt electrowriting. Small, 15(24). https://eprints.qut.edu.au/130807
- Lister, N., Hashimoto, K., Teng, L., Flandes Iparraguirre, M., Eder, A., Sanchez Herrero, A., Niranjan, B., Frydenberg, M., Papargiris, M., Lawrence, M., Taylor, R., Hutmacher, D., Ellem, S., Risbridger, G., Juan Pardo, E. & Pereira, B. (2019). Tissue engineered human prostate microtissues reveal key role of mast cell-derived tryptase in potentiating cancer-associated fibroblast (CAF)-induced morphometric transition in vitro. Biomaterials, 197, 72–85. https://eprints.qut.edu.au/124634
- Dondossola, E., Alexander, S., Holzapfel, B., Filippini, S., Starbuck, M., Hoffman, R., Navone, N., Juan Pardo, E., Logothetis, C., Hutmacher, D. & Friedl, P. (2018). Intravital microscopy of osteolytic progression and therapy response of cancer lesions in the bone. Science Translational Medicine, 10(452), 1–10. https://eprints.qut.edu.au/121155
- Wunner, F., Wille, M., Noonan, T., Bas, O., Dalton, P., Juan Pardo, E. & Hutmacher, D. (2018). Melt electrospinning writing of highly ordered large volume scaffold architectures. Advanced Materials, 30(20), 1–6. https://eprints.qut.edu.au/223776
- Macri-Pellizzeri, L., Juan Pardo, E., Prosper, F. & Pelacho, B. (2018). Role of substrate biomechanics in controlling (stem) cell fate: implications in regenerative medicine. Journal of Tissue Engineering and Regenerative Medicine, 12(4), 1012–1019. https://eprints.qut.edu.au/223202
- Bas, O., Juan Pardo, E., Catelas, I. & Hutmacher, D. (2018). The quest for mechanically and biologically functional soft biomaterials via soft network composites. Advanced Drug Delivery Reviews, 132, 214–234. https://eprints.qut.edu.au/121221
- Bas, O., D'Angella, D., Baldwin, J., Castro, N., Wunner, F., Toosisaidy, N., Kollmannsberger, S., Reali, A., Rank, E., Juan Pardo, E. & Hutmacher, D. (2017). An integrated design, material, and fabrication platform for engineering biomechanically and biologically functional soft tissues. ACS Applied Materials and Interfaces, 9(35), 29430–29437. https://eprints.qut.edu.au/110571
- Bas, O., Juan Pardo, E., Meinert, C., Baldwin, J., Bray, L., Wellard, R., Klein, T. & Hutmacher, D. (2017). Biofabricated soft network composites for cartilage tissue engineering. Biofabrication, 9(2), 1–15. https://eprints.qut.edu.au/107693
- Martine, L., Holzapfel, B., McGovern, J., Wagner, F., Quent, V., Hesami, P., Wunner, F., Vaquette, C., Juan Pardo, E., Brown, T., Nowlan, B., Wu, D., Hutmacher, C., Moi, D., Oussenko, T., Piccinini, E., Zandstra, P., Mazzieri, R., Levesque, J., Dalton, P., Taubenberger, A. & Hutmacher, D. (2017). Engineering a humanized bone organ model in mice to study bone metastases. Nature Protocols, 12(4), 639–663. https://eprints.qut.edu.au/104984
- Baldwin, J., Wagner, F., Martine, L., Holzapfel, B., Theodoropoulos, C., Bas, O., Medeiros Savi, F., Werner, C., Juan Pardo, E. & Hutmacher, D. (2017). Periosteum tissue engineering in an orthotopic in vivo platform. Biomaterials, 121, 193–204. https://eprints.qut.edu.au/103525
QUT ePrints
To find publications by Elena, visit QUT ePrints, the University's research repository.
Selected research projects
- Title
- ARC Training Centre for (M3D) Multiscale 3D Imaging, Modelling and Manufacturing
- Primary fund type
- CAT 1 - Australian Competitive Grant
- Project ID
- IC180100008
- Start year
- 2019
- Keywords
Projects listed above are funded by Australian Competitive Grants. Projects funded from other sources are not listed due to confidentiality agreements.
Supervision
Completed supervisions (Doctorate)
- Design and Development of an Additive Manufacturing Technology Platform for Melt Electrospinning Writing - A Systems Engineering Approach (2018)
- Deterministic Design & Additive Biomanufacturing of Biomimetic Soft Network Composites for Tissue Engineering Applications (2018)
- Unravelling the Mechanisms behind Periosteal Regeneration and its Application in Bone Tissue Engineering (2017)
Completed supervisions (Masters by Research)
- Engineering of an Image-based Control Environment for Melt Electrospinning Process (2018)
- Melt Electrospinning Writing and its Applications (2018)
- Enhancing Surface Charge Dissipation of Melt-electrospun 3D Printed Scaffolds for the Fabrication of Tall and Well-ordered Architectures (2017)
- Optimising Breast Implant Geometry Using 3-Dimensional Imaging (2017)
The supervisions listed above are only a selection.