Projects per year
Abstract
Animal and two-dimensional models have been the gold standard for understanding the disease and developing novel treatments. However, these models possess undesirable characteristics and do not fully represent the complexity of the mammary tumor microenvironment. This has created a need for mammary biomimetic tools, which in recent years have been developed. These tools are known as three-dimensional (3D) models and they all aim to replicate the physiological complexity of breast cancer by facilitating 3D cell-cell interactions, providing scaffolds or by encapsulating cells and tissues in a extracellular matrix. These bioengineered tools have already shown to be a promising field of research for breast cancer, and have already facilitated deeper researcher into hallmarks such as angiogenesis and the relationship with metastasis, local invasion and also has allowed complex co- and tri-cultures consisting of many cell types.
We postulate that 3D models will be the next large step needed to study breast cancer at a more deeper and complex level and will provide chemotherapeutics and pharmaceutical companies platforms for more reliable drug development.
Original language | English |
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Title of host publication | Advances in Stem Cells and their Niches |
Subtitle of host publication | Recapitulating The Stem Cell Niche Ex Vivo |
Editors | Susie Nilsson |
Place of Publication | Cambridge MA USA |
Publisher | Elsevier |
Chapter | 4 |
Pages | 145-178 |
Number of pages | 34 |
Volume | 6 |
Edition | 1st |
ISBN (Electronic) | 9780323910927 |
ISBN (Print) | 9780323910910 |
DOIs | |
Publication status | Published - 2022 |
Externally published | Yes |
Projects
- 1 Active
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ARC Training Centre for Cell and Tissue Engineering Technologies
Meagher, L., Bray, L., Voelcker, N., Risbridger, G., Hutmacher, D. W., Batra, J., Dargaville, T., Elnathan, R., Saifzadeh, S., Heng, T., Aguilar, M., Lim, R., Klein, T. J., Fisher, A., McGovern, J., Dislakis, V., McLellan, A., Dulleck, U., Steck, R., Scott, W., Corrie, S., Thissen, H., Cameron, N., Haupt, L. M., Werner, C., Levett, P., Whyte, S., Forsythe, J., Smith, N., Frith, J., Hicks, C., Rackham, O. J. L., Sohal, A., Polo, J., May, M., Reimers, N., Toh, Y., McKee, J., Adams, M., Obschonka, M., Subramaniam, N., Yambem, S. D., Russell-Bennett, R., Bertram, J., Schierjott, R., Hollands, J., Currie, P., Ball, G., Trapani, J. A., Cadarso Busto, V., Loessner, D., Ecker, R., Boyd, R. L. & Lim, J.
Australian Research Council (ARC), PolVax Pty Ltd, Cartherics Pty Ltd, TissueGUARD GmbH, Peter MacCallum Cancer Centre, TissueGnostics GmbH
13/01/21 → 30/11/27
Project: Research