Biomaterial-based platforms for tumour tissue engineering

Curvello, Rodrigo; Kast, Verena; Ordóñez-Morán, Paloma; Mata, Alvaro; Loessner, Daniela

doi:10.1038/s41578-023-00535-3

All Outputs (2)

Sparsely PEGylated poly(beta-amino ester) polyplexes enhance antigen specific T-cell response of a bivalent SARS-CoV-2 DNA vaccine (2024)
Journal Article
Bayraktutan, H., Symonds, P., Brentville, V. A., Moloney, C., Galley, C., Bennett, C. L., Mata, A., Durrant, L., Alexander, C., & Gurnani, P. (2024). Sparsely PEGylated poly(beta-amino ester) polyplexes enhance antigen specific T-cell response of a bivalent SARS-CoV-2 DNA vaccine. Biomaterials, 311, Article 122647. https://doi.org/10.1016/j.biomaterials.2024.122647

DNA technology has emerged as a promising route to accelerated manufacture of sequence agnostic vaccines. For activity, DNA vaccines must be protected and delivered to the correct antigen presenting cells. However, the physicochemical properties of t... Read More about Sparsely PEGylated poly(beta-amino ester) polyplexes enhance antigen specific T-cell response of a bivalent SARS-CoV-2 DNA vaccine.

Biomaterial-based platforms for tumour tissue engineering (2023)
Journal Article
Curvello, R., Kast, V., Ordóñez-Morán, P., Mata, A., & Loessner, D. (2023). Biomaterial-based platforms for tumour tissue engineering. Nature Reviews Materials, 8, 314–330. https://doi.org/10.1038/s41578-023-00535-3

Tissue engineering has produced innovative tools for cancer research. 3D cancer models based on molecularly designed biomaterials aim to harness the dimensionality and biomechanical and biochemical properties of tumour tissues. However, to date, desp... Read More about Biomaterial-based platforms for tumour tissue engineering.