Supporting Data for Hybrid Scaffolds Decouple Biochemical & Biophysical Regulation of Cell Phenotype
Description
Research data supporting the publication "Hybrid Scaffolds Decouple Biochemical & Biophysical Regulation of Cell Phenotype" and associated metadata. In this publication, we explore application of hybrid scaffolds, defined hydrogel formulations perfused into ice-templated collagen scaffolds, to enable control over cell morphology.
External URI
Subjects
- Tissue scaffolds
- Cytomorphogenesis
- Tissue Engineering
- Hydrogel, collagen scaffold, ice templating, breast cancer, extracellular matrix
- Subjects Allied to Medicine::Medical technology
- R Medicine::R Medicine (General)::R855 Medical technology. Biomedical engineering. Electronics
Divisions
- University of Nottingham, UK Campus::Faculty of Medicine and Health Sciences::School of Veterinary Medicine & Science
- University of Nottingham, UK Campus::Faculty of Medicine and Health Sciences::School of Medicine
Deposit date
2025-08-12Data type
Quantitative mechanical testing data, images, and quantification of cell behaviour, accompanied by a metadata descriptionContributors
- Song, Xinyuan
- Mitchell, Samantha C.
- Smart, Abbie N.
- Hardiman, William
- Bax, Daniel V.
- Staley, Ceri E.
- Probert, Catherine
- Collier, Pamela
- Meakin, Marian
- Ritchie, Alison A.
- Mendonca, Tania
- Wright, Amanda J.
- James, Victoria
- Grabowska, Anna M.
- Merry, Catherine L.R.
- Best, Serena M.
- Cameron, Ruth E.
Funders
- Other
- University of Nottingham
- Nottingham Breast Cancer Research Centre
- Henry Royce Institute for advanced materials
- St John’s College, Cambridge
Grant number
- EP/P024947/1, EP/R00661X/1
Data collection method
Bulk compression, passive microrheology, Presto blue assay, mulitphoton and widefield microscopy (further details in metadata and associated research publication)Resource languages
- en
Publisher
The University of Nottingham
Except where otherwise noted, this item's license is described as Creative Commons by Attribution