This study explores collagen-based porous foams for regenerative medicine. A porous foam scaffold, composed of collagen and carboxymethyl cellulose (CMC), was designed to mimic the epidermis and enhance vascularization. The scaffold will be loaded with dimethyloxalylglycine (DMOG) to investigate its effects on hypoxia response and angiogenesis. Additionally, DMOG’s influence on spheroids will be assessed for hypoxia and gene expression in cooperation with the University of Sheffield.

CEITEC VUT-J-25-8891

Czech

Izsák Dávid, Ing. - principal person responsible
Pavliňáková Veronika, Mgr., Ph.D. - fellow researcher

Advanced Biomaterials
- responsible department (3.3.2025 - not assigned)
Central European Institute of Technology BUT
- responsible department (31.1.2025 - 3.3.2025)
Advanced Biomaterials
- beneficiary (1.1.2025 - 31.12.2025)

IZSÁK, D.; PAVLIŇÁKOVÁ, V.; DINPARVAR, S.; KOLÍSKOVÁ, P.; BUCHTOVÁ, M.; VOJTOVÁ, L. Advancing Protein-Based Biomaterials for Enhanced Wound Healing and Angiogenesis. THE TWENTY-FOURTH ANNUAL CONFERENCE ON MATERIAL SCIENCE YUCOMAT 2025 Program and Book of Abstracts. Belgrade: Materials Research Society of Serbia, 2025. p. 45-45. ISBN: 978-86-919111-8-8.
Detail

Responsibility: Izsák Dávid, Ing.