Collagen-containing poloxamine hydrogels were produced with the aim of overcoming the low stiffness displayed by collagen gels that are not otherwise chemically crosslinked. Matrices were obtained by functionalization of a four-arm PEO-PPO block copolymer (poloxamine, Tetronic) with methcrylate groups and subsequent free radical polymerization of water solutions of the modified polymer in the presence of collagen. The resulting matrices had a sharp increase in stiffness, when compared to pure collagen gels. For example, whereas collagen had a storage modulus (G') around 70 Pa and a loss modulus (G'') of 10 Pa, a crosslinked collagen/poloxamine system containing 8.3% crosslinked poloxamine had G' and G'' values of 7400 and 1000 Pa, respectively. HepG2 cells were seeded within the gels before the crosslinking and the viability levels estimated by AlamarBlue assay were between 65% and 91% for systems containing 0.04-0.09 wt% photoinitiator. HepG2 and endothelial cells also adhered to and spread on the surface of the collagen-containing specimens, suggesting their potential utility in tissue engineering.