| Abstract: | An extracellular matrix‐mimicking hydrogel is developed consisting of a hyaluronan‐derived component with anti‐inflammatory activity, and a gelatin‐derived component offering adhesion sites for cell anchorage. The in situ‐forming hyaluronan‐gelatin (HA‐GEL) hydrogel displays a sponge‐like microporous morphology. Also, HA‐GEL shows a rapid swelling pattern reaching maximum weight swelling ratio within 10 min, while at the equilibrium state, fully swollen hydrogels display an exceedingly high water content with ≈2000% of the dry gel weight. Under typical 2D cell culture conditions, murine 3T3 fibroblasts adhere to, and proliferate on top of the HA‐GEL substrates, which demonstrate that HA‐GEL provides a favorable microenvironment for cell survival, adhesion, and proliferation. In vivo healing study further demonstrates HA‐GEL as a viable and effective treatment option to improve the healing outcome of full thickness wounds in diabetic mice by effectively depleting the inflammatory chemokine monocyte chemoattractant protein‐1 in the wound bed. |
