Gelatin-chitosan-cellulose nanocrystals as an acellular scaffold for wound healing application: fabrication, characterisation and cytocompatibility towards primary human skin cells

Biopolymers that mimic the extracellular matrix are favourable in tissue engineering. However, the rapid degradation and the lack of mechanical and enzymatic stabilities of these biopolymers prompt researchers to composite different biopolymers. In this study, we aim to develop an acellular gelatin-chitosan-cellulose nanocrystal (GCCNC) scaffold as a potential wound dressing. The GCCNC mixture was homogenised via ultrasonication and the genipin crosslinking was performed by magnetic stirring. The mixture was then frozen at - 80 degrees C for 6 h and freeze-dried. The effects of different ratios of gelatin and chitosan with cellulose nanocrystals on the physiochemical properties, mechanical properties, and cellular biocompatibility were studied. Our results herein showed that G3C7CNC demonstrated a homogenous interconnected porous structure with a good porosity (67.37 +/- 9.09%) and pore size (148.46 +/- 48.68 mu m), acceptable swelling ratio (1071.11 +/- 140.26%), adequate water vapour transmission rate (315.59 +/- 25.27 g/m(2)/day), low contact angle (70.21 +/- 6.79 degrees), and sufficient mechanical strength (modulus of 64.67 +/- 12.42 MPa). The lower biodegradation rate in the G3C7CNC (0.06 +/- 0.01 mg/hr) compared to G10CNC (0.48 +/- 0.07 mg/hr) together with the absence of glass transition phenomenon indicated an increase in both enzymatic and thermal stabilities. Furthermore, G3C7CNC was non-cytotoxic and biocompatible with human epidermal keratinocytes (HEKs) and human dermal fibroblasts (HDFs). The presence of collagen type I and alpha-smooth muscle actin expression in HDFs, together with the expression of cytokeratin-14 in HEKs, demonstrated our scaffold's ability to maintain normal skin physiological functions. Therefore, this study proposes that the fabricated GCCNC scaffold could serve as a potential acellular skin substitute in managing chronic wounds.

Automated summary

In this study, an acellular gelatin-chitosan-cellulose nanocrystal (GCCNC) scaffold was developed as a potential wound dressing. The GCCNC scaffold showed good physiochemical properties, mechanical properties, and cellular biocompatibility, and was able to maintain normal skin physiological functions. Therefore, it could be used as a potential acellular skin substitute in managing chronic wounds.