TY - UNPB
T1 - Physical Characterization of Crosslinked Gelatin Hydrogel as a Potential Biomaterial for Gingival Tissue Regeneration
AU - Hutomo, Dimas Ilham
AU - Widaryono, Adityo
AU - Lessang, Robert
AU - Natalina, null
AU - Winiati, Endang
AU - Soeroso, Yuniarti
AU - Tadjoedin, Fatimah Maria
PY - 2024/1/24
Y1 - 2024/1/24
N2 - The development of biomaterial as substitution to connective tissue graft for treating gingival recession is growing nowadays. Hydrogels received attention as potential scaffold to be used in gingival tissue engineering since their capability to mimic soft tissue characteristic as they can hold amount of water. Gelatin is a natural polymer that widely used in hydrogel preparation with good biological properties, but it has poor physical stability for the used as scaffold. Chemical crosslinking strategy using EDC/NHS was performed in this study to overcome its limitation. One uncrosslinked gelatin and two crosslinked gelatin hydrogels different concentration of EDC/NHS were prepared in this study. This study investigated the difference of physical characterization from the prepared gelatin hydrogels. Our findings suggest the crosslinking strategy using EDC/NHS increase physical properties of the gelatin hydrogels without interfering the chemical structure of the gelatin. The higher crosslinker concentration will result in better morphology and more resilient to biodegradation. As a result, the crosslinked gelatin hydrogel with gelatin:EDC:NHS mass ratio of 12:1:1 met the physical characteristic for future use as scaffold for gingival tissue regeneration.
AB - The development of biomaterial as substitution to connective tissue graft for treating gingival recession is growing nowadays. Hydrogels received attention as potential scaffold to be used in gingival tissue engineering since their capability to mimic soft tissue characteristic as they can hold amount of water. Gelatin is a natural polymer that widely used in hydrogel preparation with good biological properties, but it has poor physical stability for the used as scaffold. Chemical crosslinking strategy using EDC/NHS was performed in this study to overcome its limitation. One uncrosslinked gelatin and two crosslinked gelatin hydrogels different concentration of EDC/NHS were prepared in this study. This study investigated the difference of physical characterization from the prepared gelatin hydrogels. Our findings suggest the crosslinking strategy using EDC/NHS increase physical properties of the gelatin hydrogels without interfering the chemical structure of the gelatin. The higher crosslinker concentration will result in better morphology and more resilient to biodegradation. As a result, the crosslinked gelatin hydrogel with gelatin:EDC:NHS mass ratio of 12:1:1 met the physical characteristic for future use as scaffold for gingival tissue regeneration.
KW - gelatin hydrogel
KW - gingival tissue regeneration
KW - physical characteristic
UR - https://www.preprints.org/manuscript/202401.1755/v1
U2 - 10.20944/preprints202401.1755.v1
DO - 10.20944/preprints202401.1755.v1
M3 - Preprint
BT - Physical Characterization of Crosslinked Gelatin Hydrogel as a Potential Biomaterial for Gingival Tissue Regeneration
ER -