Insect-derived polymer hydrogel based on fibroin matrix from whole silkworm larvae
Maki Yamazaki, Aoi Tojo, Shusuke Hashimoto, Masakazu Kobayashi, Kenjiro Yazawa, Kunihiro Shiomi

TL;DR
This study creates a new hydrogel from whole silkworm larvae, showing better mechanical properties and faster gelation than traditional silk fibroin hydrogels.
Contribution
The novel contribution is the development of a hydrogel from whole silkworm larvae powder without additional gelling agents.
Findings
B100rw hydrogel showed higher compressive stress and adhesiveness at low temperatures than silk fibroin hydrogels.
B100rw gelation is primarily due to fibroin heavy chain, confirmed by knockout experiments.
B100rw hydrogel has similar β-sheet structure but lower crystallinity than silk fibroin hydrogels.
Abstract
Insect-derived polymers, known for their mechanical properties, biocompatibility, and sustainability, are increasingly used in pharmaceuticals, food, and tissue engineering. Bombyx mori, the silkworm, produces silk fibroin (SF) and sericin, both crucial for biomaterial development. In this study, we aimed to prepare a hydrogel derived from whole silkworm larvae powder (B100rw) without additional gelling agents and to investigate its gelation behavior. The gelation process was analyzed by examining the compressive stress, adhesiveness, and gelation time under low-temperature conditions. Structural characterization was performed using Fourier-transform infrared spectroscopy and wide-angle X-ray scattering to determine the β-sheet content and crystallinity of the hydrogel. The gelation behavior and mechanical properties of B100rw and SF hydrogels were compared. The B100rw hydrogel…
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Taxonomy
TopicsSilk-based biomaterials and applications · Hydrogels: synthesis, properties, applications · Polymer Surface Interaction Studies
