De Renzis, Eleonora ;
Albertini, Beatrice ;
Silla, Alessia ;
Caliceti, Cristiana ;
Panzavolta, Silvia
(2026)
Data on Bilayer Films Incorporating Sericin and Snail Secretion Filtrate as innovative wound dressing.
University of Bologna.
DOI
10.6092/unibo/amsacta/9045.
[Dataset]
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Abstract
This dataset characterizes a multifunctional, biodegradable bilayer wound dressing composed of a cross-linked polysaccharide-based multicomponent matrix that incorporates naturally derived bioactives, specifically sericin and Helix aspersa Müller secretion filtrate. Fabricated via solvent casting, the repository compiles comprehensive raw and processed data evaluating the material's physicochemical, mechanical, and morphological properties. Material characterization is documented through tensile testing, FT-IR, and UV–vis spectroscopy, while moisture management capabilities are quantified via swelling kinetics and water vapor transmission rate measurements. Furthermore, the dataset includes in vitro biological profiles consisting of safety evaluations via LDH and MTT cytotoxicity assays on HaCaT keratinocytes alongside functional efficacy data obtained through scratch wound healing assays. Collectively, these data files support the performance of a single-platform biomaterial that successfully integrates structural integrity and complete wound healing.
Abstract
This dataset characterizes a multifunctional, biodegradable bilayer wound dressing composed of a cross-linked polysaccharide-based multicomponent matrix that incorporates naturally derived bioactives, specifically sericin and Helix aspersa Müller secretion filtrate. Fabricated via solvent casting, the repository compiles comprehensive raw and processed data evaluating the material's physicochemical, mechanical, and morphological properties. Material characterization is documented through tensile testing, FT-IR, and UV–vis spectroscopy, while moisture management capabilities are quantified via swelling kinetics and water vapor transmission rate measurements. Furthermore, the dataset includes in vitro biological profiles consisting of safety evaluations via LDH and MTT cytotoxicity assays on HaCaT keratinocytes alongside functional efficacy data obtained through scratch wound healing assays. Collectively, these data files support the performance of a single-platform biomaterial that successfully integrates structural integrity and complete wound healing.
Tipologia del documento
Dataset
Autori
Parole chiave
bilayer film; wound dressing; multifunctional; naturally derived bioactives
Settori scientifico-disciplinari
DOI
Contributors
Data di deposito
02 Lug 2026 13:16
Ultima modifica
02 Lug 2026 13:16
URI
Altri metadati
Tipologia del documento
Dataset
Autori
Parole chiave
bilayer film; wound dressing; multifunctional; naturally derived bioactives
Settori scientifico-disciplinari
DOI
Contributors
Data di deposito
02 Lug 2026 13:16
Ultima modifica
02 Lug 2026 13:16
URI
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Statistica sui download
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