Irradiation Enhances the Biomedical Functional Characteristics of Collagen Sponges: A Potential Strategy for Medical Collagen Sponge Modification
Junwei Qin, Hancong Wu, Bifeng Lan, Liucui Yao, Zhenqiang Wu

TL;DR
This study shows that irradiation improves the properties of collagen sponges, making them more effective for controlling bleeding and wound care.
Contribution
A novel method using low-dose gamma irradiation to enhance collagen sponges' hemostatic and antibacterial properties is introduced.
Findings
Low-dose gamma irradiation (1–3 kGy) improves mechanical strength, elongation, and biostability of collagen sponges.
Irradiated sponges show better water absorption, blood cell adsorption, and antibacterial properties than commercial alternatives.
Spectroscopic analysis confirms chemical bond modifications without loss of crystallinity, and in vivo tests show biocompatibility.
Abstract
Developing safe and effective hemostatic materials is critical for rapid bleeding control and wound management. However, traditional hemostatic materials using chemical crosslinking often fall short in hemostatic efficiency and carry risks of secondary injury from reagent residues. This study introduced an irradiation-fabricated composite collagen sponge based on fish skin collagen, chitosan, and soluble starch. The sponge was prepared via material solution blending, followed by cobalt-60 gamma irradiation at various doses, with casting and freeze-drying. Its functionality and safety were systematically evaluated. The results show that low-dose gamma irradiation (1–3 kGy) applied to a precursor solution prior to freeze-drying promoted intermolecular crosslinking, improving mechanical strength, elongation, and biostability, while higher doses (6 kGy) slightly reduced crosslinking due to…
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Taxonomy
TopicsHemostasis and retained surgical items · Collagen: Extraction and Characterization · Wound Healing and Treatments
