Composite sponges from sheep decellularized small intestinal submucosa for treatment of diabetic wounds

Composite sponges from sheep decellularized small intestinal submucosa for treatment of diabetic wounds

Despite the fast development of technology in the world, diabetic foot wounds cause deaths and massive economical losses. Diabetes comes first among the reasons of non traumatic foot amputations. To reduce the healing time of these fast progressing wounds, effective wound dressings are in high deman...

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Bibliographic Details
Published in:Journal of biomaterials applications Vol. 36; no. 1; pp. 113 - 127
Main Authors: Magden, Gamze Kara, Vural, Cigdem, Bayrak, Busra Yaprak, Ozdogan, Candan Yilmaz, Kenar, Halime
Format: Journal Article
Language:English
Published: London, England SAGE Publications 01-07-2021
Subjects:
Animals
Biocompatible Materials - pharmacology
Cell Proliferation
Collagen - pharmacology
Diabetes Mellitus - therapy
Fibroblasts
Gelatin - pharmacology
Humans
Hyaluronic Acid - pharmacology
Intestinal Mucosa
Intestine, Small
Porifera
Rats
Sheep
Skin - injuries
Wound Healing - drug effects
small intestinal submucosa
gelatin
diabetic wound healing
Decellularization
hyaluronic acid
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Summary:Despite the fast development of technology in the world, diabetic foot wounds cause deaths and massive economical losses. Diabetes comes first among the reasons of non traumatic foot amputations. To reduce the healing time of these fast progressing wounds, effective wound dressings are in high demand. In our study, sheep small intestinal submucosa (SIS) based biocompatible sponges were prepared after SIS decellularization and their wound healing potential was investigated on full thickness skin defects in a diabetic rat model. The decellularized SIS membranes had no cytotoxic effects on human fibroblasts and supported capillary formation by HUVECs in a fibroblast-HUVEC co-culture. Glutaraldehyde crosslinked sponges of three different compositions were prepared to test in a diabetic rat model: gelatin (GS), gelatin: hyaluronic acid (GS:HA) and gelatin: hyaluronic acid: SIS (GS:HA:SIS). The GS:HA:SIS sponges underwent a 24.8 ± 5.4% weight loss in a 7-day in vitro erosion test. All sponges had a similar Young’s modulus under compression but GS:HA:SIS had the highest (5.00 ± 0.04 kPa). Statistical analyses of histopathological results of a 12-day in vivo experiment revealed no significant difference among the control, GS, GS:HA, and GS:HA:SIS transplanted groups in terms of granulation tissue thickness, collagen deposition, capillary vessel formation, and foreign body reaction (P > 0.05). On the other hand, in the GS:HA:SIS transplanted group 80% of the animals had a complete epidermal regeneration and this was significantly different than the control group (30%, P < 0.05). Preclinical studies revealed that the ECM of sheep small intestinal submucosa can be used as an effective biomaterial in diabetic wound healing.
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ISSN:0885-3282
1530-8022
DOI:10.1177/0885328220963897