Peer-reviewed veterinary case report
Collagen-gelatin scaffold with bFGF speeds palate healing in dogs
By Ayvazyan, Artem et al.·Published in The Journal of surgical research·2011·Department of Plastic and Reconstructive Surgery, Japan·View original on PubMed →
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Original publication title: Collagen-gelatin scaffold impregnated with bFGF accelerates palatal wound healing of palatal mucosa in dogs.
- Species:
- dog
Plain-English summary
A group of beagle dogs had wounds created in their mouths to test a new treatment for healing. The wounds were covered with a special collagen-gelatin sponge that contained a growth factor called bFGF. After two weeks, the wounds treated with the higher doses of bFGF healed much better, showing complete skin growth and more blood vessel formation compared to other treatments. This new sponge could be a helpful option for speeding up healing in similar cases.
People also search for: dog mouth wound treatment · beagle palatal healing · bFGF for dog wounds · collagen treatment for dog injuries
Abstract
BACKGROUND: We have developed a collagen-gelatin sponge (CGS) as a scaffold capable of the sustained release of bFGF to improve the healing process of the existing collagen scaffold. The aim of this study was to evaluate the efficacy of CGS impregnated with basic fibroblast growth factor (bFGF) in palatal wound healing in beagles. MATERIALS AND METHODS: Four standardized 6 mm diameter full-thickness wounds were made in the palate of each dog and covered with CGS impregnated with normal saline or bFGF at concentrations of 1 μg/cm2, 7 μg/cm2 and 14 μg/cm2. One and 2 wk after surgery, the wound area, neoepithelium length, thickness, area of regenerated submucosal tissue, and the number and total area of neoformed capillaries were evaluated. RESULTS: Two weeks after implantation, wounds treated with bFGF 7 μg/cm2 and 14 μg/cm2 were completely epithelized, while the length of the neoformed epithelium was significantly longer in the 7 μg/cm2 group. Groups impregnated with bFGF 7 μg/cm2 and 14 μg/cm2 showed promoted regeneration of submucosal tissue 2 wk later. The number and area of neoformed capillaries were significantly higher in the bFGF 7 μg/cm2 group than in other groups. We conclude that palatal wound healing in the bFGF 7 μg/cm2 group was promoted with good neovascularization and showed less contracture than other groups. CONCLUSIONS: Our new collagen-gelatin scaffold, CGS, impregnated with bFGF, could be a promising treatment to accelerate the regeneration of palatal mucosa.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/21962743/