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In vitro evaluation of a synthetic (Biobrane®) and a biopolymer (Epicite) wound dressing with primary human junvenile and adult fibroblasts after different colonization strategies
Resource type
Authors/contributors
- Gögele, Clemens (Author)
- Schulze-Tanzil, Gundula (Author)
- Gäbel, Christiane (Author)
- Breier, Annette (Author)
- Billner, Moritz (Author)
- Reichert, Bert (Author)
- Bodenschatz, Karl (Author)
Title
In vitro evaluation of a synthetic (Biobrane®) and a biopolymer (Epicite) wound dressing with primary human junvenile and adult fibroblasts after different colonization strategies
Abstract
Background
The three-dimensional [3D] wound dressings Biobrane® and Epicite are used in the wound management. Fibroblasts are important for successful deep wound healing. The direct effect of Biobrane® and Epicite on human fibroblasts, particularly of juvenile individuals, remains unclear. Therefore, this study compared the survival and growth characteristics of juvenile and adult dermal fibroblasts on Biobrane® and Epicite using different culture models.
Method
Murine (L929), primary juvenile and adult human fibroblasts were seeded on both materials using two dimensional (2D, slide culture) or 3D culture at the medium-air interface and dynamical rotatory culture. Cell adherence, viability, morphology and actin cytoskeleton architecture were monitored. Scanning electron microscopy (SEM) analyses could be only performed from Biobrane®. Permeability and DNA amount of both materials were tested.
Results
The majority of all tested fibroblasts species survived on both dressings with no significant differences between 1 and 14 days. Juvenile and adult fibroblasts exerted typical fibroblast morphology with spindle-shaped cell bodies on the materials. SEM visualized morphological differences between murine and human fibroblasts on Biobrane®. Juvenile and adult fibroblasts colonized Biobrane® in rotatory culture after 7 days the most. The Biobrane® rotatory culture of L929 and juvenile fibroblasts showed after 7 days the significantly highest DNA amount. No major gender differences could be observed. Biobrane® had a higher permeability than Epicite.
Conclusion
Both wound dressing can be colonized by fibroblasts suggesting their high cytocompatibility. Fibroblast survival and morphology on Biobrane® and Epicite depended on the culture system and the fibroblast source.
Publication
Annals of Anatomy - Anatomischer Anzeiger
Pages
151981
Date
2022-07-16
Journal Abbr
Annals of Anatomy - Anatomischer Anzeiger
Language
en
ISSN
0940-9602
Accessed
7/19/22, 3:30 PM
Library Catalog
ScienceDirect
Citation
Gögele, C., Schulze-Tanzil, G., Gäbel, C., Breier, A., Billner, M., Reichert, B., & Bodenschatz, K. (2022). In vitro evaluation of a synthetic (Biobrane®) and a biopolymer (Epicite) wound dressing with primary human junvenile and adult fibroblasts after different colonization strategies. Annals of Anatomy - Anatomischer Anzeiger, 151981. https://doi.org/10.1016/j.aanat.2022.151981
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