The effect of hyaluronic acid on biofunctionality of gelatin-collagen intestine tissue engineering scaffolds

The creation of engineered intestinal tissue has recently stimulated new endeavors with the ultimate goal of intestinal replacement for massive resections of bowel. In this context, we investigated the effect of hyaluronic acid (HA) on the physicochemical characteristics of gelatin–collagen scaffold...

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Published in:Journal of biomedical materials research. Part A 2014-09, Vol.102 (9), p.3130-3139
Main Authors: Shabafrooz, Vahid, Mozafari, Masoud, Köhler, Gerwald A., Assefa, Senait, Vashaee, Daryoosh, Tayebi, Lobat
Format: Article
Language:English
Subjects:
Assaying
Biocompatible Materials - chemistry
Biocompatible Materials - metabolism
Biological and medical sciences
Biotechnology
Caco-2 Cells
Cell Proliferation
Cell Survival
collagen
Collagen - chemistry
Crosslinking
Freeze Drying
Fundamental and applied biological sciences. Psychology
gelatin
Gelatin - chemistry
Genipin
Health. Pharmaceutical industry
Humans
Hyaluronic acid
Hyaluronic Acid - chemistry
Hyaluronic Acid - metabolism
Hydroxyapatite
In vitro testing
Industrial applications and implications. Economical aspects
intestine
Intestines - cytology
Medical sciences
Miscellaneous
Porosity
Scaffolds
Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases
Swelling ratio
Technology. Biomaterials. Equipments
tissue engineering
Tissue Engineering - methods
Tissue Scaffolds - chemistry
Viability
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Summary:The creation of engineered intestinal tissue has recently stimulated new endeavors with the ultimate goal of intestinal replacement for massive resections of bowel. In this context, we investigated the effect of hyaluronic acid (HA) on the physicochemical characteristics of gelatin–collagen scaffolds and its cytocompatibilty to the human intestinal epithelial Caco‐2 cell line in vitro. Gelatin/collagen hybrid scaffolds with different concentrations of HA were prepared by solvent casting and freeze‐drying techniques and subsequent chemical crosslinking by genipin. The morphologies of the scaffolds were characterized by scanning electron microscopy and Fourier transform infrared spectroscopy. In vitro tests were carried out in phosphate‐buffered saline (PBS) solution to study the swelling ratio and the biostability of the scaffolds. It was found that the porous structure of the scaffolds could be tailored by further addition of HA. Moreover, both the swelling ratio and the degradation rate of the scaffold increased by addition of HA. A resazurin‐based cell viability assay was employed to determine the viability and estimate the number of scaffold‐adherent Caco‐2 cells. The assay indicated that the scaffolds were all cytocompatible. We concluded that addition of less than 15% HA to scaffolds with a composition of 9:1 gelatin:collagen results only in incremental improvement in the structural characteristics and cytocompatibility of the gelatin–collagen scaffolds. However, the scaffolds with 25% HA exhibited remarkable enhancement in physicochemical characteristics of the scaffolds including cell viability, growth, and attachment as well as their physical structure. © 2013 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 102A: 3130–3139, 2014.
ISSN:1549-3296
1552-4965
DOI:10.1002/jbm.a.34984