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In the present study, novel biomaterials based on mixtures of collagen and peptides isolated from aquaculture fish residues and marine chitosan solution at pH 5 were prepared, conditioned as 3D porous sponges and characterized to select best variant for biomedical applications. The physico-chemical properties of the biomaterials were investigated by determination of their in vitro biodegradability, swelling degree and porosity, while morphology was observed by scanning electron microscopy (SEM). In addition, the biocompatibility of the prepared biomaterials was assessed by cell viability of L929 fibroblast cultures cultivated in the presence of the prepared sponges by MTT assay. The results indicated that the biomaterials prepared from mixtures of collagen and chitosan at pH 5 and mixtures of collagen, chitosan at pH 5 and peptides had lower in vitro biodegradability in the presence of collagenase, higher degree of swelling and increased porosity, compared to a sponge of fish collagen (control). The cell viability values recorded in L929 fibroblast culture cultivated in the presence of the prepared biomaterials were high, indicating a good biocompatibility with skin specific cells. In conclusion, this study demonstrated that the biomaterials prepared from fish collagen and marine chitosan at pH 5 with or without addition of fish peptides have optimal physico-chemical and structural properties and good biocompatibility, recommending their further testing and use in skin tissue engineering.

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This article aims to review the specialized literature regarding biomaterials based on collagen and polysaccharides useful in tissue regeneration. Collagen is the predominant protein in the animal body. The rather large spread of this protein, its physico-chemical and biological properties allow its use in the creation of materials that can come into direct contact with animal tissues, including human ones. Biomaterials based on collagen play an important role in tissue engineering. These can be spongy matrices, membranes or hydrogels. Combining collagen with different polysaccharides (cellulose, chitosan, alginate, hyaluronic acid) leads to the improvement of the physical-chemical, mechanical and biological properties of the resulting biomaterials. Studies have shown that they can be used in the regeneration of epidermal tissue, bone tissue, neural tissue, eye tissues. Collagen combined with chitosan can be used in bioprinting. The studies carried out on cell cultures demonstrated that the biomaterials resulting from the combination of collagen with different polysaccharides have a low degree of cytotoxicity. In various articles it was shown that these biomaterials have the physico-chemical properties (degree of biodegradability, degree of swelling, degree of porosity) necessary for tissue regenerative engineering.

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Silver carp (H. molitrix) is one of the most popular species in fish farms around the world. In this paper, the bioactive properties of four protein hydrolysates from silver carp residues obtained with papain, flavourzyme, alcalase and combination of flavourzyme & alcalase treatment were analyzed. Physicochemical characterization showed that the alcalase extract had the highest extraction yield of 52.07%, presented 90.33% protein content and the highest degree of hydrolysis (76.23%). Gel electrophoresis pattern indicated that hydrolysate obtained with alcalase contains most peptides with a molecular weight below 15 kDa, while those present in the hydrolysate obtained with flavourzyme & alcalase had a molecular weight between 10-15 kDa. The effect of protein hydrolysates on DPPH free radicals inhibition varied between 47.37-50.14%, the highest value of antioxidant activity being recorded for hydrolysate obtained with papain. The hydrolysates presented antihypertensive potential determined as inhibition of angiotensin-converting enzyme, with the highest activity in the case of flavourzyme & alcalase extract. The fish protein hydrolysates were cytocompatible in a normal fibroblast culture, NCTC cell line showing cell viability over 80% for all variants. When cultivated in Hep-2 cancer cells at 10 mg/ml, the protein hydrolysates obtained by papain and flavourzyme & alcalase mixture decreased the cell viability, indication antitumoral potential. In conclusion, the fish protein hydrolysates demonstrated important bioactive properties, including antioxidant, antihypertensive and antiproliferative activity.

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In our study a Hedera helix L. leaves extract was fractioned by flash chromatography. The extract and its nine fractions were tested for biocompatibility on NCTC normal fibroblasts, and antiproliferative activity on Hep-2 epithelial tumor cells. In vitro tests revealed that the samples were biocompatible on NCTC cells up to 200 mu g/mL. Fractions 7 and 8 manifested strong antiproliferative effect on Hep-2 cells, and were analyzed versus ivy extract to determine the content in phytochemical constituents and antioxidant activity. The obtained results highlighted that the high content of saponins is responsible for the fractions 7 and 8 antiproliferative activity.

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