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W4381659435 endingPage "505" @default.
W4381659435 startingPage "505" @default.
W4381659435 abstract "Innovative materials are needed to produce scaffolds for various tissue engineering and regenerative medicine (TERM) applications, including tissue models. Materials derived from natural sources that offer low production costs, easy availability, and high bioactivity are highly preferred. Chicken egg white (EW) is an overlooked protein-based material. Whilst its combination with the biopolymer gelatin has been investigated in the food technology industry, mixed hydrocolloids of EW and gelatin have not been reported in TERM. This paper investigates these hydrocolloids as a suitable platform for hydrogel-based tissue engineering, including 2D coating films, miniaturized 3D hydrogels in microfluidic devices, and 3D hydrogel scaffolds. Rheological assessment of the hydrocolloid solutions suggested that temperature and EW concentration can be used to fine-tune the viscosity of the ensuing gels. Fabricated thin 2D hydrocolloid films presented globular nano-topography and in vitro cell work showed that the mixed hydrocolloids had increased cell growth compared with EW films. Results showed that hydrocolloids of EW and gelatin can be used for creating a 3D hydrogel environment for cell studies inside microfluidic devices. Finally, 3D hydrogel scaffolds were fabricated by sequential temperature-dependent gelation followed by chemical cross-linking of the polymeric network of the hydrogel for added mechanical strength and stability. These 3D hydrogel scaffolds displayed pores, lamellae, globular nano-topography, tunable mechanical properties, high affinity for water, and cell proliferation and penetration properties. In conclusion, the large range of properties and characteristics of these materials provide a strong potential for a large variety of TERM applications, including cancer models, organoid growth, compatibility with bioprinting, or implantable devices." @default.
W4381659435 created "2023-06-23" @default.
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W4381659435 date "2023-06-20" @default.
W4381659435 modified "2023-10-18" @default.
W4381659435 title "Hydrocolloids of Egg White and Gelatin as a Platform for Hydrogel-Based Tissue Engineering" @default.
W4381659435 cites W1984522851 @default.
W4381659435 cites W1984872806 @default.
W4381659435 cites W1985129391 @default.
W4381659435 cites W1985828048 @default.
W4381659435 cites W2000120409 @default.
W4381659435 cites W2001643434 @default.
W4381659435 cites W2005799485 @default.
W4381659435 cites W2013453106 @default.
W4381659435 cites W2019940252 @default.
W4381659435 cites W2025515634 @default.
W4381659435 cites W2032564538 @default.
W4381659435 cites W2045864764 @default.
W4381659435 cites W2047205370 @default.
W4381659435 cites W2071164466 @default.
W4381659435 cites W2071442755 @default.
W4381659435 cites W2080166457 @default.
W4381659435 cites W2126006830 @default.
W4381659435 cites W2134164289 @default.
W4381659435 cites W2502785100 @default.
W4381659435 cites W2508274052 @default.
W4381659435 cites W2510926171 @default.
W4381659435 cites W2559819384 @default.
W4381659435 cites W2567377414 @default.
W4381659435 cites W2587756371 @default.
W4381659435 cites W2600860233 @default.
W4381659435 cites W2623866488 @default.
W4381659435 cites W2745514821 @default.
W4381659435 cites W2754118249 @default.
W4381659435 cites W2766739097 @default.
W4381659435 cites W2775532550 @default.
W4381659435 cites W2782393981 @default.
W4381659435 cites W2801929954 @default.
W4381659435 cites W2804023859 @default.
W4381659435 cites W2884604101 @default.
W4381659435 cites W2888232470 @default.
W4381659435 cites W2895298053 @default.
W4381659435 cites W2896385230 @default.
W4381659435 cites W2909633774 @default.
W4381659435 cites W2910472794 @default.
W4381659435 cites W2914382045 @default.
W4381659435 cites W2914843740 @default.
W4381659435 cites W2946013162 @default.
W4381659435 cites W2948870515 @default.
W4381659435 cites W2949422228 @default.
W4381659435 cites W2967833944 @default.
W4381659435 cites W2986383933 @default.
W4381659435 cites W2996112306 @default.
W4381659435 cites W2998763923 @default.
W4381659435 cites W3007707264 @default.
W4381659435 cites W3012319113 @default.
W4381659435 cites W3019716262 @default.
W4381659435 cites W3048743609 @default.
W4381659435 cites W3108614202 @default.
W4381659435 cites W3120928778 @default.
W4381659435 cites W3123718834 @default.
W4381659435 cites W3129737936 @default.
W4381659435 cites W3130695111 @default.
W4381659435 cites W3134334867 @default.
W4381659435 cites W3137244945 @default.
W4381659435 cites W3152812826 @default.
W4381659435 cites W3167935525 @default.
W4381659435 cites W3170982515 @default.
W4381659435 cites W3175604514 @default.
W4381659435 cites W3196344700 @default.
W4381659435 cites W3208663578 @default.
W4381659435 cites W4200522319 @default.
W4381659435 cites W4205838708 @default.
W4381659435 cites W4210776103 @default.
W4381659435 cites W4211147424 @default.
W4381659435 cites W4213113460 @default.
W4381659435 cites W4283831314 @default.
W4381659435 cites W4286493269 @default.
W4381659435 cites W4303415894 @default.
W4381659435 cites W4353078619 @default.
W4381659435 cites W4376630763 @default.
W4381659435 cites W4378745504 @default.
W4381659435 cites W4381659435 @default.
W4381659435 doi "https://doi.org/10.3390/gels9060505" @default.
W4381659435 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37367175" @default.
W4381659435 hasPublicationYear "2023" @default.
W4381659435 type Work @default.
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