The Combined Effect of Caseinates, Native or Heat-Treated Whey Proteins, and Cryogel Formation on the Characteristics of Kefiran Films
Nikoletta Pouliou, Eirini Chrysovalantou Paraskevaidou, Athanasios Goulas, Stylianos Exarhopoulos, Georgia Dimitreli

TL;DR
This study explores how combining kefiran with milk proteins and cryogel formation affects film properties for food and biomedical uses.
Contribution
The novel contribution is the systematic investigation of kefiran film properties modified by milk proteins and cryo-treatment for functional applications.
Findings
Milk proteins increased film thickness, solubility, and tensile strength while reducing water vapor adsorption.
Cryo-treatment significantly decreased film roughness and mitigated glycerol's hygroscopic effect.
Heat-treated whey proteins maximized tensile strength but reduced elongation at break.
Abstract
Kefiran, the extracellular polysaccharide produced from the Generally Recognized as Safe (GRAS) bacteria in kefir grains, with its well-documented functional and health-promoting properties, constitutes a promising biopolymer with a variety of possible uses. Its compatibility with other biopolymers, such as milk proteins, and its ability to form standalone cryogels allow it to be utilized for the fabrication of films with improved properties for applications in the food and biomedical–pharmaceutical industries. In the present work, the properties of kefiran films were investigated in the presence of milk proteins (sodium caseinate, native and heat-treated whey proteins, and their mixtures), alongside glycerol (as a plasticizer) and cryo-treatment of the film-forming solution prior to drying. A total of 24 kefiran films were fabricated and studied for their physical (thickness, moisture…
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Taxonomy
TopicsNanocomposite Films for Food Packaging · Food composition and properties · Microencapsulation and Drying Processes
