Litcius/Paper detail

Modification of heat-induced whey protein isolate hydrogel with highly bioactive glass particles results in promising biomaterial for bone tissue engineering

Michał Dziadek, Katarzyna Charuza, Radmila Kudláčková, Jenny Aveyard, Raechelle A. D’Sa, Andrada Serafim, Izabela‐Cristina Stancu, Horia Iovu, Jemma G. Kerns, Sarah L. Allinson, Kinga Dziadek, Piotr Szatkowski, Katarzyna Cholewa‐Kowalska, Lucie Bačáková, Elżbieta Pamuła, Timothy Douglas

2021Materials & Design24 citationsDOIOpen Access PDF

Abstract

This study deals with the design and comprehensive evaluation of novel hydrogels based on whey protein isolate (WPI) for tissue regeneration. So far, WPI has been considered mainly as a food industry by-product and there are very few reports on the application of WPI in tissue engineering (TE). In this work, WPI-based hydrogels were modified with bioactive glass (BG), which is commonly used as a bone substitute material. Ready-to-use, sterile hydrogels were produced by a simple technique, namely heat-induced gelation. Two different concentrations (10 and 20% w/w) of sol–gel-derived BG particles of two different sizes (2.5 and <45 µm) were compared. µCT analysis showed that hydrogels were highly porous with almost 100% pore interconnectivity. BG particles were generally homogenously distributed in the hydrogel matrix, affecting pore size, and reducing material porosity. Thermal analysis showed that the presence of BG particles in WPI matrix reduced water content in hydrogels and improved their thermal stability. BG particles decreased enzymatic degradation of the materials. The materials underwent mineralization in simulated biological fluids (PBS and SBF) and possessed high radical scavenging capacity. In vitro tests indicated that hydrogels were cytocompatible and supported MG-63 osteoblastic cell functions.

Topics & Concepts

Self-healing hydrogelsMaterials scienceWhey protein isolateBiomaterialChemical engineeringInterconnectivityWhey proteinPorosityTissue engineeringBioactive glassThermal stabilitySimulated body fluidBiomedical engineeringComposite materialChromatographyNanotechnologyScanning electron microscopeChemistryPolymer chemistryMedicineArtificial intelligenceComputer scienceEngineeringBone Tissue Engineering MaterialsOrthodontics and Dentofacial OrthopedicsHydrogels: synthesis, properties, applications
Modification of heat-induced whey protein isolate hydrogel with highly bioactive glass particles results in promising biomaterial for bone tissue engineering | Litcius