Decellularized Bone Matrix/45S5 Bioactive Glass Biocomposite Hydrogel‐Based Constructs with Angiogenic and Osteogenic Properties: Ex Ovo and Ex Vivo Evaluations

Abstract: Decellularized extracellular matrix is often used to create an in vivo‐like environment that supports cell growth and proliferation, as it reflects the micro/macrostructure and molecular composition of tissues. On the other hand, bioactive glasses (BG) are surface‐reactive glass‐ceramics that can convert to hydroxyapatite in vivo and promote new bone formation. This study is designed to evaluate the key properties of a novel angiogenic and osteogenic biocomposite graft made of bovine decellularized bone matrix… Show more

“…This reduction in mechanical strength is probably due to the higher content of nano-fillers. Consistent with those in the literature [59,62,63], it is thought that higher nanofiller content negatively affected the gelation process of dECM by preventing the chain movement required for the process. However, the maximum stress was observed to be nearly doubled for 2% MNT-HNT-dECM compared to 1% MNP-HNT-dECM and 4% MNP-HNT-dECM.…”

“…As is known, the physical and chemical properties of materials greatly influence cell behavior; also, differences in surface texture and topography lead to notable changes in cellular response [63,78]. Due to their various properties, the use of MNPs in bone tissue regeneration has become widespread in recent years.…”

Magnetic biocomposite scaffold based on decellularized tendon ECM and MNP-deposited halloysite nanotubes: physicochemical, thermal, rheological, mechanical and in vitro biological evaluations

“…This reduction in mechanical strength is probably due to the higher content of nano-fillers. Consistent with those in the literature [59,62,63], it is thought that higher nanofiller content negatively affected the gelation process of dECM by preventing the chain movement required for the process. However, the maximum stress was observed to be nearly doubled for 2% MNT-HNT-dECM compared to 1% MNP-HNT-dECM and 4% MNP-HNT-dECM.…”

“…As is known, the physical and chemical properties of materials greatly influence cell behavior; also, differences in surface texture and topography lead to notable changes in cellular response [63,78]. Due to their various properties, the use of MNPs in bone tissue regeneration has become widespread in recent years.…”

Magnetic biocomposite scaffold based on decellularized tendon ECM and MNP-deposited halloysite nanotubes: physicochemical, thermal, rheological, mechanical and in vitro biological evaluations