E. Aytekin Et Al. , "Decellularized bone matrix/45S5 bioactive glass biocomposite hydrogel-based constructs with angiogenic and osteogenic properties: Ex ovo and ex vivo evaluations," MACROMOLECULAR BIOSCIENCE , vol.24, pp.1-17, 2023
Aytekin, E. Et Al. 2023. Decellularized bone matrix/45S5 bioactive glass biocomposite hydrogel-based constructs with angiogenic and osteogenic properties: Ex ovo and ex vivo evaluations. MACROMOLECULAR BIOSCIENCE , vol.24 , 1-17.
Aytekin, E., Vurat, M. T., Elçin, A. E., & Elçin, Y. M., (2023). Decellularized bone matrix/45S5 bioactive glass biocomposite hydrogel-based constructs with angiogenic and osteogenic properties: Ex ovo and ex vivo evaluations. MACROMOLECULAR BIOSCIENCE , vol.24, 1-17.
Aytekin, Ekin Et Al. "Decellularized bone matrix/45S5 bioactive glass biocomposite hydrogel-based constructs with angiogenic and osteogenic properties: Ex ovo and ex vivo evaluations," MACROMOLECULAR BIOSCIENCE , vol.24, 1-17, 2023
Aytekin, Ekin Et Al. "Decellularized bone matrix/45S5 bioactive glass biocomposite hydrogel-based constructs with angiogenic and osteogenic properties: Ex ovo and ex vivo evaluations." MACROMOLECULAR BIOSCIENCE , vol.24, pp.1-17, 2023
Aytekin, E. Et Al. (2023) . "Decellularized bone matrix/45S5 bioactive glass biocomposite hydrogel-based constructs with angiogenic and osteogenic properties: Ex ovo and ex vivo evaluations." MACROMOLECULAR BIOSCIENCE , vol.24, pp.1-17.
@article{article, author={Ekin Aytekin Et Al. }, title={Decellularized bone matrix/45S5 bioactive glass biocomposite hydrogel-based constructs with angiogenic and osteogenic properties: Ex ovo and ex vivo evaluations}, journal={MACROMOLECULAR BIOSCIENCE}, year=2023, pages={1-17} }