A. Kara Et Al. , "Development of biological meniscus scaffold: Decellularization method and recellularization with meniscal cell population derived from mesenchymal stem cells," JOURNAL OF BIOMATERIALS APPLICATIONS , vol.35, no.9, pp.1192-1207, 2021
Kara, A. Et Al. 2021. Development of biological meniscus scaffold: Decellularization method and recellularization with meniscal cell population derived from mesenchymal stem cells. JOURNAL OF BIOMATERIALS APPLICATIONS , vol.35, no.9 , 1192-1207.
Kara, A., Koçtürk, A. S., Bilici, G., & Havıtçıoğlu, H., (2021). Development of biological meniscus scaffold: Decellularization method and recellularization with meniscal cell population derived from mesenchymal stem cells. JOURNAL OF BIOMATERIALS APPLICATIONS , vol.35, no.9, 1192-1207.
Kara, Aylin Et Al. "Development of biological meniscus scaffold: Decellularization method and recellularization with meniscal cell population derived from mesenchymal stem cells," JOURNAL OF BIOMATERIALS APPLICATIONS , vol.35, no.9, 1192-1207, 2021
Kara, Aylin Et Al. "Development of biological meniscus scaffold: Decellularization method and recellularization with meniscal cell population derived from mesenchymal stem cells." JOURNAL OF BIOMATERIALS APPLICATIONS , vol.35, no.9, pp.1192-1207, 2021
Kara, A. Et Al. (2021) . "Development of biological meniscus scaffold: Decellularization method and recellularization with meniscal cell population derived from mesenchymal stem cells." JOURNAL OF BIOMATERIALS APPLICATIONS , vol.35, no.9, pp.1192-1207.
@article{article, author={Aylin Kara Et Al. }, title={Development of biological meniscus scaffold: Decellularization method and recellularization with meniscal cell population derived from mesenchymal stem cells}, journal={JOURNAL OF BIOMATERIALS APPLICATIONS}, year=2021, pages={1192-1207} }