Serdar, B. S. Et Al. 2021. Combinations of polyphenols disaggregate Aβ1‑42 by passing through in vitro blood brain barrier developed by endothelium, astrocyte, and differentiated SH‑SY5Y cells.. Acta neurobiologiae experimentalis , vol.81, no.4 , 335-349.

Serdar, B. S., Erkmen, T., & Koçtürk, S., (2021). Combinations of polyphenols disaggregate Aβ1‑42 by passing through in vitro blood brain barrier developed by endothelium, astrocyte, and differentiated SH‑SY5Y cells.. Acta neurobiologiae experimentalis , vol.81, no.4, 335-349.

Serdar, Belgin, TUĞBA ERKMEN DOĞRU, And Semra Koçtürk. "Combinations of polyphenols disaggregate Aβ1‑42 by passing through in vitro blood brain barrier developed by endothelium, astrocyte, and differentiated SH‑SY5Y cells.," Acta neurobiologiae experimentalis , vol.81, no.4, 335-349, 2021

Serdar, Belgin S. Et Al. "Combinations of polyphenols disaggregate Aβ1‑42 by passing through in vitro blood brain barrier developed by endothelium, astrocyte, and differentiated SH‑SY5Y cells.." Acta neurobiologiae experimentalis , vol.81, no.4, pp.335-349, 2021

Serdar, B. S. Erkmen, T. And Koçtürk, S. (2021) . "Combinations of polyphenols disaggregate Aβ1‑42 by passing through in vitro blood brain barrier developed by endothelium, astrocyte, and differentiated SH‑SY5Y cells.." Acta neurobiologiae experimentalis , vol.81, no.4, pp.335-349.

@article{article, author={Belgin Sert Serdar Et Al. }, title={Combinations of polyphenols disaggregate Aβ1‑42 by passing through in vitro blood brain barrier developed by endothelium, astrocyte, and differentiated SH‑SY5Y cells.}, journal={Acta neurobiologiae experimentalis}, year=2021, pages={335-349} }